| Document | Document Title |
|---|---|
| US12027983B2 |
Multi-phase switching regulator incorporating phase current balance circuit
A multi-phase current mode hysteretic modulator implements phase current balancing among the multiple power stages using slope-compensated emulated phase current signals and individual phase control signal for each phase. In some embodiments, the slope-compensated emulated phase current signals of all the phases are averaged and compared to the slope-compensated emulated phase current signal of each phase to generate a phase current balance control signal for each phase. The phase current balance control signal is combined with the voltage control loop error signal to generate a phase control signal for each phase where the phase control signals are generated for the multiple phases to control the phase current delivered by each power stage. |
| US12027980B2 |
Adaptive minimum duty cycle design to extend operational voltage range for DCDC converters
A switched mode power supply (SMPS) includes a first switch, a second switch connected, at a switching node, in series with the first switch, and an inductor coupled between the switching node and an output node for providing an inductor current, at the output node. The SMPS also includes an oscillator circuit for providing a clock signal characterized by an oscillating frequency, an adaptive minimum duty-cycle circuit configured to receive an error voltage signal and to generate a current signal to vary the oscillating frequency of the clock signal in response to the error voltage signal, wherein the error voltage signal is based on an output signal at the output node, and a pulse-width modulation (PWM) circuit configured to receive the error voltage signal and the clock signal and to provide a switching control signal to control the first switch and the second switch. |
| US12027978B2 |
Switching regulator with configurable snubber
A switching regulator includes a low-side switching transistor, a snubber transistor, a first pull-down transistor, and a second pull-down transistor. The low-side switching transistor includes a first current terminal and a second current terminal. The first current terminal is coupled to a switching node. The second current terminal is coupled to a ground terminal. The snubber transistor includes a first current terminal, a second current terminal, and a control terminal. The first current terminal is coupled to the switching node. The second current terminal is coupled to the ground terminal. The first pull-down transistor is coupled between the control terminal of the snubber transistor and the ground terminal. The second pull-down transistor is coupled between the control terminal of the snubber transistor and the ground terminal. |
| US12027966B2 |
Control circuit and method for use in stackable multiphase power converter
A control circuit for controlling a stackable multiphase power converter includes: a synchronization terminal; a synchronization signal connected to the synchronization terminals of a plurality of the control circuits in parallel, wherein the synchronization signal includes a plurality of pulses to be successively counted as a count number; and a reset signal, configured to reset and initiate the count number; wherein the control circuit further comprises a phase-sequence number, wherein the control circuit enables a corresponding power stage circuit to generate a phase of the output power when the count number reaches the phase-sequence number. |
| US12027964B2 |
Single inductor multiple output switching converter and method to control the same
An embodiment circuit comprises first and second output nodes with an inductor arranged therebetween, and first and second switches coupled to opposing ends of the inductor. The switches are switchable between non-conductive and conductive states to control current flow through the inductor and produce first and second output voltages. The current intensity through the inductor is compared with at least one reference value. Switching control circuitry is coupled with the first and second switches, the first and second output nodes, and current sensing circuitry, which is configured to control the switching frequency of the first and second switches as a function of the output voltages and a comparison at the current sensing circuitry. The switching control circuitry is configured to apply FLL-FFWD processing to produce the reference values as a function of a timing signal, targeting maintaining a constant target value for the converter switching frequency. |
| US12027958B2 |
Electric work machine
An electric work machine is drivable appropriately when a brushless motor generates heat. The electric work machine includes a brushless motor including a stator, a rotor rotatable with respect to the stator, and a rotor shaft fixed to the rotor, an output unit drivable by the rotor shaft, a motor case accommodating the stator and the rotor, and a cooling fan located outside the motor case and rotatable by the rotor shaft. |
| US12027956B2 |
Integrated linear generator system
An integrated linear generator system includes, for example, a generator assembly, a control system, a frame system, an exhaust system, an intake system, a cooling system, a bearing system, one or more auxiliary systems, or a combination thereof. The generator system is configured to generate power, as controlled by the control system. The generator assembly may include an opposed- and free-piston linear generator, configured to operate on a two-stroke cycle. The intake and exhaust systems are configured to provide reactants to and remove products from the generator assembly, respectively. The cooling system is configured to effect heat transfer, material temperature, or both, of components of the integrated linear generator system. The bearing system is configured to constrain the off-axis motion of translators of the generator assembly without applying significant friction forces. The frame system is configured to manage rigidity, flexibility, and alignment of components of the integrated linear generator system. |
| US12027953B2 |
Superconducting rotating machine
A superconducting rotating machine includes a stator that includes a cylindrical stator iron core and a stator winding that is toroidally wound around the stator iron core and formed of a superconducting material, and generates a rotating magnetic field, an inner rotor rotatably held at an inner circumferential side of the stator, and an outer rotor rotatably held at an outer circumferential side of the stator. The inner and outer rotors each include at least one rotor winding selected from a superconducting squirrel cage winding including a single or a plurality of rotor bars and end rings that are formed of a superconducting material, and a normal conducting squirrel cage winding including a single or a plurality of rotor bars and end rings that are formed of a normal conducting material, and a rotor iron core including a plurality of slots that accommodate respective rotor bars of the rotor winding. |
| US12027951B1 |
Strong magnetic power generation on-board power device
The present disclosure discloses a strong magnetic power generation vehicle mounted power device including a strong magnetic power generation equipment, an installation seat installing on a vehicle body, a support plate fixedly connected to the strong magnetic power generation equipment; a socket providing on the support plate; a support rod inserted into the socket; a bottom plate providing on the installation seat; a spring fixedly connected between the bottom plate and the support plate; the socket is elliptical, and the support rod is also elliptical; a top end of the support rod extends out the socket; a top end of the support rod is fixedly connected with a threaded part; the threaded part is connected with a nut; the nut is provided with a rim; the rim abuts against the support plate. The present disclosure can reduce vibration generated by the strong magnetic power generation equipment. |
| US12027946B2 |
Motor unit
A motor unit according to an aspect of the present invention includes: a motor having a rotor that rotates about a motor axis and a stator located radially outside the rotor; an inverter that controls a current to be supplied to the motor; and a housing having a motor housing portion that houses the motor and an inverter housing portion that houses the inverter. The housing further includes an inverter housing provided with a top plate portion covering an opening of the inverter housing portion. The inverter is fixed to a back surface of the top plate portion, facing the inside of the inverter housing portion. |
| US12027945B2 |
Electric motor
A frame of an electric motor has inlet holes to allow ambient air to flow into an inside of the motor and outlet holes to allow the ambient air entering through the inlet holes to flow out to an outside of the motor. The motor includes a shaft, a rotor, a stator, a fan to rotate integrally with the shaft, and a guide. The guide is disposed outwardly of the fan in the radial direction and has a shape for suppressing foreign materials contained in the ambient air entering through the inlet holes from coming into contact with the stator and the rotor. |
| US12027943B2 |
Electric axle assembly
An electric motor cooling jacket enclosing a surface of an electric motor stator and having protuberances adapted for contact with the surface of the stator, with fluid passageways formed by the cooling jacket body, the protuberances, and the surface of the electric motor stator, wherein the fluid passageways are arranged to permit a cooling fluid to flow in a serpentine path across the surface of the stator to remove heat from the stator. Spray rings are fluidly coupled with the fluid passageways so as to permit the cooling fluid to flow into the fluid passageways, across the outer circumference of the electric motor stator, and out from orifices in the spray rings to cool the windings of the stator. The protuberances are formable using a pair of mold halves aligned anti-symmetrically with one another so that a serpentine fluid path is formed when casting the cooling jacket body. |
| US12027940B2 |
Rectifier
An AC to DC conversion device has first and second AC input terminals arranged to be coupled respectively to first and second terminals of a phase of an AC current generator, an H-bridge rectification device comprising two pairs of diodes, each pair being coupled to a respective one of the AC terminals to produce a DC output comprising a rectified back EMF waveform, and a waveform generator. The waveform generator comprises an output coupled to the DC output of the H-bridge rectification device, and is configured to input a unidirectional waveform to the DC output having the same magnitude and fundamental frequency as the rectified back EMF, phase shifted by a predetermined angle relative to the rectified back EMF waveform. |
| US12027937B2 |
Voice coil motor
A voice coil motor includes a base, a lens housing, a voice coil, a magnet, an elastic sheet, and a yoke member. The lens housing has a first margin wall, and a first protrusion and a second protrusion extend from the first margin wall. The height of the second protrusion is lower than the height of the first protrusion. The yoke member has a first wall, a connection wall, a second wall, and a side wall. The first wall, the connection wall, and the second wall together form a stepped structure. The first wall is disposed on the first protrusion, and the second wall is disposed on the second protrusion. The lens housing has a deflectable angle relative to a horizontal reference line. When the lens housing deflects to a maximum value of the deflectable angle, the second protrusion abuts against the second wall. |
| US12027934B2 |
Vibration actuator and electronic device with vent hole
A vibration actuator includes: a fixing body including a hollow case and a coil, a movable body that includes a magnet, and an elastic supporting part that supports the movable body such that the movable body is freely movable with respect to the fixing body in the hollow case. The hollow case restricts a movement range of the movable body in the case by opposite end surface portions that are disposed to face each other at a distance from each other in the vibration direction of the movable body, the hollow case includes one or more vent holes, and the vent holes are disposed in a portion of at least one end surface portion of the opposite end surface portions, the portion being free from interference by the movable body. |
| US12027932B2 |
Stator assembly, motor, compressor, and refrigeration device
A stator assembly, a motor, a compressor and a refrigeration device are provided. The stator assembly has a store core, tooth parts, and windings. The tooth parts are arranged on an inside wall of the stator core and distributed in a circumferential direction of the stator core. Grooves are defined between every two adjacent tooth parts. The tooth parts have a first tooth. The windings are arranged on the tooth parts by being initially wound on the first tooth and, subsequently passing through the grooves on both sides of the first tooth when being wound on other tooth parts. |
| US12027929B2 |
Rotating electrical machine
A rotating electrical machine equipped with a magnet unit and a magnetic body. The magnet unit is also equipped with magnet covers wrapped about armature-facing peripheral surfaces of the magnets. Each of the magnets has recesses formed in portions of the armature-facing peripheral surface which are located close to q-axes each of which lies at a boundary between magnetic poles. Each of the magnet covers is recessed in the radial direction in accordance with the shape of the magnet recesses. If the armature-facing peripheral surface of the magnets is between a circumferentially adjacent two of the magnet recesses is defined as a main magnetic pole surface, and an angle representing a circumferential range occupied by the main magnetic pole surface is defined as a main magnetic pole angle θa, the main magnetic pole angle θa is selected to be 2π/5<θa<2π/3. |
| US12027928B2 |
Insulator and motor
Insulators are formed of a resin material using injection molding and provided at an end portion in an axial direction of a cylindrical stator included in a motor. Each of the insulators includes a wall portion that is formed in a cylindrical shape; a plurality of winding drum portions that consecutively extend from the wall portion so as to be along one end surface in an axial direction of the wall portion from an inner peripheral surface of the wall portion toward an inner side in a radial direction of the wall portion; and a plurality of opening portions that are formed between the respective winding drum portions, which are adjacent in the circumferential direction of the wall portion. A gate mark, which indicates an injection location of the resin material, is formed on the one end surface in the axial direction of the wall portion. |
| US12027926B2 |
Method for pulling a stator winding system into a stator lamination stack
Disclosed is a method for pulling a stator winding system of an electric machine into a stator lamination stack of the electric machine and to a winding tool, with the stator lamination stack having stator grooves which run parallel to a rotation axis of the electric machine and are distributed in a circle around the rotation axis and open thereto and which have on an end facing the rotation axis a gap region which is narrowed relative to the rest of the stator groove. Windings are arranged in the stator grooves, and winding overhangs, as seen in the direction of the rotation axis, protrude from the stator lamination stack at the two axial ends thereof, with the windings formed in the stator grooves as laid windings. The stator lamination stack has no guide structures on the two axial ends for guiding the individual turns of the windings. |
| US12027920B2 |
Rotor, and rotary electric machine
A rotor includes a rotor core having a plurality of magnetic poles. At least one magnetic pole includes a first magnetic pole having three or more circumferentially arranged magnet holes, and a plurality of permanent magnets housed corresponding magnet holes. A portion of the rotor core between adjacent magnet holes has a radially extending region. A maximum radial dimension of each magnet hole is greater than a minimum radial dimension of a portion of the rotor core between a magnet hole radially outer surface and a rotor core outer peripheral surface. The first magnetic pole has a smaller amount of harmonic components in a radial flux density distribution on the rotor core outer peripheral surface, compared to a magnetic pole having a plurality of magnet holes arranged at equal circumferential intervals and a plurality of permanent magnets having substantially the same magnetic flux and number. |
| US12027919B2 |
Rotor magnet retainer
A motor assembly is provided including a stator assembly and a rotor assembly rotatably disposed relative to the stator assembly. The rotor assembly includes a rotor core having magnet pockets formed therethrough along a longitudinal direction, permanent magnets received within the magnet pockets, and a spring structure disposed in contact with the end of the rotor core. The spring structure includes spring elements configured to apply biasing forces to the permanent magnets along the longitudinal direction of the magnet pockets. Optionally a magnet retention end cap is provided to secure the spring structure to the end of the rotor core. |
| US12027917B2 |
Electric motor
An electric motor which is designed as an internal rotor, comprising a laminated stator core and a functional support which is arranged on a rear side that faces away from an output side of the laminated stator core. The functional support includes a plastic housing and connecting elements which are integrated in the plastic housing and protrude therefrom in the axial direction of the laminated stator core. The functional support is interlocking and/or integrally connected to the laminated stator core in the axial direction at a lateral outer surface of the laminated stator core by means of the connecting elements. |
| US12027911B2 |
Modular solar cell and solar cell array
Embodiments of the present invention include modular solar power cells, arrays, and power management systems for use in satellite systems and constellations. In one embodiment, a solar cell module can include: a module substrate including a high-emissivity side and a mounting side; a power management circuit mounted to the mounting side of the module substrate; a battery arranged adjacent to the power management circuit; a solar cell substrate arranged adjacent the battery and including an embedded battery heater; and a solar cell mounted directly to the solar cell substrate and connected to the battery. |
| US12027910B1 |
Battery power system
A battery power system for powering at least one electric motor. The system comprises a main battery and an intermediate storage device electrically coupled to the main battery such that the intermediate storage device can be charged by the main battery, and the intermediate storage device being configured to supply power to the electric motor. The intermediate storage device is constructed and configured to accept and deliver charge at a higher rate than the main battery whilst having a lower energy storage capacity than the main battery. |
| US12027909B2 |
Power conversion system and method of controlling the same
The application discloses a power conversion system and a controlling method of the same. The power conversion system includes: n choppers, comprising n switching arms connected in parallel, each chopper including: the switching arm, an inductor having a first end connected to a midpoint of the switching arm, and a first capacitor connected in parallel to the switching arm; and n DC components corresponding to the n choppers with a one-to-one relation, wherein one of the DC components is a DC power supply or a DC load, first ends of the DC components are connected together, and a second end of each of the DC components is connected to a second ends of the inductor of the corresponding chopper, where n is a natural number of 2 or more. |
| US12027908B2 |
High power density universal vehicle charger
A system in a vehicle includes a first set of one or more windings and a second set of one or more windings electrically isolated from the first set of one or more windings. The system also includes a first inverter coupled to a battery of the vehicle and the first set of one or more windings and a second inverter electrically separated from the first inverter and coupled to the second set of one or more windings. A universal charger includes an alternative current (AC) charging port and a direct current (DC) charging port. A switch is controlled to close to connect the second inverter to the battery. |
| US12027906B2 |
Electronic device for stopping charging of battery and/or providing user interface based on over-discharged state of battery and method for controlling same
An electronic device is provided. The electronic device includes at least one battery, a charging circuit, a display, at least one processor, and a memory, the charging circuit is configured to charge the at least one battery or supply power to the at least one processor and/or the display by receiving charging power provided from an outside, and the at least one processor is configured to operate based on at least part of the power supplied from the charging circuit while the electronic device is in an off-state, and to identify whether the at least one battery is in an overdischarged state, and based on identifying that the at least one battery is in the overdischarged state, display, on the display, at least one image representing a state of the at least one battery among a plurality of images stored in the memory. |
| US12027904B2 |
Systems and methods for low current detection
System and method for charging or discharging one or more batteries. For example, a battery management system for charging or discharging one or more batteries includes: a first transistor including a first transistor terminal, a second transistor terminal, and a third transistor terminal, the second transistor terminal being configured to receive a first drive signal; a second transistor including a fourth transistor terminal, a fifth transistor terminal, and a sixth transistor terminal, the fifth transistor terminal being configured to receive a second drive signal; a burst mode detector configured to receive the first drive signal and generate a burst-mode detection signal based at least in part on the first drive signal; and a drive signal generator configured to receive the burst-mode detection signal and generate the first drive signal and the second drive signal based at least in part on the burst-mode detection signal. |
| US12027901B2 |
Method and device for reducing voltage loads of semiconductor components of an inverter
A method and device for reducing voltage loads of semiconductor components of an inverter. The method includes: ascertaining a request to charge a battery of an electric system including the battery, the inverter, and an electric machine. The inverter including a series connection including a first and a second semiconductor component, and being configured to convert a direct voltage provided by the battery into an alternating voltage for the electric machine, and adapt a gate voltage of the first semiconductor component and/or of the second semiconductor component to interrupt a current flow between the battery and the electric machine during the charging. A voltage load of a gate oxide layer of the semiconductor components is reduced by decreasing the gate voltages of the first semiconductor component and of the second semiconductor component and/or a voltage load of a drain-source path of the semiconductor components being matched to one another. |
| US12027897B2 |
Battery secondary protection circuit and operation method thereof
A battery secondary protection circuit includes a first pin, a second pin, a first sensing circuit, a first current source, a first enabling circuit and a first protection circuit. The first pin and the second pin are coupled to two terminals of a first battery. The first sensing circuit, coupled between the first pin and second pin, provides a first sensing signal and a second sensing signal. The first current source, coupled between the first pin and second pin, provides a first current. The first enabling circuit, coupled to the first sensing circuit and first current source, generates a first enabling signal according to the first sensing signal. The first protection circuit is coupled to the first sensing circuit. When the first enabling signal enables the first current source, the first protection circuit generates a first protection signal according to a second sensing signal changed with the first current. |
| US12027894B2 |
Power transmission system and method
The disclosure provides a power transmission system and method. The power transmission method includes: determining to perform a charging operation or a discharge operation between a battery module and a power supplying/receiving module according to a handshake procedure performed by a power transmission module. Performing the charging operation includes: adjusting a supply voltage outputted by the power supplying/receiving module; and converting the supply voltage into a charging voltage received by the battery module to charge the battery module. Performing the discharging operation includes: converting a discharge voltage outputted by the battery module into a required voltage required by the power supplying/receiving module to supply the power supplying/receiving module. The charging operation or the discharging operation is performed in a maximum power mode, an optimal efficiency mode or a combination thereof between the battery module and the power supplying/receiving module. |
| US12027884B2 |
Information processing device, information processing system, data generation method, and non-transitory computer readable medium
An example object of the present disclosure is to provide an information processing device that is capable of generating a received power distribution around a shield or an obstacle. The information processing device according to the present disclosure includes a detection unit configured to detect presence of an obstacle by using a measurement value of received power measured by a measurement device that receives a wireless radio wave, an estimation unit configured to estimate a change in received power in a predetermined area before detecting presence of the obstacle and after detecting presence of the obstacle, and an updating unit configured to update a first received power distribution in the predetermined area being stored in a storage device, which is generated based on the measurement value before detecting presence of the obstacle, by using the change in received power. |
| US12027883B2 |
Optical power supply system with adjustment of feed light supply based on electric power consumption
An optical power supply system includes a power sourcing equipment, a powered device and a control device. The power sourcing equipment includes a semiconductor laser that oscillates with electric power and performs pulsed output of feed light. The powered device includes a photoelectric conversion element that converts the feed light into electric power. The control device adjusts a supply amount of the feed light to be supplied from the semiconductor laser by a pulse width of the feed light according to a consumption of the electric power obtained by the conversion by the powered device. |
| US12027882B2 |
Smart rectenna design for passive wireless power harvesting
The present technology is directed to a system and method for implementing passive power harvesting from ambient electromagnetic emissions with a smart rectenna that incorporates automatic frequency response tuning features. The disclosed system incorporates a tunable High Pass Filter and voltage multiplier rectifier with a front-end ultra wide band antenna unit. The frequency response of tunable components can be actively adjusted to match the frequency band containing most of the energy in the incident electromagnetic emission. A look up table is used for determining the appropriate biasing levels of the tunable components for each frequency in a frequency band of interest. By tuning a frequency response of impedance matching, filtering and rectifying components to correspond to a frequency region of maximum power spectral density in the incident energy signal, the system facilitates the scavenging of ambient electromagnetic energy from the spectral region with the highest power spectral density. |
| US12027879B2 |
Induction-based aerosol delivery device
An aerosol delivery device includes a receptacle configured to receive a substrate configured to carry an aerosol precursor composition, and a resonant transformer including a transmitter coupling device and a resonant receiver coupling device that is positioned in proximity to the substrate when received in the receptacle. The aerosol delivery device also includes a pulse width modulation (PWM) inverter configured to drive the resonant transformer. The PWM inverter includes a bridge circuit coupled to the transmitter coupling device, and a PWM controller embodied as an integrated circuit and configured to output a PWM signal to the bridge circuit configured to drive the transmitter coupling device to generate an oscillating magnetic field and induce an alternating voltage in the resonant receiver coupling device when exposed to the oscillating magnetic field. The alternating voltage causes the resonant receiver coupling device to generate heat and thereby vaporize components of the aerosol precursor composition. |
| US12027876B2 |
Wireless medical device powering system
Disclosed herein is a wireless medical device powering system configured to power an untethered medical device including a first medical device having an induction receiving coil, the induction receiving coil in communication with each of one or more electrical systems and a first medical device console comprising one or more processors, a non-transitory computer readable medium, and a plurality of logic modules. The system can include a wireless powering device configured to wirelessly provide power to the first medical device, the wireless powering device having a body including an induction transmitting coil. |
| US12027874B2 |
Wireless power transmitter, wireless power receiver, and operating method thereof
Provided is a portable communication device which transmits manufacturer information and capability information to a wireless power transmitter, the manufacturer information being indicative of a manufacturer of the portable communication device and the capability information being indicative of a charging function of the portable communication device, receives a response from the wireless power transmitter including one or more characteristics with respect to the charging function allowed for the portable communication device, the one or more characteristics being determined by the wireless power transmitter based at least in part on the manufacturer information and the capability information received from the portable communication device, transmits a request for updating at least one of the one or more characteristics with respect to the charging function, and performs the charging function to charge the battery using power received from the wireless power transmitter and determined based on the at least one updated characteristic. |
| US12027870B2 |
Power-data nodes for an aircraft system
Systems and methods for power and data distribution on an aircraft. One embodiment provides an aircraft comprising a plurality of nodes, a power system controller, and an aircraft controller. Each node is connected to a plurality of LRUs, and each node includes a node controller. The power system controller is configured to control power distribution to each node. The aircraft controller is configured to transmit data to each node and to receive data from each node. The node controller includes an electronic processor and a memory. The node controller is configured to control power to the plurality of LRUs, receive first data from at least one LRU of the plurality of LRUs, and provide the first data to the aircraft controller. The node controller is further configured to receive second data from the aircraft controller and provide the second data to at least one LRU of the plurality of LRUs. |
| US12027868B2 |
Controlling a wind turbine converter
Provided is a method of controlling a converter, in particular of a wind turbine, the converter including a first converter portion connected to a generator, a DC-link, and a second converter portion connected to a utility grid. The method including: controlling the first converter portion and the second converter portion by a first control signal and a second control signal, respectively, both being derived based on a requested power signal, in particular requested active power signal, and a generator rotational speed, wherein the first control signal indicates substantially constant generator torque for rotational speed variations of the generator rotational speed above a frequency threshold. |
| US12027864B2 |
Utility energy cloud exchange
A system for accounting for and allocating energy value amongst (i) energy equivalent quantity (EEQ) suppliers associated with supplier accounts and that contribute EEQ to a total energy supply and (ii) energy consumers associated with a consumer account and that issue energy demands for energy. An energy cloud value allocation system (e-cloud) facilitates and controls an exchange of EEQ and energy between the EEQ suppliers and the energy consumers. The e-cloud receives EEQ contributions from the EEQ suppliers and generates energy credits, where a value of each energy credit is based on the EEQ contribution. The e-cloud is also configured to receive energy demands from the energy consumers and to satisfy the energy demands by delivering energy and EEQ to the consumers. Finally, the e-cloud generates energy debits, where a value of each energy debit is based on the EEQ that is delivered to the energy consumer from the e-cloud in response to energy demands. |
| US12027862B1 |
Inverter power source load dependent frequency control and load shedding
A method and apparatus is described for conveying the amount of loading of a power source to a load control device by controlling the frequency of the AC power output from that power source in a manner that controlled frequency represents the loading. At a different location in the power system, the frequency is measured and the corresponding loading of the power source is used to prevent or alleviate a power source overload. |
| US12027859B2 |
Methods and systems for power management in a microgrid
A method for power management in a microgrid, the microgrid including at least one renewable energy source, at least one non-renewable energy source and at least one grid-forming energy storage source. |
| US12027857B2 |
Method for controlling peak saving by wind power grid
A method for controlling peak saving by wind power grid. The method includes: S1: evaluating dispatchability of a cluster virtual wind power unit; S2: developing a method for calculating a dispatchability index of the cluster virtual wind power unit; S3: analyzing a source-load peak-shaving resource strategy; and S4: distributing a control strategy for tie-line peak shaving. The present disclosure has the following beneficial effects: In the present disclosure, real-time dispatchability of wind power participating in real-time power balance is first analyzed, specific evaluation indexes and calculation methods are provided, and calculation examples are given for verification. Then, an optimized real-time dispatch strategy is provided based on demand-side response resources, and DC and AC tie-lines are coordinated for operation. The peak shaving control method for emergent source-grid coordination when a sending-end power grid is faulty can ensure normal operation. |
| US12027854B2 |
Detection of downstream smart devices
Disclosed herein are system, apparatus, article of manufacture, method and/or computer program product embodiments, and/or combinations and sub-combinations thereof, for detecting downstream devices connected to an electrical load controlling device. An example embodiment operates by detecting an association signal from a downstream smart device responsive to a downstream smart device detection signal. The example embodiment further operates by determining whether the downstream smart device is coupled to an electrical terminal of an electrical switching device and configured to receive electricity in response to an actuation of the electrical switching device. If so, the example embodiment further operates by generating a control signal configured to instruct the electrical switching device to prevent a deactuation of the electrical switching device and transmitting the control signal to the electrical switching device. |
| US12027847B2 |
Charge dissipation element for ESD protection
An electrostatic discharge protection circuit includes an electrostatic discharge clamp between a first rail and a second rail, a trigger device configured to activate the electrostatic discharge clamp in response to an electrostatic discharge event, and a charge dissipation element between the first rail and the second rail to dissipate a residual charge at an input of the trigger device. |
| US12027845B2 |
Shoot through current detection and protection circuit
A shoot-through protection circuit includes a current sensor providing a sensor signal connected to a comparator input via at least a burden resistor. A switch protection circuit including a protection input connected to an output of the comparator and a plurality of outputs. Each of the outputs is connected to a corresponding switch in a plurality of stacked switches. Wherein the switch protection circuit is configured to drive each switch of the plurality of stacked switches open in response to a positive output signal from the comparator. |
| US12027843B2 |
Systems and methods for high-speed falling conductor protection in electric transmission systems
Systems, methods, and computer-readable media are disclosed for high-speed falling conductor protection in electric distribution systems. An example method may include calculating, by a processor, at a first time, and for each phase, one or more first impedance values associated with one or more terminals of a transmission line. The example method may also include calculating, by the processor, at a second time, and for each phase, one or more second impedance values associated with the one or more terminals. The example method may also include determining, by the processor, that a rate of change of an impedance of the one or more terminals is greater than a threshold rate of change. The example method may also include determining, by the processor and based on the determination that the rate of change of the one or more terminals is greater than the threshold rate of change, that the transmission line has broken. The example method may also include sending, by the processor and based on the determination that the transmission line has broken, a signal to de-energize the transmission line before a broken conductor reaches a ground surface. |
| US12027840B2 |
Busbar for an aircraft, method of manufacturing such busbar, and aircraft comprising such busbar
A busbar for an aircraft with at least two conductive layers and at least three insulating layers. The conductive layers and the insulating layers are stacked together alternatingly and extend in a longitudinal direction. The conductive layers and the insulating layers include different coefficients of thermal expansion. Each of the conductive layers includes spatial structures. Each spatial structure is connected to an adjacent one by an interconnecting segment. Each conductive layer is embedded between two insulating layers, resulting in a deforming of the side walls of the spatial structures under heat, thereby compensating a longitudinal expansion of the conductive layers. Further, an aircraft with a disclosed busbar and a method of producing such busbar is provided. |
| US12027836B2 |
Routing member and wire harness
The present disclosure provides a routing member and a wire harness that are capable of absorbing tolerances. A wire harness 10 has a routing member 40. The routing member 40 has a body portion 41 having a columnar shape, and a groove portion 42 in which a wire 20 is to be accommodated, the groove portion 42 being formed on an outer circumferential side of the body portion 41. The groove portion 42 has a meandering portion 45 extending in an axial direction of the body portion 41 while meandering. The wire harness 10 has the wire 20 accommodated in the groove portion 42 of the routing member 40 and routed along the groove portion 42. |
| US12027829B2 |
Switchgear system having translatable and rotatable truck and associated method
A switchgear system includes a switchgear frame having an interior compartment and front opening and containing therein at least one electrical switchgear component. A truck carries an electrical component and is supported for movement on the switchgear frame. A drive mechanism connects the truck and is configured to rack in the truck into an electrically connected position with the at least one electrical switchgear component, rack out the truck from the electrically connected position into an electrically disconnected position, and rotate the truck upward from its disconnected position into a rotated position to allow operator access through the front opening to the at least one electrical component. |
| US12027822B2 |
Optical semiconductor device
To provide an optical semiconductor device having excellent long-term reliability, the optical semiconductor device includes: a substrate; a mesa structure provided on the substrate; a semiconductor burial layer provided in contact with two sides of the mesa structure; and an electrode containing Au, which is provided above the semiconductor burial layer. The mesa structure includes a first conductivity type semiconductor layer, a multiple-quantum well layer, and a second conductivity type semiconductor layer, which are stacked in the stated order from a substrate side. The semiconductor burial layer includes a first semi-insulating InP layer provided in contact with side portions of the mesa structure, a first anti-diffusion layer provided in contact with the first semi-insulating InP layer, and a second semi-insulating InP layer provided on the first anti-diffusion layer. The first anti-diffusion layer has an Au diffusion constant that is smaller than that of the first semi-insulating InP layer. |
| US12027821B2 |
Bonded tunable VCSEL with bi-directional actuation
A MEMS tunable VCSEL includes a membrane device having a mirror and a distal-side electrostatic cavity for displacing the mirror to increase a size of an optical cavity. A VCSEL device includes an active region for amplifying light. Then, a proximal-side electrostatic cavity is defined between the VCSEL device and the membrane device is used to displace the mirror to decrease a size of an optical cavity. |
| US12027820B2 |
Surface-emitting laser and method of manufacturing the same
A surface-emitting laser includes a first reflector layer, an active layer provided on the first reflector layer, and a second reflector layer provided on the active layer. The second reflector layer includes a corner reflector that tapers in a direction opposite to the first reflector layer, and the corner reflector has a plan shape of a circle or a polygon with an even number of vertexes. |
| US12027817B2 |
Laser component comprising a laser chip
The invention relates to a laser chip located between a first and a second electrically and thermally conductive component, wherein: a first lateral surface of the laser chip is connected in a planar manner to a first lateral surface of the first component; the second lateral surface of the laser chip is connected in a planar manner to a first lateral surface of the second component; the laser chip has a radiation side which is located between the components; the radiation side is arranged set back inwardly at a predefined distance from the first end faces of the components; and a radiation space, which extends from the radiation side of the laser chip to the first end faces of the components is formed between the first lateral surfaces of the two components and adjacent to the radiation side of the laser chip. |
| US12027815B2 |
Optical module
Each semiconductor device includes a semiconductor laser unit and an optical modulator unit. Each transmission line is configured to transmit a drive signal to the optical modulator unit. Each resistor is provided for the transmission line and configured to terminate the drive signal. Each first conductive pattern is connected to one electrode of the semiconductor laser unit and one electrode of the optical modulator unit. Each chip capacitor has one electrode connected to another electrode of the semiconductor laser unit through a bonding wire. Each chip capacitor has another electrode connected to the first conductive pattern that is connected to the semiconductor laser unit. Each second conductive pattern is connected to the resistor, directly or through a DC blocking capacitor. Each third conductive pattern is connected to each of the first conductive pattern and the second conductive pattern through a conductive via hole in the chip carrier. |
| US12027811B2 |
Octave-spanning soliton comb
The present invention provides octave-spanning optical frequency combs. The octave-spanning optical frequency combs employ microresonators having improved stability using a smaller form factor. In some embodiments, the octave-spanning optical frequency combs are fabricated using aluminum nitride (AlN). AlN is a more robust Kerr material for generating octave-spanning soliton comb (e.g., 1.5 octaves or more). |
| US12027810B2 |
Solid-state lasers and assembly method therefor
A quasi-monolithic solid-state laser in which the optical components of the laser cavity are bonded to a common substrate via mounts. The optical components and their mounts are fixedly connected to each other and to the substrate by bonding. While the gain medium is bonded to a mount made of a different material with high thermal conductivity for heat sinking, the cavity's lens and mirror components and their mounts are all made of the same material as the substrate, or a different material that is thermally matched to the substrate, and fixedly mounted on the substrate solely with bonding. The bonding is achieved with adhesive bonding, or some other form of bonding such as molecular bonding, chemically activated direct bonding or hydroxide catalysis bonding. |
| US12027808B2 |
Cable television apparatus with screwless clamping connector structure
A cable television apparatus with a screwless clamping connector structure includes a support structure and at least one rotary connector structure which includes a screwless clamping connection part and a printed circuit board connection part, wherein the screwless clamping connection part includes a first end part which defines an opening to receive a coaxial cable core of a coaxial cable. The at least one rotary connector structure can be rotated to change an opening direction of the opening. |
| US12027801B2 |
Tree pole connectors
Disclosed are embodiments for providing electrical connection between trunk sections of an artificial tree. In some embodiments, forces are created between electrical connectors on plugs and sockets to ensure a secure electrical connection. In other embodiments, pins and sockets are used in conjunction with rotational orientation devices to ensure proper orientations of the pins and sockets. |
| US12027800B2 |
Connector increasing accuracy of positioning terminal tab into the moving plate
A connector having a moving plate that performs positioning of a tab in an excellent manner. This connector comprises: a first housing having a terminal-holding part and a hood part; a male terminal fitting with a tab protruding into the hood part; a second housing that is closely fitted with the first housing; and a moving plate that positions a front-end part of the tab and is capable of moving inside the hood part, the tab penetrating through the moving plate. The moving plate has a protrusion formed such that a hole edge section of a positioning hole within a first facing surface that faces the second housing is caused to protrude forward. When the moving plate is in an initial position, the front end of the tab is positioned farther toward the rear than a virtual protective surface to which the outer surface of the protrusion is extended forward. |
| US12027799B2 |
Electrical junction box
An electrical junction box includes an electronic component including a component main body and a terminal protruding from the component main body, a block including a mating terminal configured to be connected to the terminal and a block main body configured to accommodate the mating terminal and a case having a box shape and configured to accommodate the electronic component and the block. The component main body of the electronic component is provided with a first locking portion. The block is provided with a second locking portion. The case is provided with a third locking portion configured to be engaged with the first locking portion and a fourth locking portion configured to be engaged with the second locking portion. |
| US12027797B2 |
High voltage adapter
The present disclosure relates to a high voltage adapter (1) for insertion into an adapter socket (2) in a high voltage unit (10), the adapter (1) comprises an oblong cylindrical main body (3) having a first outer diameter (D1), the main body (3) comprising a first circumferential portion (3′), the first circumferential portion (3′) having a second outer diameter (D2), wherein the second outer diameter (D2) is greater than the first outer diameter (D1). Further, the adapter (1) comprises a first threaded female portion (4) extending from a first base (5) of the main body (3) and a second threaded female portion (6) extending from an opposing second base (7) of the main body (3), each threaded female portion (4, 6) extending perpendicular to each corresponding base (5, 7) into the main body (3). Moreover, each threaded female portion (4, 6) is arranged to receive a threaded male connector (17, 18), so to transfer voltage signals from a first environment to a second environment. Also, the female portions (4, 6) extend towards each other and are separated by an inner wall (9). |
| US12027794B2 |
Electrical connector having insulative housing with slots defined by dividing walls of different lengths
An electrical connector includes: an insulative housing having a row of slots defined by plural dividing walls thereof, and plural contacts secured in the insulative housing and each including a securing portion, a front contacting portion disposed in a corresponding slot, and a rear tail, wherein the plurality of dividing walls includes a group of first dividing walls each having a first length and a group of second dividing walls each having a second length along a front-to-back direction, and the first length is shorter than the second length to expose to air a larger extent of the front contacting portions of associated contacts disposed in the slots defined by the group of first dividing walls with respect to the front contacting portions of associated contacts disposed in the slots defined by the group of second dividing walls. |
| US12027791B2 |
Board to board connectors
A board to board connector includes a first male connector and a second male connector. The first male connector includes a first number of pins. The second male connector is aligned with the first male connector and includes a second number of pins. The first male connector is configured to be removably electrically coupled to a first female connector including a third number of pins equal to the first number and the second male connector is configured to be removably electrically coupled to a second female connector including a fourth number of pins equal to the second number. The first male connector and the second male connector are also configured to be removably electrically coupled to a single third female connector including a fifth number of pins equal to the first number plus the second number. |
| US12027788B2 |
Dual polarization connected antenna array
An antenna assembly includes a first antenna array and at least one second antenna array disposed a substrate. The first antenna array includes a first monopole antenna element and at least a second monopole antenna element. A metal strip member is coupled to the first monopole antenna element and to the second monopole antenna element. The second antenna array comprises a dipole shaped coupler. The first antenna array and the second antenna array are spaced apart by a predetermined distance and occupy a common space. |
| US12027787B2 |
Antenna module, communication device in which antenna module is installed, and method of manufacturing antenna module
An antenna module is to be installed in a communication device. The antenna module includes a dielectric substrate that has a multilayer structure, a ground electrode that is disposed in the dielectric substrate, and a first radiating element that has a flat plate shape. The first radiating element has a first surface (a smooth surface) and a second surface (a rough surface) that has a higher degree of surface roughness than that of the smooth surface. The smooth surface of the first radiating element faces the ground electrode. |
| US12027785B2 |
Broad tunable bandwidth radial line slot antenna
Antennas and methods for using the same are described. In one embodiment, the antenna comprises an aperture having a plurality of radio-frequency (RF) radiating antenna elements, the plurality of RF radiating antenna elements being grouped into three or more sets of RF radiating antenna elements, with each set being separately controlled to generate a beam at a frequency band in a first mode. |
| US12027783B2 |
Multi-loop resonance structure and multiple-input and multiple-output (MIMO) antenna communication system
A multi-loop resonance structure and a multiple-input and multiple-output (MIMO) antenna communication system. The multi-loop resonance structure includes a metal floor, a first feed branch plate, and a first metal patch, where the metal floor is disposed on a lower surface of the first dielectric substrate, and the metal floor is provided with a resonant-tank set; the first feed branch plate is disposed in parallel on an upper surface of the first dielectric substrate, and a first straight plate in the first feed branch plate is disposed opposite to the resonant-tank set along a substrate line; an end, in the first feed branch plate, far away from the substrate line is connected to the metal floor; and the first metal patch is connected to the metal floor through the first dielectric substrate along a first surface, in the second dielectric substrate, perpendicular to the first dielectric substrate. |
| US12027782B2 |
Electronic device
An electronic device including an antenna structure and a switching circuit is provided. The antenna structure includes a first radiating element, a second radiating element, a feeding element and a grounding element. The first radiating element incudes a first radiating part and a feeding part. The second radiating element is coupled with the first radiating element, and includes a main body and an arm that is electrically connected to the switching circuit. The feeding element includes a feeding end electrically connected to the feeding part, and a grounding end electrically connected to the grounding element. The antenna structure generates a first operation bandwidth and second operation bandwidth when the switching circuit is switched to a first and second mode, respectively. A central frequency of the first operation bandwidth is different from that of the second operation bandwidth. |
| US12027780B2 |
Cellular system
A system includes one or more antennas and a processor to communicate with a predetermined target using 5G or 6G protocols. |
| US12027779B1 |
Two-dimensional planar and crossover-free beamforming network architecture
An antenna system has a two-dimensional field of view, yet can be implemented on a surface, such as on electronic or photonic integrated circuits. The antenna system includes an array of antennas disposed in a predetermined non-linear pattern and a two-dimensional beamforming network (BFN). The antenna system can be steered/selectively beamformed in two dimensions through beam port selection. The beamforming network is disposed entirely on a single first surface. The beamforming network has a one-dimensional array-side interface disposed on the first surface and a one-dimensional beam-side interface disposed on the first surface. The antennas of the array of antennas are individually communicably coupled to the array-side interface. Segments of the beam-side interface map to respective pixels in the two-dimensional field of view. |
| US12027776B2 |
Terminal device
A terminal device includes a metal frame. At least two slots are disposed on a side of the metal frame, at least two antenna feedpoints are disposed on an inner side wall of the metal frame, and different antenna feedpoints in the at least two antenna feedpoints are located on side edges of different slots. A signal reflection wall is further disposed inside the terminal device, and a gap exists between the signal reflection wall and the at least two slots. The signal reflection wall is formed by a metal outer wall of a battery of the terminal device. The metal frame and the signal reflection wall are both electrically connected to a ground plate of the terminal device. |
| US12027775B2 |
Method and apparatus for millimeter wave antenna array
An antenna array system and a method for making the antenna system. The system includes at least two antenna elements serving as transmitter elements, and at least two antenna elements serving as receiver elements. Each of the transmitter antenna and receiver antenna elements include a pair of curved arms, wherein a first arm in the pair of curved arms is configured to be connected from a signal trace of the antenna system. The second arm in the pair of curved arms is configured to be connected to a ground plane. |
| US12027773B2 |
Wide scanning patch antenna array
The disclosure relates to radio engineering, and more specifically to a wide scanning patch antenna array. The technical result consists in extending the scanning range of the antenna array, increasing its efficiency and reducing losses. An antenna array is provided. The antenna array includes a printed circuit board on which at least two patch antennas are located, each having at least one feeding port, wherein, the patch antennas are rotated relative to each other around the normal in the center of symmetry of the patch antenna in such a way that the corresponding feeding ports of the patch antennas related to the same polarization are rotated by 180 degrees relative to each other, wherein the phases of the signals applied to said feeding ports rotated relative to each other, differ by 180 degrees plus a phase shift for scanning control, a dielectric radome located above the printed circuit board, and passive beamforming elements of the array elements, located on the radome above the patch antennas. |
| US12027764B2 |
Method and apparatus for supplying voltage to amplifier using multiple linear regulators
An example electronic device includes an antenna; a switching regulator; a communication chip including an amplifier, a first linear regulator operably connected to the amplifier and the switching regulator and configured to be supplied with a first voltage from the switching regulator, and a second linear regulator operably connected to the amplifier and the switching regulator and configured to be supplied with a second voltage higher than the first voltage from the switching regulator, the communication chip configured to transmit a radio-frequency signal outside of the electronic device through the antenna; and a control circuit. The control circuit is configured to produce an envelope of an input signal input to the amplifier in connection with the radio-frequency signal and to provide the produced envelope to at least one of the first linear regulator or the second linear regulator. The first linear regulator is configured to provide a third voltage corresponding to the envelope to the amplifier using the first voltage based on the envelope having a voltage in a first range. The second linear regulator is configured to provide a fourth voltage higher than the third voltage to the amplifier using the second voltage based on the voltage of the envelope being in a second range including values larger than values included in the first range. |
| US12027761B2 |
Antenna module
An antenna module is an antenna module attached to a roof in a vehicle and includes a substrate and a plurality of antennas provided on the substrate, wherein the substrate is kept in a curved state. |
| US12027755B2 |
Wireless data terminal and wireless data terminal control system
This application provides a wireless data terminal and a wireless data terminal control system. The wireless data terminal includes a housing, a drive assembly, a first antenna assembly, and a second antenna assembly. The drive assembly can drive the first antenna assembly and the second antenna assembly to extend or retract to move in different directions between a first location and a second location. When the wireless data terminal does not need to be used or high isolation between antennas is not required, the drive assembly may drive the antenna assembly to retract to the first location, so that a volume occupied by the wireless data terminal can be reduced while an antenna isolation requirement is met. When high isolation between the antennas is required, the drive assembly may drive the antenna assembly to extend to the second location, so that isolation between the antennas is increased. |
| US12027754B2 |
Antenna substrate, antenna module, and method of manufacturing antenna substrate
An antenna substrate includes a flat section where a radiating element is disposed, a flexible section disposed adjacent to the flat section, a first electrical conductor having one end portion connected to the radiating element inside the flat section, and a second electrical conductor having one end portion connected to the other end portion of the electrical conductor inside the flexible section. The average or median grain size in the extension direction of the first electrical conductor is larger than the average or median grain size in the extension direction of the second electrical conductor, and the average or median aspect ratio of the electrical conductor is larger than the average or median aspect ratio of the electrical conductor. |
| US12027752B2 |
Electronic device
An electronic device including a first body, a second body, and at least one cavity antenna module is provided. The second body has a pivot side and a plurality of non-pivot sides, and the pivot side is connected pivotally to the first body. The cavity antenna module includes a metal cavity body and a first antenna structure. The metal cavity body is disposed in the second body and has an opening. A distance between one of the non-pivot sides and the metal cavity body is smaller than a distance between the pivot side and the metal cavity body, and the opening faces the one of the non-pivot sides. The first antenna structure is disposed in the opening of the metal cavity body, and the first antenna structure includes a feeding portion, a radiating portion, and a ground portion connected with one another. |
| US12027743B2 |
Transmission apparatus, printed circuit board, and information appliance
There is provided a transmission apparatus having a transmission line into which a low-impedance part is inserted. The transmission apparatus includes a package having a first impedance, a first transmission line and a second transmission line respectively connected on either side of the package and having a second impedance different from the first impedance, and an intermediate section respectively disposed in a connection between the package and the first transmission line and in a connection between the package and the second transmission line. The intermediate section is adjusted to have an electrical length of λ/4 (where λ is an electromagnetic wavelength corresponding to a desired frequency) and an impedance that is intermediate between the first impedance and the second impedance. |
| US12027741B2 |
Dielectric filter and communication device
Embodiments of this application disclose a dielectric filter and a communication device. In one example, the dielectric filter includes: a first dielectric block and a second dielectric block that are stacked up, where a first surface of the first dielectric block is opposite to a second surface of the second dielectric block; a first blind hole, a first through hole, and two or more resonance through holes whose openings are located on the first surface of the first dielectric block, and a second through hole whose opening is located on the second surface of the second dielectric block. A metal layer on the first surface of the first dielectric block is connected to a metal layer on the second surface of the second dielectric block. |
| US12027740B2 |
Cavity filter comprising a terminal portion having first and second conductive terminals with an elastic member disposed there between
The present invention relates to a cavity filter. The cavity filter includes: an RF signal connecting portion spaced apart, by a predetermined distance, from an outer member having an electrode pad provided on a surface thereof; and a terminal portion configured to electrically connect the electrode pad of the outer member and the RF signal connecting portion so as to absorb assembly tolerance existing at the predetermined distance and to prevent disconnection of the electric flow between the electrode pad and the RF signal connecting portion, wherein the terminal portion is divided into a first side terminal contacted with the electrode pad and a second side terminal connected to the RF signal connecting portion, absorbs the assembly tolerance existing in a terminal insertion port, in which the terminal portion is provided, through an elastic member provided between the first side terminal and the second side terminal, and prevents disconnection of an electric flow, thereby preventing degradation in performance of an antenna device. |
| US12027739B2 |
Sealing structure for stack tower and stack tower
The present invention relates to the field of fuel cell stacks and stack tower or module, in particular to a sealing structure for stack tower and a stack tower. The sealing structure comprises a first component, a second component and a mica spacer, the first component and the second component are opposite to each other, the mica spacer is disposed between the first component and the second component, sealing part is arranged between the mica spacer and at least one of the first component and the second component, and the sealing part comprises a glass ceramic layer and an outer circumferential ceramic cement ring surrounding the glass cement layer; the sealing structure for stack tower has excellent sealing performance and service durability for a fuel cell system. |
| US12027734B2 |
High efficiency humidity management system for fuel cells and higher-temperature electrochemical systems
A humidity transfer assembly includes a pressure vessel and a humidity transfer device disposed in the pressure vessel. The humidity transfer device includes an enclosure, a first inlet line fluidly coupled to the enclosure and configured to supply anode exhaust thereto, a first outlet line fluidly coupled to the enclosure and configured to output anode exhaust therefrom, and a second inlet line fluidly coupled to the enclosure and configured to supply feed gas thereto. The humidity transfer device is configured to transfer steam from anode exhaust to feed gas and to output feed gas into the pressure vessel. |
| US12027732B2 |
Fuel cell temperature control
A fuel cell system includes a gas fuel source, a fuel cell stack fluidly connected to the gas fuel source by a first pathway, and a turboexpander generator fluidly connected to the gas fuel source by a bypass fluid pathway in parallel with at least a portion of the first pathway. The first pathway transmits a first amount of gas fuel from the gas fuel source to the fuel cell stack. The turboexpander generator receives a second amount of gas fuel from the gas fuel source and reduces a pressure and temperature of the second amount of the gas fuel. The fuel cell system also includes a motor electrically connected to the fuel cell stack and the turboexpander generator, where the fuel cell stack and the turboexpander generator each supply electrical power to the motor. |
| US12027730B2 |
Fuel cell stack
A fuel cell stack includes stacked cells, each including a sheet-shaped power generation portion, two separators, a gas passage defining plate that includes a gas passage portion through which reactant gas flows, and a frame member that includes a supply port and a discharge port. The gas passage portion includes opposing portions extended in a flow direction of the reactant gas and arranged in parallel in an orthogonal direction and wavy portions each having a wavy cross-sectional shape orthogonal to the orthogonal direction. The gas passage portion includes a first passage portion adjacent to the supply port in the flow direction and a second passage portion adjacent to the first passage portion in the orthogonal direction. The connection passages of the second passage portion each have a larger cross-sectional flow area than the connection passages of the first passage portion. |
| US12027728B2 |
Methods and devices for preventing thermally-induced stress cracks in large footprint solid oxide fuel cell columns
A method of making an interconnect for an electrochemical cell stack includes providing the interconnect, and creep flattening the interconnect prior to placing the interconnect into the electrochemical cell stack. |
| US12027724B2 |
Method for manufacturing separator for electrochemical device
A separator with improved heat resistance and low resistance as well as Lami Strength that is equal or similar to that of the existing separator by using a predetermined amount of polyvinylpyrrolidone binder polymer relative to a polyvinylidene fluoride-based binder polymer, and a manufacturing method thereof. |
| US12027713B2 |
Safety container for galvanic cells
The invention relates to a safety container for galvanic cells, comprising an outer container and at least one inner container, wherein the inner container forms the transportation space for the galvanic cells, wherein a cavity is formed between the inner container and outer container, wherein the inner container and the cavity between the inner container and outer container are provided with inert filling material, wherein the cavity is designed to be gas-tight in relation to the inner container and gas-tight in relation to the exterior surroundings of the safety container, wherein the inner container is connected to the exterior surroundings via at least one tube through the cavity, wherein a pressure valve and/or a connection to an exhaust-air system is arranged at the outer end of the tube. |
| US12027709B2 |
Anode for lithium rechargeable battery and lithium rechargeable battery including the same
An anode for a lithium rechargeable battery and a lithium rechargeable battery including the same are provided. Specifically, a plurality of anode active material layers are sequentially stacked on an anode current collector, and in the innermost layer directly contacting the anode current collector, polyolefin-based polymer is applied as a binder, and in the other layers, heterogeneous polymers are applied as binders. |
| US12027708B2 |
Negative electrode for nonaqueous electrolyte secondary battery, and nonaqueous electrolyte secondary battery
A negative electrode for a nonaqueous electrolyte secondary battery, said negative electrode comprising a negative-electrode current collector, and a negative-electrode active material layer provided upon the negative-electrode current collector, wherein the negative-electrode active material layer includes a negative-electrode active material and polyvinylpyrrolidone, and an area that extends 10% in the thickness direction from the surface of the reverse side of the negative-electrode active material layer from the negative-electrode current collector has a higher polyvinylpyrrolidone content than an area that extends 10% in the thickness direction from the surface of the negative-electrode current collector side of the negative-electrode active material layer. |
| US12027706B2 |
Amorphous carbon material, preparation method and use thereof
The present disclosure relates to the field of carbon materials, in particular to an amorphous carbon material and a preparation method and an use thereof. The amorphous carbon material has the following characteristics: (1) the true density ρ of the amorphous carbon material and the interlayer spacing d002 obtained by powder XRD spectrum analysis satisfy the relational formula: 100×ρ×d002≥70; (2) the interlayer spacing d002, La and Lc satisfy the following relational formula: Lcλd002≤0.58; and 100×(Lc/La2)×d0023≤0.425; (3) the amorphous carbon material contains 0.001-2% of a silicon component and 0.001-2% of an aluminum component, based on the total mass of the amorphous carbon material. The amorphous carbon material prepared by the present disclosure has desirable heat transfer performance and can provide high battery capacity. |
| US12027700B2 |
Positive electrode comprising goethite for lithium secondary battery and lithium secondary battery comprising same
A positive electrode for a lithium secondary battery including a goethite having urchin shape as a positive electrode additive and a lithium secondary battery including the same. If the goethite having the urchin shape is applied to the positive electrode of the lithium secondary battery, there are effects that increase the charging/discharging efficiency of the battery and improve the lifetime characteristics, by adsorbing lithium polysulfide (LiPS) generated during the charging/discharging process of the battery. |
| US12027693B2 |
Method for production by aqueous route of a zinc electrode
Disclosed is a production method for a zinc electrode with in situ formation of calcium zincate crystals. The method includes notably the steps of preparation of a mixture, growth of crystals, slowing of the growth and production of the electrode. |
| US12027684B2 |
Temperature management system
A temperature management system for an energy storage system, a motor vehicle including such a temperature management system, a use of a hygroscopic material in such a temperature management system and a manufacturing method of such a temperature management system. The temperature management system includes at least one energy storage module, a carrier element and a cooling element. The cooling element includes a first surface directed to an environment of the energy storage module and a second surface opposite to the first surface. The carrier element is arranged between the second surface of the cooling element and the energy storage module and configured to transfer heat from the energy storage module in direction to the environment. The cooling element includes at least one humidity absorbent material to increase a heat capacity of the cooling element. |
| US12027682B2 |
Method for preparing refractory material from waste battery residues, and use of refractory material
A method for preparing a refractory material from waste battery residues. The method comprises the following steps: (1) disassembling waste batteries, then sorting same to obtain positive and negative electrode powders, leaching the positive and negative electrode powders with an acid, filtering same to obtain a graphite slag, and then subjecting the filtrate to copper removal, followed by the addition of an alkali for a precipitation reaction, wherein the resulting precipitate is an iron-aluminum slag; (2) wrapping the graphite slag obtained in step (1) with wet clay to form an inner core material, then mixing wet clay with the iron-aluminum slag, wrapping the inner core material with same, and aging the wrapped inner core material to obtain a blank; (3) pre-sintering, calcining and cooling the blank prepared in step (2) to obtain a fired product; and (4) washing and drying the fired product to obtain the refractory material. |
| US12027678B2 |
Thermal runaway detection system and battery system
A thermal runaway detection system includes: a venting device including a sealing body in a venting passage and a thermal runaway detection circuit. The sealing body being configured to close the venting passage in a first position and to open the venting passage in a second position different from the first position. The thermal runaway detection circuit being configured to monitor a position of the sealing body and to output a signal corresponding to the position of the sealing body. |
| US12027677B2 |
Method for manufacturing non-aqueous-electrolyte secondary cell, and voltage detection method
The purpose of the present invention is to shorten the manufacturing time in a method for manufacturing a non-aqueous-electrolyte secondary cell. In the method for manufacturing a non-aqueous-electrolyte secondary cell according to one embodiment of the present invention, during initial charging/discharging of a non-aqueous-electrolyte secondary cell comprising a negative electrode that includes a negative-electrode active material, a positive electrode that includes a Li—Ni composite oxide represented by the general formula LiaNixM(1-x)O2 (where 0 |
| US12027676B2 |
Powertrain system with wireless communication nodes and integrated RF shield guide layer
An enclosed electrical device such as a battery pack for an electric powertrain system includes an enclosure having a tray and cover. The tray and cover together define an enclosure cavity. A radio frequency (RF) receiving node is located within the cavity. Printed circuit board assemblies (PCBAs) include an RF transmitting node. The PCBAs(s) are spaced apart from one another within the cavity. An RF shield guide layer is positioned between the PCBAs and the cover, such that the RF shield guide layer covers the PCBAs without covering the RF transmitting node. A battery pack and an electric powertrain system include the RF shield guide layer. |
| US12027673B2 |
Electrode assembly manufacturing device
An electrode assembly manufacturing device includes a winding mechanism, a heating mechanism, a conveyor belt arranged between the heating mechanism and the winding mechanism, and a forming mechanism. The winding mechanism is configured to wind a positive electrode sheet, a separator, and a negative electrode sheet into an electrode assembly. The conveyor belt is configured to transfer the electrode assembly from the winding mechanism to the heating mechanism. The heating mechanism is configured to heat the electrode assembly. The forming mechanism is configured to press and form the electrode assembly. |
| US12027670B2 |
Non-aqueous electrolyte solution and lithium secondary battery including the same
A non-aqueous electrolyte solution and a lithium secondary battery including the same are disclosed herein. In some embodiments, a non-aqueous electrolyte solution includes a lithium salt, a first organic solvent that is ethylene carbonate, a second organic solvent excluding ethylene carbonate, and an oligomer represented by Formula 1 wherein a concentration of the lithium salt is 1.2 M to 3.3 M, and, wherein the first organic solvent is included in an amount of 0.1 wt % to 12 wt % based on a total weight of the non-aqueous electrolyte solution. |
| US12027669B2 |
Electrolyte solution for lithium secondary battery and lithium secondary battery including the same
An electrolyte solution for a lithium secondary battery and a lithium secondary battery including the electrolyte solution are provided. The electrolyte solution includes an additive represented by Chemical Formula 1, an organic solvent and a lithium salt: wherein in Chemical Formula 1, R1 and R2 are each independently hydrogen or a substituted or unsubstituted C1-C5 alkyl group, X is O or S, and L is a substituted or unsubstituted C1-C5 alkylene group. The lithium secondary battery including the electrolyte solution provides enhanced high-temperature properties. |
| US12027667B2 |
Electrolyte and electrochemical device
An electrolyte including a dinitrile compound, a trinitrile compound, and propyl propionate. Based on the total weight of the electrolyte, the weight percentage of the dinitrile compound is X, the weight percentage of the trinitrile compound is Y, and the weight percentage of the propyl propionate is Z, wherein, about 2.2 wt %≤(X+Y)≤about 8 wt %, about 0.1≤(X/Y)≤about 2.3, about 5 wt %≤Z≤about 50 wt %, 1 wt % |
| US12027663B2 |
Ion-conductive solid electrolyte compound, method for preparing same, and electrochemical device comprising same
Provided is an ion-conductive solid electrolyte compound, as a crystalline oxide, including a stoichiometric formula of “Ax(M2TO8)y”. In the stoichiometric formula, A is a cation having an oxidation state of +1, M is a cation having an oxidation state of +4, +5, or +6, T is a cation having an oxidation state of +4, +5, or +6, and x and y are each independently a real number greater than 0, wherein x is equal to or less than 3y. The ion-conductive solid electrolyte compound has a high ionic conductivity and a low electronic conductivity. |
| US12027660B2 |
Electrochemical cell having thin metal foil packaging and a method for making same
An electrochemical cell is provided comprising a thin metal foil packaging made from at least one sheet of metal foil and having a perimeter extending around at least a portion of the electrochemical cell, as well as an electrochemical cell stack contained within the thin metal foil packaging, and a metal-to-metal welded seal around at least a portion of the perimeter of the thin metal foil packaging. The metal-to-metal welded seal is hermetic or nearly hermetic. Furthermore, the metal-to-metal welded seal is narrow, having a width of less than about 1 mm, and is less than about 5 mm away from the electrochemical cell stack. In some embodiments, the thin metal foil packaging functions not only as a hermetically or near hermetically sealed packaging, but also as either electrode of the cell bonded to the foil packaging. |
| US12027656B2 |
Optoelectronic semiconductor component and method for producing optoelectronic semiconductor components
In one embodiment, the optoelectronic semiconductor device comprises at least two metallic lead frame parts and a circuit chip on the lead frame parts. An electrically insulating and opaque matrix material mechanically connects the lead frame parts. The circuit chip is embedded in the matrix material, so that a carrier is formed by the matrix material together with the lead frame parts and the circuit chip. An optoelectronic semiconductor chip is provided on a carrier upper side. Furthermore, the semiconductor device comprises at least one optical component on the carrier upper side. |
| US12027652B2 |
Phosphor substrate, light emitting substrate, and lighting device
A phosphor substrate having at least one light emitting element mounted on one surface, includes an insulating substrate, at least one electrode pair disposed on one surface of the insulating substrate and bonded to the light emitting element, and a phosphor layer disposed on one surface of the insulating substrate, including a phosphor in which a light emission peak wavelength, in a case where light emitted by the element is used as excitation light, is in a visible light region, in which a bonded surface of the electrode pair facing an outer side in a thickness direction of the insulating substrate, the bonded surface being bonded to the light emitting element, is positioned further on the outer side in the thickness direction than a non-bonded surface other than the bonded surface, and at least a part of the phosphor layer is disposed around the bonded surface of the one surface. |
| US12027646B2 |
Light emitting element
A light emitting element includes: an n-side semiconductor layer made of a nitride semiconductor; a p-side semiconductor layer made of a nitride semiconductor; and an active layer disposed between the n-side semiconductor and the p-side semiconductor layer and having a multi-quantum well structure in which a plurality of nitride semiconductor well layers and a plurality of nitride semiconductor barrier layers are alternately stacked, wherein the light emitting element includes, between at least one of the plurality of well layers and the barrier layer disposed adjacent thereto on the p-side semiconductor side: a first layer and a second layer disposed successively from the well layer side. |
| US12027645B2 |
Optoelectronic semiconductor chip and method for producing an optoelectronic semiconductor chip
An optoelectronic semiconductor chip may have or include an x-doped region, a y-doped region, an active region arranged between the x-doped region and the y-doped region, and an x-contact region. The x-contact region may be arranged to the side of the x-doped region facing away from the active region. The x-contact region may include at least one first region and at least one second region. The x-contact region may be designed such that, during operation of the optoelectronic semiconductor chip, more charge carriers are injected into the x-doped region via the second region than via the first region. |
| US12027641B2 |
Solar cell and photovoltaic module
A solar cell and a photovoltaic module. The solar cell includes: a substrate including a first surface; a tunneling oxide layer covering the first surface; a doped conductive layer covering a surface of the tunneling oxide layer away from the substrate; an intrinsic polycrystalline silicon layer formed on one side of the doped conductive layer away from the tunneling oxide layer; and a plurality of first electrodes arranged on one side of the intrinsic polycrystalline silicon layer away from the doped conductive layer and electrically connected to the doped conductive layer. At least a portion of the first electrode is located in the intrinsic polycrystalline silicon layer, and a gap is defined between a top end of the first electrode and the substrate. |
| US12027637B2 |
Solar cell string for use in a photovoltaic module
The present invention is directed to solar cell strings (1) for photovoltaic modules comprising (i) a string of solar cells (2a, 2b, 2c) facing each other in opposite polarity and shingled in string direction with or without partial overlap of solar cells (2a, 2b, 2c); (ii) at least one elongated electrically conducting interconnect (3a, 3b) extending in string direction from one side of one solar cell to the opposite side of the next solar cell (2a, 2b, 2c) for mechanically and electrically connecting the positive and negative electrodes of the shingled solar cells (2a, 2b, 2c) in string direction on the alternating top and bottom sides of the solar cells, and (iii) at least two adhesives, optionally thermoadhesive foils (4a, 4b) covering the at least one elongated interconnect (3a, 3b) and at least part of the top or bottom side of each solar cell that comprises the elongated interconnect, with the proviso that (a) there is no horizontal gap between shingled solar cells, (b) the adhesives (4a, 4b) do not contact each other, do not extend beyond one solar cell, do not extend into the optional partial overlap of solar cells (2a, 2b, 2c), and at least partially cover and mechanically fixate the at least one interconnect (3a, 3b) to the solar cells (2a, 2b, 2c). |
| US12027635B2 |
Methods for coupling of optical fibers to a power photodiode
According to the present disclosure, techniques related to manufacturing and applications of power photodiode structures and devices based on group-III metal nitride and gallium-based substrates are provided. More specifically, embodiments of the disclosure include techniques for fabricating photodiode devices comprising one or more of GaN, AlN, InN, InGaN, AlGaN, and AlInGaN, structures and devices. Such structures or devices can be used for a variety of applications including optoelectronic devices, photodiodes, power-over-fiber receivers, and others. |
| US12027633B2 |
Scattering structures for single-photon avalanche diodes
An imaging device may include single-photon avalanche diodes (SPADs). To improve the sensitivity and signal-to-noise ratio of the SPADs, light scattering structures may be formed in the semiconductor substrate to increase the path length of incident light through the semiconductor substrate. The light scattering structures may include a low-index material formed in trenches in the semiconductor substrate. The light scattering structures may have different sizes and/or a layout with a non-uniform number of structures per unit area. SPAD devices may also include isolation structures in a ring around the SPADs to prevent crosstalk. The isolation structures may include metal-filled deep trench isolation structures. The metal filler may include tungsten. |
| US12027632B2 |
Semiconductor structure with barrier and method for manufacturing the same
A semiconductor structure includes a channel layer including an oxide semiconductor material, source/drain contacts disposed below the channel layer, and barrier regions that are in contact with the channel layer and that surround the source/drain contacts, respectively. Each of the barrier regions includes a material that receives hydrogen. A method for manufacturing the semiconductor structure is also provided. |
| US12027631B2 |
Thin film transistor comprising active layer having thickness difference and display apparatus comprising the same
A thin film transistor is disclosed. The thin film transistor comprises an active layer, and a gate electrode overlapped with the active layer, wherein the active layer includes a channel portion overlapped with the gate electrode, and the channel portion includes a source boundary portion, a drain boundary portion, and a main channel portion, wherein at least a part of the drain boundary portion have a relatively smaller thickness in comparison to a thickness of the main channel portion. Also, according to one embodiment of the present disclosure, a display apparatus comprising the thin film transistor is provided. |
| US12027629B2 |
Oxide semiconductor field effect transistor
An oxide semiconductor field effect transistor (OSFET) includes a first insulating layer, a source, a drain, a U-shaped channel layer and a metal gate. The first insulating layer is disposed on a substrate. The source and the drain are disposed in the first insulating layer. The U-shaped channel layer is sandwiched by the source and the drain. The metal gate is disposed on the U-shaped channel layer, wherein the U-shaped channel layer includes at least an oxide semiconductor layer. The present invention also provides a method for forming said oxide semiconductor field effect transistor. |
| US12027628B2 |
Semiconductor device and method
In an embodiment, a method includes forming a first gate electrode over a substrate. The method also includes forming a first gate dielectric layer over the first gate electrode. The method also includes depositing a semiconductor layer over the first gate dielectric layer. The method also includes forming source/drain regions over the first gate dielectric layer and the semiconductor layer, the source/drain regions overlapping ends of the semiconductor layer. The method also includes forming a second gate dielectric layer over the semiconductor layer and the source/drain regions. The method also includes and forming a second gate electrode over the second gate dielectric layer. |
| US12027627B2 |
Pillar-shaped semiconductor device having connection material layer for anchoring wiring conductor layer and method for producing the same
An SGT circuit includes a first conductor layer which contains a semiconductor atom, which is in contact with an N+ region and a P+ region of a Si pillar, or a TiN layer, and whose outer circumference is located outside an outer circumference of a SiO2 layer in plan view, and a second conductor layer which contains a metal atom, which is connected to an outer periphery of the first conductor layer, and which extends in a horizontal direction. |
| US12027626B2 |
Semiconductor device active region profile and method of forming the same
Semiconductor device and the manufacturing method thereof are disclosed. An exemplary method of manufacture comprises receiving a substrate including a semiconductor material stack formed thereon, wherein the semiconductor material stack includes a first semiconductor layer of a first semiconductor material and second semiconductor layer of a second semiconductor material that is different than the first semiconductor material. Patterning the semiconductor material stack to form a trench. The patterning includes performing a first etch process with a first etchant for a first duration and then performing a second etch process with a second etchant for a second duration, where the second etchant is different from the first etchant and the second duration is greater than the first duration. The first etch process and the second etch process are repeated a number of times. Then epitaxially growing a third semiconductor layer of the first semiconductor material on a sidewall of the trench. |
| US12027625B2 |
Semiconductor device having fins and method of fabricating the same
A method includes providing a semiconductor structure including a first semiconductor substrate, an insulator layer over the first semiconductor substrate, and a second semiconductor substrate over the insulator layer; patterning the second semiconductor substrate to form a top fin portion over the insulator layer; conformally depositing a protection layer to cover the top fin portion, wherein a first portion of the protection layer is in contact with a top surface of the insulator layer; etching the protection layer to remove a second portion of the protection layer directly over the top fin portion while a third portion of the protection layer still covers a sidewall of the top fin portion; etching the insulator layer by using the third portion of the protection layer as an etch mask; and after etching the insulator layer, removing the third portion of the protection layer. |
| US12027624B2 |
Semiconductor devices and methods of manufacturing thereof
A semiconductor device in a first area includes first non-planar semiconductor structures separated with a first distance, and a first isolation region including a first layer and a second layer that collectively embed a lower portion of each of the first non-planar semiconductor structures. At least one of the first layer or second layer of the first isolation region is in a cured state. The semiconductor device in a second area includes second non-planar semiconductor structures separated with a second distance, and a second isolation region including a first layer and a second layer that collectively embed a lower portion of each of the second non-planar semiconductor structures. At least one of the first or second layer of the second isolation region is in a cured state. |
| US12027621B2 |
Method of forming integrated assemblies having transistors configured for high-voltage applications
Some embodiments include an integrated assembly having a first gate operatively adjacent a channel region, a first source/drain region on a first side of the channel region, and a second source/drain region on an opposing second side of the channel region. The first source/drain region is spaced from the channel region by an intervening region. The first and second source/drain regions are gatedly coupled to one another through the channel region. A second gate is adjacent a segment of the intervening region and is spaced from the first gate by an insulative region. A lightly-doped region extends across the intervening region and is under at least a portion of the first source/drain region. Some embodiments include methods of forming integrated assemblies. |
| US12027618B2 |
Semiconductor device
According to one embodiment, a semiconductor device includes first to third electrodes, a semiconductor member, a conductive member, and an insulating member. The semiconductor member includes first to third semiconductor regions. The first semiconductor region includes first and second partial regions. The second semiconductor region is between the first partial region and the third semiconductor region. The conductive member is located between the second partial region and the third electrode. The conductive member includes a first end portion and a first other-end portion. The first end portion is between the first other-end portion and the third electrode. The conductive member includes first to third portions. The second portion is between the third portion and the third electrode. The first portion is between the second portion and the third electrode. The first portion includes the first end portion. The second portion contacts the first and third portions. |
| US12027612B2 |
SCR having selective well contacts
A lateral semiconductor controlled rectifier (SCR) includes a pwell and an nwell A plurality of p+ contact regions connect to the pwell and are spaced apart from one another by a dielectric material along a width of the pwell. There are a plurality of n+ contact regions connect to the nwell and are spaced apart from one another by dielectric material along a width of the nwell. |
| US12027609B2 |
Gate structure of semiconductor device and method of forming same
A semiconductor device and a method of forming the same are provided. A method includes forming a fin extending from a substrate. A sacrificial gate electrode layer is formed along a sidewall and a top surface of the fin. A patterning process is performed on the sacrificial gate electrode layer to form a sacrificial gate electrode. A reshaping process is performed on the sacrificial gate electrode to form a reshaped sacrificial gate electrode. The reshaped sacrificial gate electrode includes a first portion along the top surface of the fin and a second portion along the sidewall of the fin. A width of the first portion decreases as the first portion extends from a top surface of the first portion toward the top surface of the fin. A width of the second portion decreases as the second portion extends from the top surface of the fin toward the substrate. |
| US12027605B2 |
Field effect transistors with negative capacitance layers
The present disclosure describes a method includes forming a fin structure including a fin base portion and a stacked fin portion on a substrate. The stacked fin portion includes a first semiconductor layer on the fin base portion, a second semiconductor layer above the first semiconductor layer, and a sacrificial semiconductor layer between the first and second semiconductor layers. The method further includes replacing the sacrificial semiconductor layer with a negative capacitance (NC) layer and forming gate electrodes around the NC layer, the first semiconductor layer, and the second semiconductor layer. The NC layer includes an NC dielectric material. |
| US12027604B2 |
High electron mobility transistor and method for fabricating the same
A method for fabricating high electron mobility transistor (HEMT) includes the steps of: forming a buffer layer on a substrate; forming a first barrier layer on the buffer layer; forming a second barrier layer on the first barrier layer; forming a first hard mask on the second barrier layer; removing the first hard mask and the second barrier layer to form a recess; and forming a p-type semiconductor layer in the recess. |
| US12027601B2 |
Method for forming semiconductor structure
A method for forming a semiconductor structure is provided. The method includes following operations. A layer stack is formed over the substrate. The formation of the layer stack includes the following sub-operations: a blocking layer is formed over the substrate, a lower conductive layer is formed over the blocking layer, a first seed layer is formed over the lower conductive layer, a ferroelectric layer is formed over the first seed layer, and an upper conductive layer is formed over the ferroelectric layer. The layer stack is patterned to form a gate stack over the substrate. A spacer layer is formed over sidewalls of the gate stack. A pattered interlayer dielectric layer is formed over the substrate and the gate stack. A source region and a drain region are formed in the substrate through the patterned interlayer dielectric layer. |
| US12027598B2 |
Buried pad for use with gate-all-around device
A semiconductor structure includes an isolation structure formed on a substrate, a gate-all-around transistor structure formed on the isolation structure, a via electrically coupled to a gate terminal of the gate-all-around transistor structure, and a buried conductive pad formed within the isolation structure and electrically coupled to the via. The buried conductive pad can extend through the isolation structure in two dimensions, such as in both a vertical dimension and a horizontal dimension. The semiconductor structure can provide advantages in terms of routing flexibility, among other possible advantages. |
| US12027597B2 |
Semiconductor device structure and methods of forming the same
A semiconductor device structure, along with methods of forming such, are described. The semiconductor device structure includes a first source/drain epitaxial feature disposed in an NMOS region, a second source/drain epitaxial feature disposed in the NMOS region, a first dielectric feature disposed between the first source/drain epitaxial feature and the second source/drain epitaxial feature, a third source/drain epitaxial feature disposed in a PMOS region, a second dielectric feature disposed between the second source/drain epitaxial feature and the third source/drain epitaxial feature, and a conductive feature disposed over the first, second, and third source/drain epitaxial features and the first and second dielectric features. |
| US12027596B2 |
Semiconductor device with source/drain pattern including buffer layer
A semiconductor device including an active pattern extending in a first direction; a channel pattern on the active pattern and including vertically stacked semiconductor patterns; a source/drain pattern in a recess in the active pattern; a gate electrode on the active pattern and extending in a second direction crossing the first direction, the gate electrode surrounding a top surface, at least one side surface, and a bottom surface of each of the semiconductor patterns; and a gate spacer covering a side surface of the gate electrode and having an opening to the semiconductor patterns, wherein the source/drain pattern includes a buffer layer covering inner sides of the recess, the buffer layer includes an outer side surface and an inner side surface, which are opposite to each other, and each of the outer and inner side surfaces is a curved surface that is convexly curved toward a closest gate electrode. |
| US12027595B2 |
Semiconductor structure and fabrication method thereof, and peripheral circuit
Embodiments relate to a method for fabricating a semiconductor structure, a semiconductor structure, and a peripheral circuit. The method for fabricating a semiconductor structure includes: providing a substrate; forming a gate initial structure and a residue on the substrate; and removing the residue by means of a first cleaning liquid. The first cleaning liquid is capable of inhibiting the residue from undergoing a hydrolysis reaction. |
| US12027594B2 |
Method of manufacturing a semiconductor device and a semiconductor device
In a method of manufacturing a semiconductor device, a sacrificial gate structure including sacrificial gate electrode is formed over a substrate. A first dielectric layer is formed over the sacrificial gate structure. A second dielectric layer is formed over the first dielectric layer. The second and first dielectric layers are planarized and recessed, and an upper portion of the sacrificial gate structure is exposed. A third dielectric layer is formed over the exposed sacrificial gate structure and over the first dielectric layer. A fourth dielectric layer is formed over the third dielectric layer. The fourth and third dielectric layers are planarized, and the sacrificial gate electrode is exposed and part of the third dielectric layer remains on the recessed first dielectric layer. The recessing the first dielectric layer comprises a first etching operation and a second etching operation using a different etching as from the first etching operation. |
| US12027588B2 |
Field effect transistor including channel formed of 2D material
A field effect transistor includes a substrate, a source electrode and a drain electrode on the substrate and apart from each other in a first direction, a plurality of channel layers, a gate insulating film surrounding each of the plurality of channel layers, and a gate electrode surrounding the gate insulating film. Each of the plurality of channel layers has ends contacting the source electrode and the drain electrode. The plurality of channel layers are spaced apart from each other in a second direction away from the substrate. The plurality of channel layers include a 2D semiconductor material. |
| US12027586B2 |
Semiconductor device
A semiconductor device includes: a fin-type active region extending on a substrate in a first direction that is parallel to an upper surface of the substrate; and a source/drain region in a recess region extending into the fin-type active region, wherein the source/drain region includes: a first source/drain material layer; a second source/drain material layer on the first source/drain material layer; and a first dopant diffusion barrier layer on an interface between the first source/drain material layer and the second source/drain material layer. |
| US12027584B2 |
Transistor structure and manufacturing method thereof
A transistor structure including a substrate, a gate structure, first pocket doped regions, second pocket doped regions, and source/drain extension regions, and source/drain regions is provided. The gate structure is located on the substrate. The first pocket doped regions are located in the substrate aside the gate structure. A dopant of the first pocket doped region includes a group IVA element. The second pocket doped regions are located in the substrate aside the gate structure. A depth of the second pocket doped region is greater than a depth of the first pocket doped region. The source/drain extension regions are located in the first pocket doped regions. The source/drain regions are located in the substrate aside the gate structure. The source/drain extension region is located between the source/drain region and the gate structure. |
| US12027583B2 |
Gate structures for semiconductor devices
A semiconductor device with different configurations of gate structures and a method of fabricating the semiconductor device are disclosed. The semiconductor device includes a stack of nanostructured channel regions disposed on a fin structure, a first gate structure disposed within the stack of nanostructured channel regions, a second gate structure surrounds the first gate structure about a first axis and surrounds the nanostructured channel regions about a second axis different from the first axis, and first and second contact structures disposed on the first and second gate structures, respectively. |
| US12027580B2 |
Semiconductor on insulator wafer with cavity structures
The present disclosure relates to semiconductor structures and, more particularly, to a semiconductor on insulator substrate with cavity structures and methods of manufacture. The structure includes: a bulk substrate with at least one rectilinear cavity structure; an insulator material sealing the at least one rectilinear cavity structure; and a buried insulator layer on the bulk substrate and over the at least one rectilinear cavity structure. |
| US12027579B2 |
Semiconductor device having a carrier trapping region including crystal defects
A semiconductor device includes a semiconductor layer of a first conductivity type having a main surface, a diode region of the first conductivity type formed in a surface layer portion of the main surface of the semiconductor layer, a carrier trapping region including crystal defects and formed along a peripheral edge of the diode region in the surface layer portion of the main surface of the semiconductor layer, and an anode electrode formed on the main surface of the semiconductor layer and forming a Schottky junction with the diode region. |
| US12027575B2 |
Method for fabricating semiconductor structure
A semiconductor structure includes a trench capacitor, a stacked capacitor, a first electrode plate, and a second electrode plate. The trench capacitor is located in a substrate, in which the trench capacitor has a first conductive structure and a first dielectric structure in contact with the first conductive structure. The stacked capacitor has a second conductive structure and a second dielectric structure in contact with the second conductive structure, in which the stacked capacitor is at least partially aligned with the trench capacitor in an axis vertical to a top surface of the substrate, and the first and second conductive structures are electrically connected. The trench capacitor and the stacked capacitor are electrically connected in parallel between the first and second electrode plates. |
| US12027574B2 |
Resistor structure
Semiconductor structures and methods of forming the same are provided. A method according to an embodiment includes forming a conductive feature and a first conductive plate over a substrate, conformally depositing a dielectric layer over the conductive feature and the first conductive plate, conformally depositing a conductive layer over the conductive feature and the first conductive plate, and patterning the conductive layer to form a second conductive plate over the first conductive plate and a resistor, the resistor includes a conductive line extending along a sidewall of the conductive feature. By employing the method, a high-resistance resistor may be formed along with a capacitor regardless of the resolution limit of, for example, lithography. |
| US12027569B2 |
Dual-sided imaging thin film display structure
A dual-sided imaging thin film display structure is provided, comprising a light source, a reflective polarizing element, a basing layer and a linear polarizing element. The reflective polarizing element is disposed on a front surface of the light source, the basing layer is disposed on a back surface of the light source, and the linear polarizing element is further disposed behind the basing layer. A transmission axis of the reflective polarizing element and that of the linear polarizing element are orthogonal, such that a light beam emitted from the light source passes through the reflective polarizing element to form a front image, be reflected by the reflective polarizing element, and passes through the linear polarizing element to form a back image. By employing the present invention, it achieves to provide dual-sided images and interferences between the images are suppressed to obtain superior imaging quality and resolution. |
| US12027566B2 |
Pigmented and scattering particles in side coating materials for LED applications
Phosphor-converted LED side reflectors disclosed herein comprise pigments that are photochemically stable under illumination by light from the pcLED. The pigments absorb light in at least a portion of the spectrum of light emitted by the first phosphor converted LED. The side reflector may also comprise light scattering particles or air voids. The pigments, light scattering particles, or air voids may be homogeneously distributed in the reflector. Alternatively the side reflector may be layered, with the pigments, light scattering particles, or air voids inhomogeneously distributed in the reflector. The side reflector can include phosphor particles. |
| US12027565B2 |
Imaging device having charge storage electrode, first electrode, second electrode and transfer control electrode, driving method for imaging device having the same, and electronic apparatus
An imaging device is provided. The imaging device may include a substrate having a first photoelectric conversion unit and a second photoelectric conversion unit at a light-incident side of the substrate. The second photoelectric conversion unit may include a photoelectric conversion layer, a first electrode, a second electrode above the photoelectric conversion layer, a third electrode, and an insulating material between the third electrode and the photoelectric conversion layer, wherein a portion of the insulating material is between the first electrode and the third electrode. |
| US12027561B2 |
3D image capturing system having image transducer with multiple photosensitive layers
An image transducer and a 3D image capturing system having the image transducer are provided. The image transducer includes a microlens, first function layer, first photosensitive layer, second function layer, second photosensitive layer, first read circuit and second read circuit; thus, the image transducer includes two photosensitive layers and is vertically structured. The two photosensitive layers greatly increase sensing waveband. The 3D image capturing system uses the image transducer to enhance pixel screen fineness of a 3D screen. |
| US12027556B2 |
Image sensor and method for fabricating the same
An image sensor includes a substrate, a photoelectric conversion region disposed inside the substrate, a first active region disposed inside the substrate to include a ground region, a floating diffusion region, and a channel region for connecting the ground region and the floating diffusion region, a substrate trench disposed inside the channel region, a transfer gate disposed on a face of the substrate to include a lower gate which fills a part of the substrate trench and has a first width, and an upper gate having a second width smaller than the first width on the lower gate, and a gate spacer disposed inside the substrate trench to be interposed between the ground region and the upper gate. |
| US12027552B2 |
Image sensor having high pixel integration
An image sensor includes a substrate that has a first pixel region and a second pixel region and a microlens layer on a first surface of the substrate. The microlens layer includes a first lens pattern on the first pixel region of the substrate; and a second lens pattern on the second pixel region of the substrate. A width of the first pixel region is greater than a width of the second pixel region, and a height of the first lens pattern is greater than a height of the second lens pattern. |
| US12027551B2 |
Image pickup device
Transmitted light loss in an image pickup device is reduced in forming an underlying film of optical elements.The image pickup device includes photoelectric conversion units, optical elements, and an underlying film of the optical elements. The photoelectric conversion units convert incident light into electric signals. The optical elements provide the incident light to the photoelectric conversion units. The underlying film of the optical elements is provided in a region between a first open region and a second open region of the optical elements in a layer between the optical elements and the photoelectric conversion units. Furthermore, the underlying film of the optical elements may be provided in a light-shielding region and a contact region outside an effective pixel region. |
| US12027549B2 |
Image sensor
Provided is an image sensor including a substrate, in which a pixel area including a plurality of unit pixels, an optical black area located outside of the pixel area, and an alignment key area located outside of the pixel area are included, the substrate having a first surface and a second surface opposing the first surface, an interconnection structure below the first surface of the substrate, photoelectric conversion elements in the pixel area of the substrate, an insulating layer on the second surface of the substrate, a grid layer on the insulating layer in the pixel area and the alignment key area, a key pattern layer between the insulating layer disposed in the alignment key area and the grid layer disposed in the alignment key area, the key pattern layer including a protruding region to correspond to the grid layer, and color filters on the insulating layer and the grid layer in the pixel area. |
| US12027547B2 |
Solid-state image sensor
A solid-state image sensor is provided. The solid-state image sensor includes photoelectric conversion elements. The solid-state image sensor also includes a mosaic pattern layer disposed above the photoelectric conversion elements. The mosaic pattern layer includes an infrared-passing segment and color filter segments disposed on the periphery of the infrared-passing segment. The solid-state image sensor further includes a first condensing structure disposed on the mosaic pattern layer. The infrared-passing segment and the color filter segments share the first condensing structure. |
| US12027545B2 |
Sensor package structure
A sensor package structure is provided. The sensor package structure includes a substrate, a sensor chip disposed on the substrate, a plurality of wires electrically coupling the sensor chip to the substrate, a supporting colloid layer disposed on the substrate, and a light-permeable sheet that is disposed on the supporting colloid layer. The substrate has a first board surface and a second board surface that is opposite to the first board surface. The substrate has a chip-accommodating slot recessed in the first board surface. The sensor chip is disposed in the chip-accommodating slot, and a gap distance between a top surface of the sensor chip and the first board surface is less than or equal to 10 μm. The supporting colloid layer is ring-shaped and is disposed on the first board surface, and each of the wires is at least partially embedded in the supporting colloid layer. |
| US12027544B2 |
Detection device
A detection device includes a sensor area in which a plurality of detection elements each comprising a photoelectric conversion element are arranged in a detection region, a drive circuit configured to supply a plurality of drive signals to the detection elements, and a detection circuit configured to process a detection signal output from each of the detection elements. |
| US12027537B2 |
Array substrate, display panel and display device
The present disclosure discloses an array substrate, a display panel and a display device. The array substrate includes a base substrate and a capacitor, the capacitor includes a first electrode, a dielectric portion and a second electrode sequentially located on the base substrate; wherein the dielectric portion includes: a first plane facing the second electrode, and a first slope surface extending from the first plane to the base substrate; and an orthographic projection, on the base substrate, of the second electrode is located in a region where an orthographic projection, on the base substrate, of the first plane of the dielectric portion is located. |
| US12027535B2 |
Semiconductor device with a capacitor and a plurality of overlapping openings in the conductive layers
The circuit includes a first transistor; a second transistor whose first terminal is connected to a gate of the first transistor for setting the potential of the gate of the first transistor to a level at which the first transistor is turned on; a third transistor for setting the potential of a gate of the second transistor to a level at which the second transistor is turned on and bringing the gate of the second transistor into a floating state; and a fourth transistor for setting the potential of the gate of the second transistor to a level at which the second transistor is turned off. With such a configuration, a potential difference between the gate and a source of the second transistor can be kept at a level higher than the threshold voltage of the second transistor, so that operation speed can be improved. |
| US12027534B2 |
Semiconductor device
According to one embodiment, a semiconductor device including, a panel including an inorganic film, and a first pad and a second pad positioned on the inorganic film, and a line substrate including a first connection line electrically connected to the first pad, and a second connection line electrically connected to the second pad, the line substrate positioned on the panel, wherein the inorganic film includes a first cut portion overlapping the first connection line, a second cut portion overlapping the second connection line, and a first extension portion between the first cut portion and the second cut portion, and the first cut portion, the second cut portion, and the first extension portion extend to a first side of the panel. |
| US12027531B2 |
Display device
A display device may include a substrate; a plurality of signal lines on the substrate; a plurality of scan lines on the substrate, the scan lines crossing the signal lines; and a plurality of thin film transistors at crossing positions of the scan lines and the signal lines. The scan lines include some first scan lines and some second scan lines. Each of the second scan lines has an end connected to a load element. |
| US12027518B1 |
3D semiconductor devices and structures with metal layers
A semiconductor device including: a first silicon level including a first single crystal silicon layer and first transistors; a first metal layer disposed over it; a second metal layer disposed over the first metal layer; a third metal layer disposed over the second metal layer; a second level including second transistors, disposed over the third metal layer; a fourth metal layer disposed over the second level; a fifth metal layer disposed over the fourth metal layer, where the fourth metal layer is aligned to the first metal layer with a less than 240 nm alignment error; where the fifth metal layer includes global power delivery; each of the third transistors comprises a metal gate; a via disposed through the second level and the third level, where a typical thickness of the second metal layer is greater than a typical thickness of the third metal layer by at least 50%. |
| US12027514B2 |
Clamping circuit integrated on gallium nitride semiconductor device and related semiconductor device
A semiconductor device and a clamping circuit including a substrate; a first semiconductor layer, arranged on the substrate and composed of a III-nitride semiconductor material; a second semiconductor layer, arranged on the first semiconductor layer and composed of a III-nitride semiconductor material; a power transistor structure, including a gate structure, a drain structure and a source structure arranged on the second semiconductor layer; the first transistor structures, arranged on the second semiconductor layer; and the second transistor structures, arranged on the second semiconductor layer in series. One end of the first transistor structures and one end of the second transistor structures are jointly electrically connected to the drain structure of the power transistor structure, and the other end of the first transistor structures and the other end of the second transistor structures are jointly electrically connected to the source structure of the power transistor structure. |
| US12027512B2 |
Chipset and manufacturing method thereof
The disclosure provides a chipset and a manufacturing method thereof. The chipset includes multiple logic cores and a memory chip. The logic cores respectively have a first device layer and a first substrate layer, and respectively include multiple first bonding elements and a first input/output circuit. The first bonding elements are provided in the first device layer. The first input/output circuit is provided in the first device layer. The memory chip has a second device layer and a second substrate layer, and includes second bonding elements and second input/output circuits. The second bonding elements are arranged in the second device layer. The second input/output circuits are arranged in the second device layer, and are respectively connected to the first input/output circuits of the logic cores. |
| US12027511B2 |
Semiconductor memory device and manufacturing method of semiconductor memory device
There are provided a semiconductor memory device and a manufacturing method of a semiconductor memory device. The semiconductor memory device includes: a peripheral circuit layer; a bonding structure disposed on the peripheral circuit layer; a channel structure disposed on the bonding structure; a first gate contact structure including a first vertical part penetrating the bonding structure and a first horizontal part intersecting with the first vertical part and extending from the first vertical part; and a first gate conductive pattern in contact with a side all of the first horizontal part, the first gate conductive pattern being spaced apart from the first vertical part, the first gate conductive pattern extending to surround the channel structure. |
| US12027504B2 |
Method for improving the colour difference of LED display screen
The present application provides a method for improving colour difference of an LED display screen, comprising: drilling and polishing circuit surfaces of a plurality of LED substrates; performing screen printing on the circuit surfaces of the plurality of LED substrates, and performing oil skimming on a mesh screen during the screen printing every other preset printing cycle in such a way that an ink on the mesh screen has a viscosity within a predetermined viscosity range; performing an exposure setting process on the plurality of LED substrates that have been screen printed to obtain a plurality of LED printed circuit boards; and finally assembling the plurality of LED printed circuit boards to form an LED display screen. |
| US12027503B2 |
Component and method for producing a component
A component having a carrier and at least one main body where the main body may include a semiconductor body and the carrier may have a mounting surface for arranging the mounting body thereon. A stopping structure may be arranged on the mounting surface and may project vertically beyond the mounting surface. The main body may be directly adjacent to the stopping structure such that the position of the main body is bounded along at least one lateral direction by the stopping structure. |
| US12027502B2 |
Manufacturing method of display panel, display panel, and display device
A method for manufacturing a display panel, a display panel, and a display device. The display panel includes a first substrate and a second substrate arranged opposite to each other, the first substrate includes a first base substrate and a base film layer arranged on a side of the first base substrate close to the second substrate; a surface of the base film layer close to the second substrate is provided with a plurality of concave mirror structures, the second substrate includes a second base substrate and a plurality of light-emitting units arranged on a side of the second base substrate close to the first substrate, and each of the light-emitting units is located at a focal position of a corresponding concave mirror structure of the concave mirror structures. |
| US12027501B2 |
Surface light source and method of manufacturing surface light source
A method of manufacturing a surface light source includes providing an intermediate structure body that includes a composite board including a supporting member and a wiring layer disposed on the supporting member and includes a plurality of light-emitting elements disposed apart from each other on the wiring layer of the composite board, disposing a plurality of covering members apart from each other to cover upper surfaces and lateral surfaces of the light-emitting elements and portions of the composite board around the light-emitting elements, disposing a light-shielding member such that a gap between the covering members is filled, removing the covering members to form a plurality of hole portions, and disposing a light-transmissive member in the hole portions. |
| US12027500B2 |
Circuit structure and electrical junction box
A circuit structure includes a plurality of semiconductor elements arranged side by side, and each semiconductor element includes source terminals and at least one gate terminal arranged side by side with the source terminals. The circuit structure includes: a first bus bar connected to the source terminals of the semiconductor elements; connection portions that connect the source terminals and the first bus bar and are arranged side by side along the arrangement direction of the semiconductor elements and whose one ends are connected to the source terminals of the respective semiconductor elements; an insulating portion provided so as to be present between each adjacent pairs of the connection portions; and conductive portions provided in the insulating portion and connected to the gate terminals. |
| US12027494B2 |
Semiconductor device and manufacturing method thereof
A semiconductor device includes an integrated circuit, first conductive features, second conductive features, a package structure, and an encapsulant. The integrated circuit has an active surface and a rear surface opposite to the active surface. The first conductive features surround the integrated circuit. The second conductive features are stacked on the first conductive features. The package structure is disposed on the second conductive features and the rear surface of the integrated circuit. The encapsulant laterally encapsulates the integrated circuit, the first conductive features, the second conductive features, and the package structure. |
| US12027487B2 |
Structures for low temperature bonding using nanoparticles
A method of making an assembly can include juxtaposing a top surface of a first electrically conductive element at a first surface of a first substrate with a top surface of a second electrically conductive element at a major surface of a second substrate. One of: the top surface of the first conductive element can be recessed below the first surface, or the top surface of the second conductive element can be recessed below the major surface. Electrically conductive nanoparticles can be disposed between the top surfaces of the first and second conductive elements. The conductive nanoparticles can have long dimensions smaller than 100 nanometers. The method can also include elevating a temperature at least at interfaces of the juxtaposed first and second conductive elements to a joining temperature at which the conductive nanoparticles can cause metallurgical joints to form between the juxtaposed first and second conductive elements. |
| US12027482B2 |
Semiconductor chip having a through electrode and semiconductor package including the semiconductor chip
A semiconductor chip includes: a semiconductor substrate; a pad insulating layer on the semiconductor substrate; a through electrode which penetrates the semiconductor substrate and the pad insulating layer and includes a conductive plug and a conductive barrier layer surrounding a sidewall of the conductive plug; and a bonding pad which surrounds a sidewall of the through electrode and is spaced apart from the conductive plug with the conductive barrier layer disposed therebetween. |
| US12027478B2 |
Manufacturing method of semiconductor structure
A method of forming a semiconductor structure includes forming a first redistribution structure including a first conductive pattern. The method further includes placing a die over the first redistribution structure. The method further includes disposing a molding material over the first redistribution structure to surround the die. The method further includes removing a portion of the molding material to form an opening. The method further includes disposing a dielectric material into the opening to form a dielectric member. The method further includes forming a second redistribution structure over the molding material and the dielectric member, wherein the second redistribution structure includes an antenna structure over the dielectric member and electrically connected to the die. |
| US12027473B2 |
Semiconductor devices and data storage systems including the same
A semiconductor device includes first and second gate electrodes stacked and spaced apart from each other in a first direction on a first region of a substrate, and extending in staircase form in a second direction on a second region of the substrate, the second gate electrodes disposed on the first gate electrodes; a first support structure penetrating the first gate electrodes on the second region, extending in the first direction, and having an upper end disposed at a level lower than a level of a lowermost second gate electrode among the second gate electrodes; a second support structure penetrating at least one of the first and second gate electrodes on the second region, extending in the first direction, and having an upper end disposed at a level higher than a level of un uppermost second gate electrode among the second gate electrodes. |
| US12027472B2 |
Integrated circuit packages to minimize stress on a semiconductor die
An integrated circuit package can contain a semiconductor die and provide electrical connections between the semiconductor die and additional electronic components. The integrated circuit package can reduce stress placed on the semiconductor die due to movement of the integrated circuit package due to, for example, temperature changes and/or moisture levels. The integrated circuit package can at least partially mechanically isolate the semiconductor die from the integrated circuit package. |
| US12027471B2 |
Semiconductor package having stiffener structure
A semiconductor package including a package base substrate, an interposer on the package base substrate, a plurality of semiconductor chips on the interposer, and a stiffener structure including a stiffener frame and a stiffener extension portion, the stiffener frame being on the package base substrate and apart from the interposer, the stiffener extension portion extending from the stiffener frame, spaced apart from the plurality of semiconductor chips, and extending onto the interposer to have a portion on the interposer, and the stiffener frame being an integral structure with the extension portion, may be provided. |
| US12027470B2 |
Package carrier having a stiffener between solder bumps
A package carrier, including a first redistribution structure layer, multiple conductive connecting members, a connection structure layer, at least one stiffener, and a molding compound, is provided. The conductive connecting members are disposed on a first surface of the first redistribution structure layer and are electrically connected to the first redistribution structure layer. The connection structure layer is disposed on a second surface of the first redistribution structure layer and includes a substrate and multiple pads. A top surface and a bottom surface of each pad are respectively exposed to an upper surface and a lower surface of the substrate. The pads are electrically connected to the first redistribution structure layer. The stiffener is disposed on the first surface and is located at least between the conductive connecting members. The molding compound is disposed on the first surface and covers the conductive connecting members and the stiffener. |
| US12027469B2 |
Electronic device package and method of manufacturing the same
An electronic device package and manufacturing method thereof are provided. The electronic device package includes an electronic component including an active surface, a patterned conductive layer disposed on the active surface, an encapsulation layer disposed over the patterned conductive layer, and a buffer layer disposed between the patterned conductive layer and the encapsulation layer. The buffer layer is shaped and sized to alleviate a stress generated due to an interaction between the patterned conductive layer and the encapsulation layer. |
| US12027468B2 |
Strapped copper interconnect for improved electromigration reliability
A semiconductor device a strapped interconnect line, which in turn includes a first interconnect line at a first level above a semiconductor substrate, and a second interconnect line at a second level above the interconnect substrate. A dielectric capping layer is located directly on the first interconnect line. A plurality of strapping vias are connected between the first interconnect line and the second interconnect line. Each of the strapping vias extends from a first side of the first interconnect line to a second side of the second interconnect line. |
| US12027467B2 |
Semiconductor device package and method of manufacturing the same
The present disclosure provides a semiconductor device package and a method of manufacturing the same. The semiconductor device package includes a substrate, an interconnection structure, a package body, and a first electronic component. The interconnection structure is disposed on the substrate. The package body is disposed on the substrate and partially covers the interconnection structure. The package body has a position limiting structure around the interconnection structure. The first electronic component is disposed on the interconnection structure and electrically connected to the interconnection structure. |
| US12027465B2 |
Impedance controlled electrical interconnection employing meta-materials
A method of improving electrical interconnections between two electrical elements is made available by providing a meta-material overlay in conjunction with the electrical interconnection. The meta-material overlay is designed to make the electrical signal propagating via the electrical interconnection to act as though the permittivity and permeability of the dielectric medium within which the electrical interconnection is formed are different than the real component permittivity and permeability of the dielectric medium surrounding the electrical interconnection. In some instances the permittivity and permeability resulting from the meta-material cause the signal to propagate as if the permittivity and permeability have negative values. Accordingly the method provides for electrical interconnections possessing enhanced control and stability of impedance, reduced noise, and reduced loss. Alternative embodiments of the meta-material overlay provide, the enhancements for conventional discrete wire bonds whilst also facilitating single integrated designs compatible with tape implementation. |
| US12027461B2 |
Semiconductor device including buried conductive fingers and method of making the same
A semiconductor device, includes a semiconductor substrate with active regions and a first buried metal layer provided below the semiconductor substrate. The first buried metal layer includes a first buried conductive rail, a first set of buried conductive fingers that extends from the first buried conductive rail, and a second set of buried conductive fingers that are interleaved with the first set of buried conductive fingers. The first set and the second set of buried conductive fingers extends beneath more than one of the active regions. In this manner, the first set and the second set of buried conductive fingers can be utilized to distribute different voltages, such as a ungated reference voltage TVDD and a gated reference voltage VVDD in a header circuit with reduced resistance. |
| US12027460B2 |
Microelectronic devices including slot structures, and related memory devices, electronic systems, and methods
A microelectronic device comprises a stack structure, and slot structures vertically extending through the stack structure and dividing the stack structure into block structures. Each of the slot structures individually comprises an insulative liner material vertically extending through the slot structure and contacting sidewalls of the insulative levels and the conductive levels defining the slot structure, and grains of a material in contact with sidewalls of the insulative liner material. The grains of the material comprise first grains spanning an entire width between the sidewalls of the insulative liner material. Related memory devices, electronic systems, and methods are also described. |
| US12027453B2 |
Embedded semiconductor packages and methods thereof
The present disclosure describes semiconductor packages and, more particularly, chip-embedded semiconductor packages. The packages include core panels with apertures extending through the core panel. Semiconductor chips are embedded within chip apertures. A molding compound can be positioned along one side of the core panel. In some examples, the semiconductor chips are embedded within the molding compound. In other examples, the semiconductor chips are adhered to the molding compound. The coefficient of thermal expansion (CTE) values of the core panels described herein can be tailored to decrease warpage of the package as the semiconductor chip heats during use. |
| US12027449B2 |
Device topologies for high current lateral power semiconductor devices
A lateral power semiconductor device structure comprises a pad-over-active topology wherein on-chip interconnect metallization and contact pad placement is optimized to reduce interconnect resistance. For a lateral GaN HEMT, wherein drain, source and gate finger electrodes extend between first and second edges of an active region, the source and drain buses run across the active region at positions intermediate the first and second edges of the active region, interconnecting first and second portions of the source fingers and drain fingers which extend laterally towards the first and second edges of the active region. External contact pads are placed on the source and drain buses. For a given die size, this interconnect structure reduces lengths of current paths in the source and drain metal interconnect, and provides, for example, at least one of lower interconnect resistance, increased current capability per unit active area, and increased active area usage per die. |
| US12027445B2 |
System for cooling semiconductor component, method of manufacturing the same, and semiconductor package having the system
Provided is a system for cooling semiconductor components including: a cover body including at least one upper cover and lower cover, which are separated from each other, face each other, and are combined to form a coolant flow path in an inner space thereof; an inlet combined to one side of the cover body and used for a coolant to flow in; an outlet combined to the other side of the cover body and used for the coolant to be discharged; at least one connecting part pin inserted and arranged toward a flowing direction of the coolant in the inner space of the cover body; and insertion grooves formed for the connecting part pins to be inserted in the inner space of the cover body, wherein the upper cover or the lower cover of the cover body is combined to at least one of the upper surfaces or the lower surfaces of semiconductor components by using connecting members so that heat transmitted from the semiconductor components to the connecting part pins is efficiently radiated by enlarging an area contacting the coolant. |
| US12027441B2 |
Conductive heat radiation film, method of manufacturing the same, and method of manufacturing electronic device
In order to provide a conductive heat radiation film that can stabilize the shape, a method of manufacturing a conductive heat radiation film 30 includes: a first heated film 28 including a plurality of first metal particles 27b; and a plurality of carbon nanotubes 24 including tips 24a adhered to the first heated film 28. |
| US12027437B2 |
Superconducting device having a plurality of thermal sink layers and a plurality of ground planes
An integrated circuit is provided that comprises a first thermal sink layer, a first ground plane associated with a first set of circuits that have a first operational temperature requirement, a first thermally conductive via that couples the first ground plane to the first thermal sink layer, a second thermal sink layer, a second ground plane associated with a second set of circuits that have a second operational temperature requirement that is higher than the first operational temperature requirement, and a second thermally conductive via that couples the second ground plane to the second thermal sink layer. The first thermal sink layer is cooled at a first temperature to maintain the first set of circuits at the first operational temperature requirement and the second thermal sink layer is cooled at a second temperature to maintain the second set of circuits at the second operational temperature requirement. |
| US12027430B1 |
Semiconductor doping characterization method using photoneutralization time constant of corona surface charge
Methods of characterizing semiconductor doping in a wide bandgap semiconductor sample include: measuring an initial value, V0, of a surface voltage at a region of a surface of the semiconductor sample in the dark; charging the region to deep depletion in the dark by depositing a prescribed corona charge at the region; measuring the surface voltage value in the dark at the region after charging; illuminating the charged region with light of a specific photon flux, ƒeff, having a photon energy above the semiconductor bandgap sufficient to generate free minority carriers in the semiconductor sample causing photoneutralization of the corona charge; monitoring of a photoneutralization induced corona charge decay at the region vs. illumination time, t, using a noncontact time resolved measurement of surface voltage, V(t); analyzing the monitored time resolved surface voltage decay data V(t) to determine a photoneutralization time constant, τph; and using the photoneutralization time constant, τph at a specific photon flux, ƒeff, as a semiconductor doping index and characterizing a semiconductor doping concentration at the region based on its value. |
| US12027423B2 |
Forming isolation regions for separating fins and gate stacks
A method includes forming a semiconductor fin protruding higher than top surfaces of isolation regions. The isolation regions extend into a semiconductor substrate. A portion of the semiconductor fin is etched to form a trench, which extends lower than bottom surfaces of the isolation regions, and extends into the semiconductor substrate. The method further includes filling the trench with a first dielectric material to form a first fin isolation region, recessing the first fin isolation region to form a first recess, and filling the first recess with a second dielectric material. The first dielectric material and the second dielectric material in combination form a second fin isolation region. |
| US12027422B2 |
Semiconductor structures and methods for forming the same
A method for forming a semiconductor structure includes: forming an active layer on a substrate; forming hard masks on the active layer, wherein a first spacing is disposed between two closely spaced hard masks in a predetermined word line region nearest to a predetermined selective gate region, wherein the first spacing is less than a second spacing between any two of the hard masks other than the two closely spaced hard masks; forming spacers on the sidewalls of the hard masks, wherein two spacers on opposite sides of the sidewalls of the closely spaced hard masks merge into a combined spacer; and transferring the patterns of the spacers to the active layer to form word lines. The step of transferring the patterns of the spacers includes transferring the pattern of the combined spacer to the active layer to form a first word line. |
| US12027419B2 |
Semiconductor device including liner structure
A semiconductor device includes an interconnect structure embedded in a first metallization layer comprising a dielectric material. The interconnect structure includes a first metal material. The semiconductor device includes a first liner structure embedded in the first metallization layer. The first liner structure is extended along one or more boundaries of the interconnect structure in the first metallization layer. The first liner structure includes a second metal material reacted with one or more dopants, the second metal material being different from the first metal material. |
| US12027416B2 |
BEOL etch stop layer without capacitance penalty
An etch stop layer is located on top of a first dielectric layer. A conductive line is located on top of the etch stop layer. A second dielectric layer is located above the first dielectric layer. The second dialect layer is in contact with the first dielectric layer. |
| US12027410B2 |
Edge ring arrangement with moveable edge rings
An edge ring arrangement for a processing chamber includes a first ring configured to surround and overlap a radially outer edge of an upper plate of a pedestal arranged in the processing chamber, a second ring arranged below the first moveable ring, wherein a portion of the first ring overlaps the second ring, a first actuator configured to actuate a first pillar to selectively move the first ring to a raised position and a lowered position relative to the pedestal, and a second actuator configured to actuate a second pillar to selectively move the second ring to a raised position and a lowered position relative to the pedestal. |
| US12027407B2 |
Substrate support apparatus and method
A substrate support apparatus includes a housing and a plurality of spherical supports. The housing has a top surface, the top surface including a plurality of openings. The housing is configured to position the plurality of spherical supports within the plurality of openings so that topmost surfaces of the plurality of spherical supports are arranged in a plane above the top surface. A spherical support of the plurality of spherical supports is rotatable within the housing. |
| US12027406B2 |
Method for manufacturing holding device and holding device
A holding device manufacturing method includes a step of preparing a first joined body which includes a pre-machining ceramic member having a first surface and a fifth surface located opposite the first surface and approximately parallel to the first surface, a base member, and a joining portion disposed between the first surface of the pre-machining ceramic member and a third surface of the base member and joining the pre-machining ceramic member and the base member together. The thickness of the joining portion of the first joined body in a first direction, in which the first surface and the third surface face each other via the joining portion, increases from one end side toward the other end side of the joining portion in a second direction perpendicular to the first direction. The method includes a step of machining the fifth surface of the pre-machining ceramic member in the first joined body. |
| US12027405B2 |
Semiconductive ceramic member
A semiconductive ceramic member according to the present disclosure contains a plurality of aluminum oxide crystal grains, and a plurality of titanium oxide crystal grains. The total content of aluminum oxide and titanium oxide is 99% by mass or more per 100% by mass of all constituents. The content of the aluminum oxide is 86% by mass or more and 96% by mass or less and the content of the titanium oxide is 4% by mass or more and 14% by mass or less per 100% by mass of the aluminum oxide and the titanium oxide in total. A peak of TiOx (0 |
| US12027402B2 |
Substrate processing apparatus and substrate processing method
An adjusting system is controlled such that an arrangement of the substrate is adjusted based on detection by a first sensor, and a second sensor is controlled to detect a characteristic point formed in advance on a plate surface of the substrate, wherein the arrangement of the substrate has been adjusted based on the detection by the first sensor. Moreover, it is checked whether a position of the characteristic point detected by the second sensor is within an allowable range, and the adjusting system is controlled to adjust the arrangement of the substrate based on the detection by the second sensor when the position of the characteristic point detected by the second sensor is within the allowable range, and the attaching/detaching system is controlled to attach the substrate to the substrate holder after the arrangement of the substrate is adjusted based on the detection by the second sensor. |
| US12027401B2 |
Semiconductor substrate alignment device and a semiconductor substrate bonding system using the same
A semiconductor substrate alignment device includes: a lower chuck; a lower chuck driving unit; an upper chuck above and overlapping the lower chuck; observation windows in the upper chuck, imaging units respectively configured to irradiate light through the observation windows and to obtain images by detecting light reflected from the semiconductor substrates; a distance sensor configured to detect a distance between an edge of the lower chuck and an edge of the upper chuck; and a control unit configured to identify first and second alignment keys from images of first and second semiconductor substrates, determine an alignment error value of the first and second semiconductor substrates, and compensate for the alignment error value by driving the lower chuck driving unit. |
| US12027388B2 |
Conical coil for rapid thermal anneal lamps
Examples disclosed herein relate to a lamp configured to provide heat for a processing chamber. The lamp includes a housing filled with a gas. A filament is disposed within the housing. The filament has an upper diameter, a lower diameter, and a length. A pair of electrodes is electrically coupled to the filament. A pair of pins is electrically coupled to the pair of electrodes. The pair of pins is configured to transfer energy to the filament. A ratio between either the upper diameter or the lower diameter to the length is about 0.3. The upper diameter is not equal to the lower diameter. |
| US12027387B2 |
Holding device
A holding device includes a plate-shaped member, a tubular member, and a connecting member. The tubular member is made of ceramic and is joined to plate-shaped member at an end thereof. The tubular member has, at an other end thereof, a flange portion having a first through-hole. The connecting member is disposed on the other side of the tubular member and has, in a third surface, which is an end face of the connecting member, a hole into which a fastening member inserted through the first through-hole in the flange portion is to be screwed. A specific portion, which is a portion in an outer edge line of a fourth surface of the tubular member, the portion overlapping a minimum virtual circle covering the fourth surface, is not in contact with the third surface of the connecting member. |
| US12027384B2 |
Heat treatment apparatus and dummy substrate processing method
A heat treatment apparatus for applying a heat treatment to a plurality of substrates including a product substrate and a dummy substrate includes: a process container configured to accommodate the plurality of substrates; a storage container provided outside the process container and configured to store the dummy substrate; and an oxidation mechanism configured to oxidize the dummy substrate stored in the storage container. |
| US12027382B2 |
Surface cleaning with directed high pressure chemistry
Cleaning chambers may include a substrate support having a substrate seating position. The cleaning chambers may include a plurality of fluid nozzles facing the substrate support. Each fluid nozzle of the plurality of fluid nozzles may define a fluid port characterized by a leading edge and a trailing edge. Each fluid nozzle of the plurality of fluid nozzles may be angled relative to the substrate seating position of the substrate support to produce an interior angle of greater than or about 90° at an intersection location across the substrate seating position for a fluid delivered from each fluid nozzle at the leading edge of the fluid port. |
| US12027380B2 |
Semiconductor manufacturing apparatus and method of manufacturing semiconductor device
In one embodiment, a semiconductor manufacturing apparatus includes a substrate holder configured to hold a plurality of substrates such that the substrates are arranged in parallel to each other. The apparatus further includes a fluid injector including a plurality of openings that inject fluid to areas in which distances from surfaces of the substrates are within distances between centers of the substrates adjacent to each other, the fluid injector being configured to change injection directions of the fluid injected from the openings in planes that are parallel to the surfaces of the substrates by self-oscillation. |
| US12027379B2 |
Package substrate and method of forming the same, package structure and method of forming the same
The present disclosure relates to a package substrate comprising: a substrate having opposing first surface and second surface; at least one vent hole extending through the first surface and the second surface of the substrate, the vent hole comprising at least a long-strip hole. |
| US12027376B2 |
Method for cut metal gate etch dimensional control
Provided are methods of manufacturing an integrated circuit device including depositing a conductive layer on a substrate, patterning the conductive layer to expose regions of the conductive layer, etching a first portion of the exposed regions of the conductive layer, forming a first passivation layer on a sidewall of the first etched portion, etching a second portion of the exposed regions of the conductive layer, and forming a second passivation layer on a sidewall of the second etched portion. |
| US12027374B2 |
Processes to deposit amorphous-silicon etch protection liner
Embodiments of the present disclosure generally relate to fabricating electronic devices, such as memory devices. In one or more embodiments, a method for forming a device includes forming a film stack on a substrate, where the film stack contains a plurality of alternating layers of oxide layers and nitride layers and has a stack thickness, and etching the film stack to a first depth to form a plurality of openings between a plurality of structures. The method includes depositing an etch protection liner containing amorphous-silicon on the sidewalls and the bottoms of the structures, removing the etch protection liner from at least the bottoms of the openings, forming a plurality of holes by etching the film stack in the openings to further extend each bottom of the openings to a second depth of the hole, and removing the etch protection liner from the sidewalls. |
| US12027373B2 |
Planarization process, planarization system, and method of manufacturing an article
A method of planarizing a substrate comprises dispensing formable material onto a substrate, contacting a superstrate held by a superstrate chuck with the formable material on the substrate, thereby forming a multilayer structure including the superstrate, a film of the formable material, and the substrate, releasing the multilayer structure from the superstrate chuck, providing a space between the superstrate chuck and the multilayer structure after the releasing, positioning a light source into the provided space between the superstrate chuck and the multilayer structure, and curing the film of the multilayer structure by exposing the film to light emitted from the light source. |
| US12027371B2 |
Substrate processing method
Disclosed is a substrate processing method including: a pressurizing operation of raising a process pressure from a first pressure (P1) to a second pressure (P2) that is greater than the atmospheric pressure; a depressurizing operation of lowering the process pressure from a sixth pressure (P6), which is greater than the atmospheric pressure, to a seventh pressure (P7); and an annealing operation of changing the process pressure into a preset pressure change pattern between the pressurizing operation and the depressurizing operation, under a temperature atmosphere of a second temperature (T2) higher than the room temperature. A temperature raising operation of raising a temperature atmosphere from a first temperature (T1) to the second temperature (T2) is performed from a preset temperature raising start point (t1) to a preset temperature raising end point (t2) while the pressurizing operation is performed or after the pressurizing operation is performed. |
| US12027370B2 |
Method of forming an integrated circuit using a patterned mask layer
A method of forming an integrated circuit includes forming a patterned mask layer on a material layer, wherein the patterned mask layer has a plurality of first features, and a first distance between adjacent first features of the plurality of first features. The method further includes patterning the material layer to form the first features in the material layer. The method further includes increasing the first distance between adjacent first features of the plurality of first features to a second distance. The method further includes treating portions of the material layer exposed by the patterned mask layer. The method further includes removing the patterned mask layer; and removing non-treated portions of the material layer. |
| US12027358B2 |
Mass spectrometry analysis method and mass spectrometry system
The invention provides a mass spectrometry analysis method and a mass spectrometry system, including: a first sample separation step, separating a sample by a first sample separation device to obtain first isolates; a second sample separation step, introducing ionized first isolates into a second sample separation device for further separation based on a difference in ion mobility to obtain second isolates; and a mass spectrometry analysis step, performing mass spectrometry detection at least on daughter ions obtained from dissociation of the second isolates; in the second sample separation step, the second sample separation device operates in a filter mode, and screens out and releases ions having ion mobility within a specified range from received second isolates. The mass spectrometry analysis method can improve the dynamic range of mass spectrometry analysis. |
| US12027357B2 |
Increased dynamic range for the attenuation of an ion beam
In one aspect, a method of modulating transmission of ions in a mass spectrometer is disclosed, which comprises generating an ion beam comprising a plurality of ions, directing the ion beam to an ion optic positioned in the path of the ion beam, wherein the ion optic includes at least one opening through which the ions can pass, and applying one or more voltage pulses at a selected duty cycle to said ion optic so as to obtain a desired attenuation of brightness of the ion beam passing through the ion optic, where a pulse width of said voltage pulses at said selected duty cycle is determined by identifying a pulse width on a calibration normalized ion intensity versus pulse width relation for said ions that corresponds to said desired attenuation on an ideal normalized ion intensity versus pulse width relation for said ions. |
| US12027355B2 |
Systems and methods for performing multiple precurser, neutral loss and product ion scans in a single ion trap
The invention generally relates to systems and methods for performing multiple precursor, neutral loss and product ion scans in a single ion trap. In certain aspects, the invention provides systems including a mass spectrometer having a single ion trap, and a central processing unit (CPU), and storage coupled to the CPU for storing instructions that when executed by the CPU cause the system to apply at least one of the following ion scans to a single ion population in the single ion trap: multiple precursor ion scans, a plurality of segmented neutral loss scans, or multiple simultaneous neutral loss scans. |
| US12027351B2 |
Plasma non-uniformity detection
A method of detecting non-uniformity in a plasma in a radio frequency plasma processing system, the method including generating a plasma within a reaction chamber of the radio frequency plasma processing system and detecting electrical signals from the plasma in a frequency range from a frequency of radio frequency power sustaining the plasma to a multiple of about ten times a frequency with a plurality of sensors disposed azimuthally about a chamber symmetry axis of the radio frequency plasma processing system. The method also including comparing the waveforms of the electrical signals picked up from the plasma by the plurality of sensors and determining when a plasma non-uniformity occurs based on the comparing the electrical property of the plasma detected by each of the plurality of sensors. |
| US12027349B2 |
Plasma processing apparatus
A plasma processing apparatus is provided. The plasma processing apparatus comprises: a dielectric member having a placement surface on which an object to be processed is placed and a back surface opposite to the placement surface, and having a first through-hole penetrating through the placement surface and the back surface; a mounting table having a support surface for supporting the dielectric member and a base having a second through-hole communicating with the first through-hole; and an embedded member disposed in the first through-hole and the second through-hole, wherein the embedded member includes a first embedded member disposed in the first through-hole and a second embedded member disposed in the second through-hole, and the rigidity of the second embedded member is lower than the rigidity of the first embedded member. |
| US12027348B2 |
Electron bias control signals for electron enhanced material processing
Systems and methods for material processing using wafer scale waves of precisely controlled electrons in a DC plasma is presented. A surface floating potential of a substrate placed atop a stage in a positive column of the DC plasma is adjusted and maintained to a reference potential. A periodic biasing signal referenced to the reference potential is capacitively coupled to the stage to control a surface potential at the substrate according to: an active phase for provision of kinetic energy to free electrons in the DC plasma for activation of targeted bonds at the surface of the substrate; a neutralization phase for repelling of the free electrons from the surface of the substrate; and an initialization phase for restoring an initial condition of the surface floating potential. |
| US12027340B2 |
Pincer mount cathode
A cathode device includes an emitter tip for generating electrons. An elongate heater is included having proximal and distal ends. The emitter tip can be located at the distal end of the heater. Two spaced apart legs can extend away from the distal end of the heater, terminating at the proximal end and forming an elongate slot therebetween. Two electrical contacts can compressively engage respective opposite outer surfaces of the two legs at the proximal end of the heater to mechanically secure and electrically connect the two legs of the heater to respective electrical contacts at a junction that is at a location spaced away from the emitter tip to keep the junction cooler. |
| US12027330B2 |
Rotation angle detection sensor
A rotation angle detection sensor detects the rotation angle of a rotating part attached to a structure including a fixed part and a rotating part that rotates around a rotary shaft. The rotation angle detection sensor includes a reed switch attached to the fixed or rotating part with reeds placed near the rotary shaft. An annular magnet is attached to the rotating or fixed part. A magnetic circuit is formed with respect to the reed switch, with its central axis arranged concentrically with the rotary shaft. When the magnet rotates around the central axis with respect to the reed switch, if the same poles of the magnet are lined up in the longitudinal direction of the reed switch, the reed switch is turned off. If opposite poles of the magnet are lined up in the longitudinal direction of the reed switch, the reed switch is turned on. |
| US12027327B2 |
Composite input device
The composite input device includes a first detector configured to detect a rotating operation, a second detector configured to detect a tilting operation, and a substrate disposed perpendicular to a rotational axis of the rotating operation. In a plan view in a direction perpendicular to the substrate, the first detector is disposed inside an imaginary circle. The imaginary circle has a center at an intersection of the substrate and an the rotational axis of the rotating operation and has an outer circumference that passes through an outer edge of the second detector positioned farthest away from the center of the imaginary circle. |
| US12027326B2 |
Backlit module and illuminated keyswitch structure
A backlit-module-embedded illuminated keyswitch structure includes a baseplate, a mask film disposed below the baseplate and having a first coating for substantially reflecting a light and a second coating for substantially blocking the light, a light guide sheet at one side of the mask film and having a light source hole, and a reflective layer at one side of the light guide sheet opposite to the mask film. The second coating includes a second main coating region and a plurality of second coating sub-regions, which extends outward from the second main coating region and is arranged along the periphery of the second main coating region to form a plurality of intermediary regions therebetween. The first coating and the second coating are disposed right above the light source hole. The first coating is at least partially located in the intermediary regions. |
| US12027322B2 |
Electrolytic capacitor
An electrolytic capacitor includes a capacitor element, an exterior body covering the capacitor element, an anode terminal electrically connected to an anode body of the capacitor element, and a cathode terminal electrically connected to a cathode portion of the capacitor element. Each of the anode terminal and the cathode terminal includes a connection portion in contact with the capacitor element, a lead-out portion led out from the connection portion to an outer surface of the exterior body, and an external terminal portion disposed along the outer surface of the external body and having an exposed surface exposed from the external body. At least a part of a covered portion of the lead-out portion, the covered portion being covered with the exterior body, has a cross-sectional shape including a chamfered shape corner portion in a cross section parallel to a surface region of the outer surface of the exterior body where the lead-out portion is led out. |
| US12027321B2 |
Method for producing electrode for aluminum electrolytic capacitor
In production of an electrode for an aluminum electrolytic capacitor, a hydrated film is formed onto an aluminum electrode including a porous layer by immersing the aluminum electrode into a first hydration treatment liquid having a temperature of 80° C. or more in a first hydration treatment step (ST1) and thereafter the aluminum electrode is heated in an atmosphere having a temperature of 150° C. or more and 350° C. or less in a dehydration step (ST2). Subsequently, a hydrated film is formed onto the aluminum electrode by immersing the aluminum electrode into a second hydration treatment liquid having a temperature of 80° C. or more in a second hydration treatment step (ST3) and thereafter chemical formation of the aluminum electrode is performed at 400 V or more and further 600 V or more in a chemical formation step. |
| US12027317B2 |
Dielectric composition and multilayer ceramic electronic device
A dielectric composition includes dielectric particles and first segregations. The dielectric particles each include a perovskite compound represented by ABO3 as a main component. The first segregations each include Ba, Ti, Si, Ni, and O. |
| US12027311B2 |
Actuating device
An actuating device includes at least one magnetic drive (12) with a solenoid coil (34) accommodated in a housing (10). The solenoid coil generates heat during operation affecting the performance of the device. The heat is dissipated at least partially into the environment as power loss via the housing (10), is disclosed. For improved heat dissipation, parts (40, 42) of the device are formed of at least one special plastic material, which has a thermal conductivity coefficient of 0.25 to 1.25 W/(m·K) or W/m/K (i.e., watts per meter per Kelvin). |
| US12027303B2 |
Laminated device
Provided is a laminated device. The laminated device includes: a laminate body where a plurality of sheets are laminated; a plurality of noise filter parts provided in the laminate body and each having at least one coil pattern; and a plurality of external electrodes provided outside the laminate body and connected to the plurality of noise filter parts, respectively. At least one of the plurality of noise filter parts has the number of coil patterns different from that of the rest. |
| US12027302B2 |
Inductor component and method for manufacturing same
An inductor component comprises a ring-shaped core; and a coil wound around the core and comprising wire members each constituting a single turn. Each of the wire members has a first side portion facing an inner peripheral surface of the core, a second side portion facing a first end surface that is one end surface of the core and is located in a direction of a center axis of the core, a third side portion facing an outer peripheral surface of the core, and a fourth side portion facing a second end surface that is the other end surface of the core and is located in the direction of the center axis of the core. At least one of the second and third side portions has a bent portion protruding on the core side, and the first and fourth side portions of adjacent wire members are connected. |
| US12027301B2 |
Electronic device
A composite coil device includes a winding shaft portion, a first conductor portion, and a second conductor portion. The winding shaft portion at least partly includes a magnetic body and axially includes a first section and a second section. The first conductor portion is wound continuously in the first section and the second section. The second conductor portion is wound in the second section. |
| US12027298B2 |
Inductor device
An inductor device includes a first trace, a second trace, a third trace, a fourth trace, and a double ring inductor. The first trace is disposed in a first area, and located on a first layer. The second trace is disposed in the first area, coupled to the first trace, and located on a second layer. The third trace is disposed in a second area, and located on the first layer. The fourth trace is disposed in the second area, coupled to the third trace, and located on the second layer. The double ring inductor is disposed on the first layer, located at outer side of the first trace and the third trace, and coupled to the first trace and the third trace. |
| US12027297B2 |
Inductor element and manufacturing method for inductor element
An inductor element includes a magnetic body core provided with a through-hole, and a coil inserted through the through-hole and wound around the magnetic body core a plurality of times. The coil includes three bonding portions located on one side in a thickness direction of the magnetic body core. The three bonding portions are located on a first virtual plane that partially intersects with the coil. |
| US12027296B2 |
Inductor component
An inductor component includes a core having an annular shape; an insulating member that covers a portion of the core; a coil wound around the core and the insulating member; and a buffer member that is elastic. The core has a first face, a second face that crosses the first face, and a third face that faces the second face and crosses the first face. The insulating member is provided to cover the first face, a portion of the second face, and a portion of the third face. The core and the insulating member are bonded to each other with the buffer member interposed therebetween. |
| US12027293B2 |
Methods for tailoring magnetism, and structures obtained therefrom
This invention provides methods for fabricating a hard or soft magnet with tailorable magnetic and crystallographic orientations. Methods are disclosed to individually tailor three-dimensional voxels for selected crystallographic orientations and, independently, selected magnetic orientations with location specificity throughout a magnet. Some variations provide a method of making a magnet, comprising: providing a feedstock composition containing magnetic or magnetically susceptible materials; exposing the feedstock composition to an energy source for melting, thereby generating a first melt layer; solidifying the first melt layer in the presence of an externally applied magnetic field, thereby generating a magnetic metal layer containing a plurality of individual voxels; optionally repeating to generate a plurality of solid layers; and recovering a magnet comprising the magnetic metal layer(s), wherein the externally applied magnetic field has a magnetic-field orientation that is selected to control a magnetic axis and a crystallographic texture within the magnetic metal layer(s). |
| US12027289B2 |
Power unit and power cable for mobile communication base station
The present disclosure relates to a power unit and a power cable for a mobile communication base station, which have sufficiently low inductance and thus minimize voltage oscillation regardless of a change of the amount of power transmitted when communication load of a mobile communication base station increases, thereby providing stable communication services, and which enhance workability of connection to a remote radio unit (RRU) at a base station. |
| US12027287B2 |
Insulated electric cord
An insulated electric cord (102) comprises an elongate covering arrangement (12) and at least two elongate electrical conductors (14, 16) held within the covering arrangement (12). The insulated electric cord (102) further comprises an elongate load bearing member (20) held within the covering arrangement (12). The insulated electric cord (102) further comprises an elongate flexible cutting member (22) held within the covering arrangement (12). The elongate electrical conductors (14, 16), the elongate load bearing member (20), and the elongate flexible cutting member (22) extend longitudinally through the covering arrangement (12). The elongate flexible cutting member (22) extends through the covering arrangement (12) adjacent the elongate load bearing member (20). The cutting member (22) is capable of cutting the covering arrangement (12), thereby allowing a portion of the load bearing member (20) to be extracted from the covering arrangement (12). |
| US12027286B2 |
Device for damping vibrations of a flexible or mineral-insulated cable integrated into a recess, cable thus equipped and manufacturing method
A device for damping vibrations suffered by a cable and intended to be integrated into a recess for the cable that has a larger cross- section than the cross-section of the cable. The device has at least two tips with tubular cross-sections that are attached to the surface of the cable and a flexible portion connecting the tips together and extending to the interior wall of the recess. |
| US12027283B2 |
Batching system for producing special cables
A batching system for producing special cables includes a motor, a loading plate, wire pulling rollers, a transmission steel pipe and a batching motor; the transmission steel pipe is rotatably connected to an upper end surface of the loading plate by a bracket; the motor is fixedly arranged on a side wall of a mounting bracket; the wire pulling rollers are rotatably connected to an upper end surface of the loading plate; the system further includes: a wiring mechanism, a replacing mechanism and a driving mechanism; the wiring mechanism is coaxially and fixedly connected with an outer end surface of the transmission steel pipe; the replacing mechanism is sleeved on the outer end surface of the transmission steel pipe; the driving mechanism is fixedly mounted on a lower end surface of the loading plate; a winding mechanism for winding wires is coaxially and fixedly arranged on the transmission steel pipe. |
| US12027281B2 |
Metallic structure with desired combinations of mechanical and electrical characteristics
The present invention relates to metallic structure with desired combinations of mechanical and electrical characteristics formed of a higher electrical conductivity element with a mechanically stronger element. |
| US12027276B1 |
Methods, systems and devices for assessing wound healing
The present disclosure generally relates to methods for determining the healing outcome of a wound, as well as related devices, systems and methods of treatment using a Bayesian Belief Network model that utilizes wound effluent biomarkers and clinical parameters for determining a patient-specific probability of the healing outcome of a wound. |
| US12027274B2 |
Human metabolic condition management
Systems and methods for extracting blood glucose patterns and suggesting a behavior may include receiving, at a computing device comprising a processor, temporal data including information regarding glucose readings; identifying, by the computing device, at least one pattern based on metabolite levels extracted from the temporal data the model including variables corresponding to each of the patterns; formulating, by the computing device, a model for predicting a metabolic response; and storing the model on a data storage device. Based on the model, the behavior may be suggested to maintain a blood glucose level within a desired range. |
| US12027271B2 |
Visualization of biomedical predictions
The mobile device receives a prediction result via a digital cellular mobile telecommunication network. The prediction result has been generated by a program logic using a biomedical model. The prediction result includes a prediction score, a first confidence interval of prediction scores known to have a percentage of false negative predictions below a predefined FN-percentage threshold and a second confidence interval of score values known to have a percentage of false positive predictions below a predefined FP-percentage threshold. The mobile device displays an analog scale icon including a background area having the prediction score, an analog scale representing the score range; a pointer; a first sub-range indicator indicating the size and position of the first confidence interval; and a second sub-range indicator indicating the size and position of the second confidence interval within the score range. |
| US12027264B2 |
Medical intervention based on separate data sets
A first patient intervention is identified. The first patient intervention regards a first patient record that includes one or more attributes related to a first patient. The first patient intervention is transmitted to a first program split of a secure multi-party computation. A conflict is detected in the first patient intervention and an existing medical situation regarding the first patient. The conflict is detected by the first program split of the secure multi-party computation and by a third program split of the secure multi-party computation. Based on the detected conflict, a notification is generated by the first program split. The notification is based on the detected conflict. The notification based on the detected conflict is provided to a first client. |
| US12027257B2 |
Beacon-based systems and methods for generating medical facility metrics
A beacon-based metrics system may track events associated with a user device located within a medical facility, determine that the user device detects a beacon emitted by a beacon generator located within the medical facility, and identify information included in the beacon. The beacon-based metrics system may generate medical facility metrics data representative of the tracked events by identifying a set of tracked events that occur during a time period in which the user device detects the beacon and associating the information included in the beacon with the set of tracked events. |
| US12027249B2 |
Intelligent medication delivery systems and methods using a prescription-regulated software application
Systems, devices and methods are disclosed for a prescription-regulated software application and an associated medical device. In some aspects, a smart medicine-injection device (e.g., smart insulin pen) is configured to be in communication with a patient's companion device (e.g., smartphone) having a software application (prescription app) that serves the patient as a complimentary medical device to the smart medicine-injection device, in which only certain features and functionalities of the prescription app are fully operable based on device pairing with the smart medicine-injection device to unlock medical device capabilities only available to the patient through prescription. |
| US12027246B1 |
Apparatus, system and method for processing medical data in a computer system
Technologies and techniques for processing drug data in a specialized medical computer system. Autonomous moving code may be received via a communications interface from a computer network, where the autonomous movable code includes patient data, lab test data, demographic data, and diagnosis data. The autonomous movable code is executed in a system agent manager and processed in a learning module, where the learning module performs predictive processing to determine if an opioid abuse condition exists. New autonomous movable code may be generated that includes information and/or instructions regarding the opioid abuse condition. The new autonomous movable code is then transmitted back to the computer network. |
| US12027245B2 |
Multi-stage release cannabinoid compositions
The present disclosure provides a pharmaceutical composition for multi-stage release of psychoactive substances including cannabinoids. The pharmaceutical composition comprises two or more staged compositions having different release profiles or different release time such that the one or more active agents in each of the two or more staged compositions are released into the subject's blood stream at different time points. |
| US12027244B2 |
Healthcare transaction validation via blockchain systems and methods
Healthcare transaction validation systems and methods are presented. Healthcare transactions associated with a stakeholder are compiled into a chain of healthcare transaction blocks. The chain can be considered a chronicle of person's healthcare path through life. When a transaction is conducted, the corresponding healthcare parameters (e.g., inputs, outputs, clinical evidence, outcomes, etc.) are sent to one or more validation devices. The devices establish a validity of the transaction and generate a new block via a proof-of-work principle. Once the new block has been calculated it can be appended to the stakeholder's health care blockchain. |
| US12027239B2 |
Quality prediction method, preparation method and system of conductive gallium oxide based on deep learning and edge-defined film-fed growth method
A conductive gallium oxide quality prediction method based on deep learning and an edge-defined film-fed crystal growth method, a preparation method and a system; the quality prediction method includes the following steps: obtaining preparation data of a conductive gallium oxide single crystal prepared by the edge-defined film-fed crystal growth method, the preparation data including seed crystal data, environment data and control data, and the control data including doping element concentration and doping element type; preprocessing the preparation data to obtain preprocessed preparation data; inputting the preprocessing preparation data into a trained neural network model, acquiring the predicted quality data corresponding to the conductive gallium oxide single crystal through the trained neural network model, the predicted quality data including predicted carrier concentration. |
| US12027238B2 |
Functional protein classification for pandemic research
A protein searcher includes a pre-trained CNN, a feature extractor, a database and a KNN searcher. The pre-trained CNN, trained on a previously classified amino acid database, receives an unidentified amino acid sequence. The feature extractor extracts a feature vector of the unidentified amino acid sequence as a query feature vector. The database stores feature vectors of trained amino acid sequences and of at least one untrained amino acid sequence and stores associated classes of the trained amino acid sequences and associated tags of the at least one untrained amino acid sequence. The KNN searcher finds K feature vectors of the database which are close to the query feature vector and outputs the associated class or tag of each of the K feature vectors. |
| US12027237B2 |
Anomalous fragment detection and classification
An analytics system creates a data structure counting strings of methylation vectors from a healthy control group. The analytics system enumerates possibilities of methylation state vectors given a sample fragment from a subject, and calculates probabilities for all possibilities with a Markov chain probability. The analytics system generates a p-value score for the subject's test methylation state vector by summing the calculated probabilities that are less than or equal to the calculated probability of the possibility matching the test methylation state vector. The analytics system determines the test methylation state vector to be anomalously methylated compared to the healthy control group if the p-value score is below a threshold score. With a number of such sample fragments, the analytics system can filter the sample fragments based on each p-value score. The analytics system can run a classification model on the filtered set to predict whether the subject has cancer. |
| US12027236B2 |
Linear genome assembly from three dimensional genome structure
Provided herein includes a method for generating an error-corrected genome assembly for an organism comprising: generating a genomic contact map derived from a DNA proximity ligation assay conducted on one or more samples from the organism or a closely related species; superimposing a reference assembled genome derived from whole genome sequencing of one or more samples from the organism on top of the genomic contact map using computer software; correcting errors in the reference assembled genome through a computer user interface to obtain a corrected assembly file, wherein errors in the reference assembled genome are visualized by observing aberrant contacts in the genomic contact map; and applying the corrected assembly file to the reference assembled genome. |
| US12027232B2 |
Word line driver circuit and memory
A word line driver circuit may at least include multiple word line drivers, each of which including a PMOS transistor and at least one NMOS transistor. The multiple word line drivers include multiple PMOS transistors and multiple NMOS transistors. The multiple PMOS transistors are arranged side by side, and in an arrangement direction of the multiple PMOS transistors, a part of the multiple NMOS transistors are located on a side of the multiple PMOS transistors, and another part of the NMOS transistors are located on another side of the multiple PMOS transistors. |
| US12027228B2 |
Temperature differential-based voltage offset control
A method includes performing a first operation to program data to a group of memory cells of a memory device, wherein the data comprises host data and a bit pattern indicative of a first temperature of the group of memory cells and receiving a signal to perform a second operation to read the host data from the group of memory cells. The method further includes determining, responsive to receipt of the signal, whether a second temperature of the group of memory cells is outside a threshold temperature differential that is based on the bit pattern indicative of the first temperature of the group of memory cells, applying a voltage offset signal to the group of memory cells responsive to a determination that the second temperature of the group of memory cells is outside the threshold temperature differential, and performing the second operation to read the host data from the group of memory cells subsequent to application of the voltage offset signal to the group of memory cells. |
| US12027227B2 |
Low power management for sleep mode operation of a memory device
A determination is made that a memory device of a memory sub-system is to be transitioned to a sleep mode. A command is initiated to cause a standby circuit associated with the memory device to enter into a low power mode while a power supply of the memory sub-system is maintained in a powered state. In the low power mode, a reference voltage is supplied to a voltage regulator of the standby circuit to supply a standby current level to the memory device during the sleep mode. |
| US12027221B2 |
Integrated circuit device
An integrated circuit (IC) device includes a first active region extending along a first direction, a first pair of gate regions extending across the first active region along a second direction transverse to the first direction, and a first metal layer. The first pair of gate regions and the first active region configure a first program transistor and a first read transistor sharing a common source/drain region. The first metal layer includes a first program word line pattern over and coupled to the gate region of the first program transistor, a first read word line pattern over and coupled to the gate region of the first read transistor, a first source line pattern coupled to another source/drain region of the first program transistor, and a first bit line pattern coupled to another source/drain region of the first read transistor. |
| US12027220B2 |
One-time-programmable memory
Various one-time-programmable (OTP) memory cells are disclosed. An OTP memory cell includes an additional dopant region that extends at least partially under the gate of a transistor, such as an anti-fuse transistor. The additional dopant region provides an additional current path for a read current. Alternatively, an OTP memory cell includes three transistors; an anti-fuse transistor and two select transistors. The two select transistors can be configured as a cascaded select transistor or as two separate select transistors. |
| US12027217B2 |
Semiconductor device and operation method having power-on operation
A semiconductor device and an operation method capable of operating with high reliability are provided. A voltage monitoring circuit (100) of the disclosure includes: a power-on detection part (110) configurated to detect whether a supply voltage (EXVDD) of an external power supply terminal has reached a power-on voltage level; a timer (120) configurated to measure a predetermined time when the power-on voltage level is detected; a through current generation part (130) configurated to generate a through current between the external power supply terminal and GND during a period when the timer (120) measures the predetermined time; and a power-off detection part (140) configurated to detect whether a drop of the supply voltage (EXVDD) has reached a power-off voltage level when the through current is generated. |
| US12027213B2 |
Determining offsets for memory read operations
Methods, systems, and devices for determining offsets for memory read operations are described. In response to a threshold quantity of pages failing initial reads but being successfully read using a same reference adjustment during re-reads, the offset responsible for the adjustment may be used as a first-applied offset for subsequent re-reads or a baseline offset for subsequent initial reads. After the initial reads begin using the reference adjustment, if a threshold quantity of pages fail initial reads, the offset used for the initial read may be adjusted to be the offset used to perform the successful re-reads. If an updated offset to use a baseline is not identified, the baseline offset may be cleared so the original reference may again be used without adjustment for initial reads. |
| US12027211B2 |
Partial block handling protocol in a non-volatile memory device
A processing device in a memory sub-system initiates a partial block handling protocol for a closed block of a memory device. The block includes a plurality of wordlines. The processing device further sends a first programming command to the memory device to program one or more wordlines of the block with first padding data. The one or more wordlines are adjacent to a last wordline of the block programmed before the block was closed. In addition, the processing device sends a second programming command to the memory device to concurrently program a remaining set of the plurality of wordlines of the block to a threshold voltage. |
| US12027209B2 |
Memory device and method of operating the same
A memory device comprises a plurality of memory cells each having a threshold voltage corresponding to any one of a plurality of program states according to target data to be stored by performing a program operation, page buffers configured to store data provided from a memory controller, a data conversion controller configured to control the page buffers to convert the data into the target data including a plurality of logical page bits and a program operation controller configured to perform the program operation to store the target data in the plurality of memory cells, wherein the plurality of logical page bits include at least one logical page bit distinguishing even program states from odd program states among the plurality of program states and remaining logical page bits other than the at least one logical page bit having a same value as at least one program state among adjacent program states. |
| US12027205B2 |
Resistive memory with low voltage operation
A memory device includes RRAM memory cells configured to form a zero-transistor and one-resistor (0T1R) array structure in which access transistors of the RRAM memory cells are bypassed or removed. Alternatively, the access transistors of the RRAM memory cells may be arranged in a parallel structure to reduce associated IR drop and thus enable reduced write voltage operation. |
| US12027204B2 |
Memory including metal rails with balanced loading
Disclosed herein are related to a memory array. In one aspect, the memory array includes a set of resistive storage circuits including a first subset of resistive storage circuits connected between a first local line and a second local line in parallel. The first local line and the second local line may extend along a first direction. In one aspect, for each resistive storage circuit of the first subset of resistive storage circuits, current injected at a first common entry point of the first local line exits through a first common exit point of the second local line, such that each resistive storage circuit of the first subset of resistive storage circuits may have same or substantial equal resistive loading. |
| US12027199B2 |
Memory device and method of controlling row hammer
A method of controlling a row hammer swaps a first address entry with a second address entry having the smallest second access number and randomly swaps the first address entry with a third address entry having a third access number which is not the greatest value, in an address table representing a correlation between an address entry accessed during a row hammer monitoring time frame and an access number, thereby preventing a hacker-pattern row hammer aggression from being easily performed. |
| US12027198B2 |
Mitigating duty cycle distortion degradation due to device aging on high-bandwidth memory interface
Embodiments include a memory device with an improved circuit to mitigate degradation of memory devices due to aging. Memory device input/output pins include delay elements for adjusting the delay in each memory input/output signal path to synchronize the input/output signal paths with one another. Certain data patterns, including a long series of logic zero values or a long series of logic one values, can cause asymmetric degradation of transistors included in the delay elements. This asymmetric degradation can reduce the operating frequency of the memory device, leading to lower performance. The disclosed embodiments change the polarity of signals passing through the delay elements to mitigate the effects of asymmetric degradation resulting from these data patterns. As a result, the performance of memory devices is improved relative to prior approaches. |
| US12027197B2 |
Signal skew in source-synchronous system
A memory controller integrated circuit includes a clock signal generator circuit configured to generate a plurality of strobe signals. The memory controller integrated circuit further includes a memory interface circuit coupled to the clock signal generator circuit, the memory interface circuit configured to transmit the plurality of strobe signals to a memory module, wherein each of the plurality of strobe signals is offset with respect to an adjacent strobe signal, and transmit a plurality of data signals to the memory module, wherein a first subset of the plurality of data signals comprises a first nibble and is phase aligned with a first strobe signal of the plurality of strobe signals, and wherein a second subset of the plurality of data signals comprises a second nibble and is phase aligned with a second strobe signal of the plurality of strobe signals. |
| US12027194B2 |
Semiconductor memory device and memory system having the same
A semiconductor memory device and a memory system are provided. The semiconductor memory device includes a memory cell array, a normal refresh row address generator, a hammer refresh row address generator, a refresh selection signal generator, and a selector. The normal and hammer refresh row address generators generates a normal refresh row address and a hammer refresh row address, respectively, in response to a refresh counting control signal. The refresh selection signal generator sequentially generates normal and hammer refresh selection signals in response to the refresh counting control signal. The selector selects the normal refresh row address or the hammer refresh row address in response to the normal and hammer refresh selection signals. A normal refresh operation and a hammer refresh operation are sequentially performed on a memory cell array block among plural memory cell array blocks in response to the refresh row address. |
| US12027188B2 |
Disk device
According to one embodiment, in a disk device, a controller adjusts a correction value of a radial position of servo track according to a ratio between amplitude of a correction value spectrum of a radial position of the servo track at a first circumferential position and at a second circumferential position when positioning control of the head to a target data track is performed on a basis of servo information read from the servo track. At the first circumferential position, a relative speed of a change in the radial position of the servo track with respect to a radial position of the target data track becomes a first speed. At the second circumferential position, a relative speed of a change in the radial position of the servo track with respect to the radial position of the target data track becomes a second speed. |
| US12027187B2 |
Magnetic disk device
According to one embodiment, a magnetic disk device comprises a magnetic head including a main pole, an auxiliary magnetic pole, side shields disposed on both sides of the main pole in a track width direction with a side gap therebetween, a high frequency oscillation element disposed in the write gap between the main pole and the auxiliary magnetic pole, and a magnetic flux control element disposed in the side gap between the main pole and the side shield to control oscillation frequency of the high frequency oscillation element, an oscillation element controller configured to control bias current supplied to the high frequency oscillation element, and a magnetic flux control element controller configured to control bias current supplied to the magnetic flux control element. |
| US12027186B2 |
Noncontact communication device, magnetic tape drive, noncontact communication system, method for operating noncontact communication device, and program
A noncontact communication device includes a processor, and a transmission and reception device that applies a magnetic field to a noncontact storage medium mounted in a magnetic tape cartridge to induce power in the noncontact storage medium and is coupled to the noncontact storage medium by electromagnetic induction to perform transmission and reception of information with the noncontact storage medium. The noncontact storage medium has a measurement circuit that measures the power, and transmits power information regarding the power measured by the measurement circuit to the noncontact communication device. The transmission and reception device receives the power information, and the processor is configured to execute support processing of supporting the transmission and reception based on the power information received by the transmission and reception device. |
| US12027185B2 |
Detection device, inspection device, magnetic tape cartridge, magnetic tape, magnetic tape drive, magnetic tape system, detection method, inspection method, and program
A detection device includes a processing device and a storage medium. The processing device stores a result of reading a servo pattern by a servo reading element from a magnetic tape in which the servo pattern is recorded in a servo band, in the storage medium as an ideal waveform signal indicating an ideal waveform, acquires a servo band signal which is a result of reading the servo band by the servo reading element, and detects a servo pattern signal indicating the servo pattern by comparing the ideal waveform signal stored in the storage medium with the servo band signal. |
| US12027182B2 |
Automatic implementation of a physical barrier to protect removable storage media access
The technology disclosed herein enables automatic implementation of a physical barrier to protect access to data on removable storage media. In a particular embodiment, a method provides determining that the item moved into a storage position using an automatic transfer mechanism and determining that a condition for protecting the item is satisfied. Upon determining that the condition is satisfied, the method provides implementing a physical barrier that prevents the automatic transfer mechanism from removing the item from the storage position. |
| US12027181B2 |
Tape assemblies having flangeless reel configurations and single flange reel configurations for magnetic recording devices
The present disclosure generally relate to tape assembly implementations for magnetic recording devices, such as tape embedded drives (TEDs). In one or more embodiments, a first reel and a second reel are mounted at stationary positions. One or more of the first reel and/or the second reel includes a hub mounted to a spindle, and a single flange extending relative to the hub. In one or more embodiments, one or more of a first reel and/or a second reel each includes a flangeless hub mounted to a spindle. |
| US12027180B1 |
Magnetic disk device and control method
A magnetic disk device according to one embodiment includes a magnetic disk on which multiple tracks are provided, a magnetic head, and a controller. At least one of the multiple tracks includes first sectors and a second sector. Each of the first sectors stores data segments. The second sector stores a parity for error correction. The magnetic head executes writing/reading to/from the magnetic disk. The controller executes processing of adjusting a guaranteed number of times by using a second sector being invalid. The guaranteed number of times indicates a number of times of writing for guaranteeing reading from an adjacent track. |
| US12027178B2 |
Systems and methods for increasing data rate and storage density in 3-dimensional optical data storage media
Systems and methods, e.g., optical apparatuses, for digital optical information storage systems that improve the speed, signal to noise, controllability, and data storage density for fluorescent and reflective multilayer optical data storage media. The systems and methods include an optical system for a reading beam of a data channel from a moving single or multi-layer or otherwise 3-dimensional optical information storage medium that comprises at least one optical element characterized by restricting the field of view (FOV) of the reading beam on an associated image plane to 0.3 to 2 Airy disk diameters in a first direction. |
| US12027176B2 |
Apparatus and method for reducing noise corresponding to a noise source using noise data
An apparatus includes a CPU and a memory storing a program that causes the apparatus to function as the following units. A first amplification unit that amplifies a the sound signal from a first microphone for acquiring an environment sound, a second amplification unit that amplifies a sound signal from a second microphone for acquiring a noise of a noise source in accordance with a amplification amount, a conversion unit that performs Fourier transform on sound signals from the first amplification unit and the second amplification unit, a reduction unit that reduces noise from first sound data using noise data. The amplification amount is set based on at least one of a level of the sound signal from the second amplification unit and a type of the noise source. |
| US12027172B2 |
Electronic device and method of operating voice recognition function
Provided is an electronic device that includes a first processor for receiving an audio signal, performing first voice recognition on the audio signal, and transferring a driving signal to a second processor based on a result of the first voice recognition. The second processor performs second voice recognition based on a voice signal by the first voice recognition or the audio signal, in response to the driving signal. |
| US12027167B2 |
Method, device, and program for customizing and activating a personal virtual assistant system for motor vehicles
A method for customizing and activating a personal virtual assistant (PVA) in a motor vehicle. The method includes: activating a PVA management system, determining a customized mode of use of the personal virtual assistant, and activating the customized mode of use of the personal virtual assistant. A device for carrying out the method is also included. |
| US12027163B2 |
Electronic device and operation method thereof
According to an embodiment an electronic device includes at least one sensor, a display, a memory, and a processor operatively connected to the at least one sensor, the display, and the memory. The memory is configured to store instructions that, when executed, the processor is configured to recognize a context of a user by using the at least one sensor based on at least one of a speed of the electronic device, a location of the electronic device, a level of external noise, an external illuminance, personal information of the user, or a connection state between the electronic device and an external electronic device. The processor is also configured to control an execution environment of a voice assistant application based on the recognized context. |
| US12027156B2 |
Noise robust representations for keyword spotting systems
Described are techniques for noise-robust and speaker-independent keyword spotting (KWS) in an input audio signal that contains keywords used to activate voice-based human-computer interactions. A KWS system may combine the latent representation generated by a denoising autoencoder (DAE) with audio features extracted from the audio signal using a machine learning approach. The DAE may be a discriminative DAE trained with a quadruplet loss metric learning approach to create a highly-separable latent representation of the audio signal in the audio input feature space. In one aspect, spectral characteristics of the audio signal such as Log-Mel features are combined with the latent representation generated by a quadruplet loss variational DAE (QVDQE) as input to a DNN KWS classifier. The KWS system improves keyword classification accuracy versus using extracted spectral features alone, non-discriminative DAE latent representations alone, or the extracted spectral features combined with the non-discriminative DAE latent representations in a KWS classifier. |
| US12027154B2 |
Emitting word timings with end-to-end models
A method includes receiving a training example that includes audio data representing a spoken utterance and a ground truth transcription. For each word in the spoken utterance, the method also includes inserting a placeholder symbol before the respective word identifying a respective ground truth alignment for a beginning and an end of the respective word, determining a beginning word piece and an ending word piece, and generating a first constrained alignment for the beginning word piece and a second constrained alignment for the ending word piece. The first constrained alignment is aligned with the ground truth alignment for the beginning of the respective word and the second constrained alignment is aligned with the ground truth alignment for the ending of the respective word. The method also includes constraining an attention head of a second pass decoder by applying the first and second constrained alignments. |
| US12027150B2 |
Beaming sound waves using phononic crystals
A method for beaming sound waves includes introducing sound waves into a phononic crystal in a first direction. The phononic crystal has an array of C-shaped structures oriented so that a neck of each of the C-shaped structures is facing the same general direction. The sound waves are beamed in the direction in which the neck of each of the C-shaped structures is facing so that the sound waves are beamed from the phononic crystal in a second direction that is different from the first direction. |
| US12027141B2 |
Activity-focused display synchronization
This disclosure provides methods, devices, and systems for data synchronization. The present implementations more specifically relate to adjusting a rate at which display updates are output to a digital display based on an activity level associated with the digital display. For example, digital displays that render images with relatively little motion or user engagement may be associated with lower activity levels, whereas digital displays that render images with more significant motion or user engagement may be associated with higher activity levels. In some aspects, an adaptive display interface may dynamically increase the rate at which display frames are output to a display when the activity level increases and may dynamically decrease the rate at which display frames are output to the display when the activity level decreases. |
| US12027134B2 |
Display panel, display device and debugging method thereof
A display panel (20), a display device and a debugging method thereof are provided. The display panel (20) includes: a base substrate (1), including a display region (A) and a non-display region (B) surrounding the display region (A), the non-display region (B) including a binding region (C) located on one side of the display region (A); and a plurality of sub-pixels (2), located in the display region (A). Areas of pixel aperture regions of the plurality of sub-pixels (2) tend to increase in a direction from the binding region (C) to the display region (A). |
| US12027131B2 |
Compensation method for display and display
The present application relates to a compensation method for a display and a display, wherein the method includes: acquiring a display image of the display; determining to-be-compensated regions corresponding to the display image, wherein the to-be-compensated regions include at least one first to-be-compensated region and at least one second to-be-compensated region; the display image is compensated based on the to-be-compensated regions, and a compensation mode of the at least one to-be-compensated region is different from a compensation mode of the at least one second to-be-compensated region. |
| US12027125B2 |
Display device
A display device according to one aspect of the present disclosure includes: a substrate including a display area and a non-display area enclosing the display area; a plurality of pixels disposed in the display area; and a gate driving unit disposed in the non-display area on both sides of the display area and including a plurality of stages. The plurality of stages includes a plurality of normal output stages and a plurality of dummy stages which does not output a signal. The plurality of dummy stages may be connected to a gate low voltage line. |
| US12027121B2 |
Display panel and display device including the same
A display panel includes a plurality of first pixel parts disposed in a first row, a plurality of second pixel parts disposed in a second row and including a first pixel part that includes a first pixel circuit and a first light emitting element which are electrically separated from each other, and a second pixel part that includes a second pixel circuit and a second light emitting element which are electrically separated from each other. The first light emitting element of the first pixel part is electrically connected to the second pixel circuit of the second pixel part. |
| US12027117B2 |
Pixel screening and repair
Systems and methods may reduce or eliminate image artifacts due to a defective pixel of an electronic display. An electronic display may include pixels that respectively include a self-emissive element, pixel drive circuitry that supplies a pixel drive current to drive the self-emissive element, and signal routing circuitry that reduces or eliminates a visual artifact due to a defective pixel among the pixels. The signal routing circuitry may do this by turning off the self-emissive element, supplying image data from the pixel drive circuitry to a first adjacent pixel, or receiving image data from other pixel drive circuitry from the first adjacent pixel or a second adjacent pixel. |
| US12027116B2 |
Display device and electronic apparatus
A display device including: a plurality of sub-pixels arranged in a matrix, each including an electro-optical element having a structure in which a display functional layer is sandwiched between an upper electrode and a lower electrode; and an auxiliary interconnect contact in a pixel area in which the plurality of sub-pixels are arranged in a matrix and electrically connecting the upper electrode to an auxiliary interconnect, wherein m (m is an integer equal to or larger than two) sub-pixels adjacent to each other along an arrangement direction of the sub-pixels are regarded as one group, and n (n is a natural number smaller than m) auxiliary interconnect contacts are formed for each group. |
| US12027114B2 |
Pixel driving circuit, method for driving the same and display device
The present disclosure provides a pixel driving circuit, a driving method thereof, and a display device. In the pixel driving circuit, a first terminal of a first storage sub-circuit is connected to a control terminal; a power control sub-circuit is connected to a light-emitting control signal line, a first power line and a first terminal of the driving sub-circuit; a compensation sub-circuit is connected to a first gate line, a control terminal and a first terminal of the driving sub-circuit; a data writing-in sub-circuit is connected to a second terminal of the first storage sub-circuit; a first reset sub-circuit is connected to a reset signal line, a first power line and the control terminal of the driving sub-circuit; a first control sub-circuit is connected to the first gate line, an initialization signal line and the second terminal of the driving sub-circuit. |
| US12027112B2 |
Always on display method and mobile device
A method includes running, in an always-on display state of the mobile device, a first algorithm program to display a first clock interface in a first display area of a display of the mobile device, receiving a switching instruction when the mobile device is switched from a first clock style to a second clock style, wherein the second clock interface is different from the first clock interface, performing switching from the first algorithm program to a second algorithm program in response to the switching instruction, and running, in the always-on display state, the second algorithm program to display the second clock interface in a second display area of the display, wherein a size of the second display area is different from a size of the first display area, and wherein the second algorithm program is different from the first algorithm program. |
| US12027109B2 |
Display device and tiled display device including the same
A display device includes: a display panel including a plurality of display areas, the display areas including scan lines, data lines, and pixels connected to the scan lines and the data lines; a first source driving circuit connected to the data lines of a first display area from among the display areas; a second source driving circuit connected to the data lines of a second display area from among the display areas; a first scan driving circuit configured to receive a first clock signal from the first source driving circuit and to output first scan signals to a first group of scan lines from among the scan lines based on the first clock signal; and a second scan driving circuit configured to receive a second clock signal from the second source driving circuit and to output second scan signals to a second group of scan lines. |
| US12027107B2 |
Display apparatus
A display apparatus includes a display panel including a plurality of pixels each having red, green, and blue LEDs; a display panel driver applying a current to each of the LEDs; a memory storing current intensity information according to target luminance of each of the LEDs; and a processor controlling the display panel driver to apply a current to each of the LEDs based on the current intensity information, wherein the processor is configured to control the display panel driver to apply an additional current to the green LED when a target luminance of the red LED is smaller than a predetermined luminance. |
| US12027104B2 |
Display panel and display apparatus including the same
A display panel includes: a light emitting element, a driving switching element, a bias switching element and a bias control switching element. The driving switching element is configured to apply a driving current to the light emitting element. The bias switching element is connected to a first electrode of the driving switching element and configured to apply a bias voltage to the first electrode of the driving switching element. The bias control switching element is connected to a first electrode of the bias switching element and configured to apply the bias voltage to the first electrode of the bias switching element. |
| US12027102B2 |
Display device and display driving method
A display device includes a display panel comprising subpixels, data lines, and driving transistors, a data driving circuit configured to convert image data into data voltages and apply the data voltages to the data lines, and a timing the controller configured to control the data driving circuit and switch between a first compensation mode and a second compensation mode responsive to a driving frequency variation of the display device during exceeding a reference value, wherein, in the first compensation mode, the data voltages of the driving transistors in an entire area of the display panel are compensated through a real-time sensing process of characteristic values of the driving transistors during a blank period, and in the second compensation mode, the data voltages of the driving transistors in at least a partial area of the display panel are compensated according to a temperature value of the display panel. |
| US12027100B2 |
Setting adjustments based on radar
In example implementations, an apparatus is provided. The apparatus includes an output device, a radar, a memory, and a processor in communication with the output device, the radar, and the memory. The radar is to collect position data of a user relative to the apparatus. The memory is to store a threshold. The processor is to determine if the position data of the user exceeds the threshold and to adjust a setting of the output device in response to the position data of the user determined to exceed the threshold. |
| US12027092B2 |
Adjusting method of display panel and adjusting device
An adjusting method of a display panel and an adjusting device are provided. The adjusting method of the display panel includes following steps: obtaining a minimum refresh rate and a maximum refresh rate of the display panel; calculating a standard parameter value of the display panel according to the minimum refresh rate and the maximum refresh rate; judging if the standard parameter value satisfies a preset condition; and increasing a pixel charging time under the minimum refresh rate and/or reducing the pixel charging time under the maximum refresh rate when the standard parameter value does not satisfy the preset condition. |
| US12027084B2 |
Display panel and display device
The present application provides a display panel including a first conductive layer, a second conductive layer, and a third conductive layer. The present application reduces an overlap area between test signal lines and data lines to further reduce a capacitance therebetween to prevent an issue of color mixture of a screen image during a lighting test. |
| US12027081B2 |
Medical device with a display and with a processing unit and method therefor
The disclosure relates to a medical device with a display and with a processing unit and method therefor. The processing unit is suitable for detecting states of one or more technical units of the medical device. The processing unit is further set up to control the display on the basis of detected states in order to output states of the medical device. The display is an autostereographic display. The processing unit, based on an evaluation of detected states, drives the display in such a way that a first state is visually highlighted with respect to a 3D representation, while a second state is visually not highlighted with respect to a 3D representation. |
| US12027080B1 |
Display device, display panel, and subpixel circuit
A display device can include a display panel including a light emitting element, a driving transistor for providing a driving current, and a plurality of switching transistors for controlling an operation of the driving transistor; a gate driving circuit configured to supply signals to the display panel; a data driving circuit configured to supply a plurality of data voltages to the display panel; and a timing controller. Also, the plurality of switching transistors can include a first switching transistor having a dual gate structure and configured to connect a gate node of the driving transistor with a drain node of the driving transistor in response to a first scan signal, and a stabilization transistor configured to connect the gate node of the driving transistor with a common node of the first switching transistor in response to a stabilization scan signal. |
| US12027079B2 |
System and method for installing display device
Provided is a method for installing a display device including an operation of assembling a step adjusting module for controlling a displacement adjuster of a first cabinet onto a rear surface of the first cabinet, an operation of fastening the first cabinet to a mount on an installation surface, an operation of fastening a first display module to a front surface of the first cabinet, an operation of coupling, to the first display module and a second display module, sensor module including a first displacement sensor positioned on the front surface of the first display module and a second displacement sensor positioned on a front surface of the second display module adjacent to the first display module, a sensing operation of measuring a value of the first displacement sensor and a value of the second displacement sensor, and an adjusting operation of adjusting a gap between the first cabinet and the first display module by controlling the step adjusting module such that the value of the first displacement sensor is equal to the value of the second displacement sensor when the value of the first displacement sensor and the value of the second displacement sensor are different from each other. |
| US12027073B2 |
Polymorphic encryption for security of a data vault
Polymorphic encryption is described in a way to restrict access and enhance security of a data vault. In an example, the data vault has a primary partition with a first subset of records having an encrypted value for each of at least a portion of the fields encrypted according to a first encryption scheme. A secondary partition has a second subset of the records encrypted according to a second encryption scheme that is different from the first encryption scheme. The first encryption scheme is configured to permit a first set of operations on the values when the values are encrypted and the second encryption scheme is configured to permit a second set of operations on the values when the values are encrypted. |
| US12027069B2 |
Method and system for automated multidimensional content selection and presentation
Systems and methods for automated content generation and delivery are provided herein. The system can include a memory that can include a content item library. The content library can include a hierarchical data structure having levels and a plurality of data packets, each of which data packets is linked with at least a portion of the hierarchical data structure. The system can include at least one server that can identify and deliver an item within a first content domain to a user device, evaluate a response to the delivered item, generate a scalar estimated skill level with a unidimensional evaluation engine, select and present a next item based on the estimated skill level, and upon completion of an assessment, generate a vector estimated skill level with a multidimensional evaluation engine. |
| US12027060B2 |
Data generation device, method of generating data, and remote manipulation system
A data generation device generates at least a part of data used for a generation of an image displayed on a display unit. The display unit displays a workspace model modeled after an actual workspace, as a video. The workspace model includes a robot model modeled after an actual robot, and a peripheral object model modeled after a given peripheral object around the actual robot. The robot model is created so as to operate according to operation of an operator to a manipulator. The data generation device includes a state information acquiring module configured to acquire state information indicative of a state of the peripheral object, and an estimating module configured to estimate, based on the state information, a state of the peripheral object after a given period of time from the current time point, and generate a result of the estimation as peripheral-object model data used for a creation of the peripheral object model displayed on the display unit. |
| US12027058B2 |
Vehicle, and unmanned aerial system and method including the same
A vehicle includes: a vehicle sensor configured to sense surroundings; a communication device configured to communicate with a telematics service server; and a controller configured to carry an unmanned aerial apparatus which is a collaboration object transmitted from the telematics service server. In particular, the controller controls the vehicle to move in collaboration with the unmanned aerial apparatus. |
| US12027056B2 |
Systems and methods using image processing to determine at least one kinematic state of a vehicle
System and methods are described that illustrate how to more accurately determine at least one state variable of a vehicle using imaging of a travel way line. Imaging can be used to determine an angle between a longitudinal axis of the travel way line and a longitudinal axis of the vehicle, a shortest distance between the center axis and a reference point on or in the vehicle, and corresponding errors. The determined angle, the determined distance, and the corresponding errors can be used to more accurately determine the at least one state variable. |
| US12027054B2 |
Communication system and method of controlling air traffic of an airspace
A communication system for air traffic control is described. The communication system includes a cloud based server structure, at least one controller working position as well as at least one radio ground station for transmitting radio signals to an aircraft and/or receiving radio signals from an aircraft. The at least one radio ground station and the at least one controller working position are connected to the cloud based server structure by means of an internet protocol infrastructure. The cloud based server structure is configured to process signals for air-ground communication and/or ground-ground communication. Furthermore, a method of controlling air traffic of an airspace is described. |
| US12027049B2 |
Automated valet parking system, and method for providing automated valet parking service
A management device of an automated valet parking system predicts a usage schedule of an automated valet parking service used by a user from usage history information about a usage history of the automated valet parking service used by the user. Then, the management device determines a parking position of a vehicle of the user among multiple parking lots with reference to the predicted usage schedule. |
| US12027048B2 |
Light emitting diodes and diode arrays for smart ring visual output
A system for displaying information indicative of driving conditions, to a driver, using a smart ring are disclosed. An exemplary system includes a smart ring with a ring band having a plurality of surfaces including an inner surface, an outer surface, a first side surface, and a second side surface. The system further includes a processor, configured to obtain data from a communication module within the ring band, or from one or more sensors disposed within the ring band. The obtained data are representative of information indicative of one or more driving conditions to be displayed to the driver. The smart ring also includes a light emitting diode (LED) display disposed on at least one of the plurality of surfaces, and configured to present information indicative of the one or more driving conditions. |
| US12027047B2 |
System and method for smartphone communication during vehicle mode
A device is provided for use with a vehicle and with a communication device. The communication device can transmit a first vehicle mode signal and a subsequent signal. The device includes a processing component, an indicator component, a transmitting component and a receiving component. The processing component can operate in a vehicle mode and can operate in a second mode. The indicator component can provide a vehicle mode indication signal when the processing component is operating in the vehicle mode. The transmitting component can transmit a second vehicle mode signal based on the vehicle mode indication signal. The receiving component can receive the first vehicle mode signal and can receive the subsequent signal. The processing component can further perform a function while in the vehicle mode and based on the first vehicle mode signal and the subsequent signal. |
| US12027045B2 |
Navigation method, device and system for cross intersection
Embodiments of the present disclosure provide a navigation method, device and system for a cross intersection. The method includes: receiving a message transmitted from a vehicle controller, where the message indicates a request of a vehicle for passing an intersection; and determining whether to allow the vehicle to pass the intersection based on an occupancy condition of the intersection and transmitting an action instruction to the vehicle controller to cause the vehicle controller to control movement of the vehicle. |
| US12027044B2 |
Assigning outlier-related classifications to traffic flows across multiple time windows
Systems and methods are provided for combining a multiple sub-time window sampling architecture with machine learning to detect outlier traffic flow behavior which may indicate malicious/problematic network activity. For example, a network device may obtain a sample of traffic flow data during a defined time window. The sample of traffic flow data may comprise information associated with a sampled subset of traffic flows transferred by a network device in the defined time window. The network device may partition the defined time window into two or more sub-time windows. In each sub-time window, using machine learning, the network device may assign an outlier-related classification to each sampled traffic flow based on the relative behavioral characteristics of all the sampled traffic flows. The network device may aggregate the outlier-related classifications for each sampled traffic flow across multiple sub-time windows, and process traffic flows based on the aggregated outlier-related classifications. |
| US12027039B2 |
Mobility information provision system, server, and vehicle
A mobility information provision system includes a collector, a mapping unit, an overall generator, and a specific generator. The collector collects information about movement of a plurality of mobile bodies. The mapping unit maps positions of the plurality of mobile bodies on the basis of the information collected by the collector. The overall generator repeatedly performs a first generation process of generating course-related information by using information including the mapped positions. The specific generator performs, in a case where a specific area for one or more mobile bodies, out of the plurality of mobile bodies, has been set, a second generation process of generating the course-related information for the one or more mobile bodies present in the specific area, by using the information including the mapped positions. The specific generator executes the second generation process in precedence over the first generation process executed by the overall generator. |
| US12027032B1 |
Systems and methods for detecting physical presence while providing privacy
A sensitive area activity monitoring system is provided. A non-intrusive sensor that does not provide image, video, or audio data is used to capture data in a sensitive area that is associated with an activity. The sensor data is logged and provided to a downstream service tasked with personalizing the service based upon the logged data. |
| US12027030B2 |
Methods and systems for gas leakage safety warning based on internet of things (IoT) of smart gas
The present disclosure provides a method and system for gas leakage safety warning based on Internet of Things (IoT) of smart gas. The method is implemented by a smart gas safety management platform of an IoT system for gas leakage safety warning. The method comprises obtaining gas data. The gas data at least includes gas operation data and gas concentration data. The method also includes determining a gas determination scenario through a preset determination algorithm based on the gas data, and determining a dynamic threshold set based on the gas data and the gas determination scenario. The dynamic threshold set includes a dynamic threshold of a gas concentration change of at least one time point. The method further includes determining gas leakage warning information of the at least one time point based on the gas data, the gas determination scenario, and the dynamic threshold set. |
| US12027028B2 |
Controlling frame rate of active reflected wave detector
A method comprising: controlling an active reflected wave detector to measure wave reflections from an environment using a first frame rate to accrue measured wave reflection data for a classifier, after a first amount of time, determining whether a predefined criteria is satisfied, wherein satisfaction of the predefined criteria is indicative of the classifier being likely to successfully identify a fall status of a person in the environment by a second amount of time of accruing measured wave reflection data from the active reflected wave detector, the second amount of time being greater than the first amount of time; in the event that the predefined criteria is not met, the method comprising controlling the active reflected wave detector to accrue measured wave reflection data at a lower second frame rate for classifying the fall status based on measured wave reflection data accrued at the lower second rate. |
| US12027018B2 |
Gaming system and method with symbol catalyst feature
There is provided a gaming system, gaming machine, and method that utilize a presentation assembly configured to present a plurality of reels, an array, and an indicator. The plurality of reels bear a plurality of symbols. Game-logic circuitry is configured to spin and stop the plurality of reels to land symbols from the plurality of symbols in the array. In response to the landed symbols including one or more catalyst symbols and one or more value-bearing symbols, a multiplier is determined based on a number and locations of the catalyst symbols in the array. The multiplier is displayed in the indicator. An award is provided based on the multiplier applied to values borne by the value-bearing symbols. |
| US12027016B2 |
Systems and methods for a free spin count-up and subsequent count-down
An electronic gaming device includes a display device and a processor configured to execute instructions stored in a memory device. When executed, the instructions cause the processor to at least initiate a primary bonus game in response to a free play trigger condition being satisfied during a base game and determine a number of free spins of a plurality of reels for use during the primary bonus game. The instructions further cause the processor to control the display device to simulate spinning and stopping the plurality of reels in conjunction with sequentially counting up from an initial numerical indicium to a final numerical indicium in association with spinning the plurality of reels according to the determined number of free spins and initiate a secondary bonus game that includes a free spin count-down from the final numerical indicium to the initial numerical indicium. |
| US12027013B2 |
Fraud detection system in a casino
A fraud detection system which detects fraud in a game of performing collection and redemption of chips in accordance with a win or lose result includes a camera which captures an image of chips contained in a chip tray of a dealer, an image analyzing apparatus which analyses the image captured by the camera to detect an amount of the chips contained in the chip tray, a card distribution device which determines a win or lose result of a game, and a control device which compares the win or lose result of the game and the amount of the chips contained in the chip tray before and after collection and redemption of the chips to detect fraud. |
| US12027010B2 |
Electronic gaming machine with display having component passthrough
An electronic gaming machine having one or more displays, any of which may be formed to have a component passthrough to define a recess in an edge or interior of the display. Alternately, the display may be cut, punched, notched, ground, etched. or otherwise have material removed to create a component passthrough. A component passthrough is a recess in an otherwise linear edge of a display, or an aperture formed within an area of a display. Component passthroughs may by holes (of any shape or size), cutouts or notches (again, of any shape or size), angled corners, and the like. A component passthrough is discussed herein as being “within” a display; the term “within” encompasses component passthroughs formed on edges of a display or in an area of a display. |
| US12027006B1 |
LIDAR-assisted access control systems and methods
Systems and methods are presented that use a LIDAR sensor to detect and/or identify an object in proximity of an access control device, and especially a movable barrier. Most typically, the LIDAR sensor provides for a 2D scan area that is offset from and substantially parallel to the movable barrier while the movable barrier moves from the first position to the second position. |
| US12027001B2 |
Electronic access control
An embodiment of an electronic access control system includes an electronic key, an electronic lock, and an access control administration program. The electronic key can include program code for switching between a lock mode and a computer mode. In some embodiments, the lock mode and computer mode allow for simplified administration and operation of the access control system. Some embodiments of the electronic key include a rechargeable battery. In some embodiments, the access control system includes a hybrid power supply system having a rechargeable battery and a generator. In some embodiments, the electronic lock includes a piezoelectric latch. In some embodiments, the electronic key is configured to act as a storage device for a computer system. Some embodiments provide an electronic access control system with a streamlined user interface. |
| US12027000B2 |
Electronic access control and location tracking system
A system and method for determining the presence of an individual at a particular spot within a location preferably based on the strength of signals received from beacons assigned to the particular spot by a software application (“App”) running on an electronic device of the individual. In one embodiment, certain presence calculations are performed by the App. In another embodiment, the App forwards information regarding the received beacon signals to an electronic identification and location tracking system and the presence calculations are performed by the system. |
| US12026998B2 |
Electronic door lock
A door-lock system includes a door latch adapted to be coupled to one of a door or to a structure defining the passageway through which the door restricts passage. The door-lock system may further include a latch lock adapted to be coupled to the other of the door or to the structure defining the passageway to selectively mate with the door latch to block the door from opening. |
| US12026995B2 |
Method for fault detection and vehicle display fault detection system
A method for fault detection is adapted for a vehicle display fault detection system. The vehicle display fault detection system includes a vehicle system and a display system. The method for fault detection includes following steps: detecting whether a first state of the display system is abnormal or not; when the first state is abnormal, the display system is configured to generate a fault detection signal; classifying to generate a control signal according to the fault detection signal; and adjusting the first state of the display system to a second state. |
| US12026993B2 |
Trailer diagnostic and monitoring system
A trailer diagnostic and monitoring system includes a system controller having a controller body, and a power unit for engage a wiring harness of the trailer. A location identification unit and wireless communication device are positioned within the controller body, and a plurality of hub sensor assemblies are positioned along the axle hubs of the trailer. Each of the assemblies including functionality for monitoring and reporting the temperature of a respective axle hub, and the pressure of the trailer tire secured to the respective axle hub. A process specific serial forwarder device communicatively links each of the hub sensor assemblies to the system controller. A trailer diagnostic and monitoring application for execution on a remote computing device includes functionality for communicating with the wireless communication device to receive trailer location information, tire pressure readings and axle hub temperatures. |
| US12026988B2 |
State estimation device, state estimation method and state estimation program
In estimation of a future state of a first product (an estimation-target individual), a first estimated extrapolation value is calculated from data on a past side of data relevant to the first product, and a second estimated extrapolation value is calculated from data relevant to a second product (a same-type different-individual of the estimation-target individual) that is different from the first product. A synthesis ratio between the first estimated extrapolation value and the second estimated extrapolation value is decided from data on a present side of the data relevant to the first product, and an estimation value is calculated by performing synthesis between the first estimated extrapolation value and the second estimated extrapolation value based on the decided synthesis ratio. |
| US12026985B2 |
Method and apparatus for processing diagnosis data, diagnosis device and server
Embodiments of the present invention relate to a method and an apparatus for processing diagnosis data, a diagnosis device and a server. The method includes: dividing diagnosis data into at least two types of data; respectively encapsulating the at least two types of data into at least two pieces of interface data according to interface data formats; and sending the at least two pieces of interface data to a server respectively through different interfaces, to cause the server to respectively store the at least two pieces of interface data in different cloud databases. In the embodiments of the present invention, diagnosis data is divided into at least two types of data. The at least two types of data are respectively encapsulated into at least two pieces of interface data. The at least two pieces of interface data are sent to the server respectively through different interfaces. In this way, a problem of easily causing loss of a diagnosis history record due to a limited local storage capacity of an automobile diagnosis device can be avoided. |
| US12026984B2 |
Tire damage detection system and method
The invention concerns a tire damage detection system (1,1A) that includes an acquisition device (11), a processing system (12,12A) and a notification device (13,13A). The acquisition device (11) is installed on board a motor vehicle (2) equipped with two or more wheels fitted with tires, is coupled to a vehicle bus (20) of the motor vehicle (2), and is configured to acquire, from the vehicle bus (20), signals indicative of speeds of the motor vehicle (2) and of a wheel of said motor vehicle (2) and output quantities indicative of the speeds of the motor vehicle (2) and of the wheel thereof. The processing system (12,12A) is configured to store a predefined tire damage model and to receive, from the acquisition device (11), the quantities indicative of the speeds of the motor vehicle (2) and of the wheel of said motor vehicle (2), and is programmed to compute, based on the quantities indicative of the speeds of the motor vehicle (2) and of the wheel of said motor vehicle (2), a normalized wheel speed indicative of a ratio of the wheel speed to the motor vehicle speed, and detect a potential damage to a tire of the wheel of the motor vehicle (2) based on the predefined tire damage model and on the normalized wheel speed. The notification device (13,13A) is configured to, if a potential damage to the tire of the wheel of the motor vehicle (2) is detected by the processing system (12,12A), signal the detected potential damage to a user (3) associated with the motor vehicle (2). In particular, according to the present invention, the processing system (12) is a cloud computing system (12A) that is wirelessly and remotely connected to the acquisition device (11), while the notification device (13) is an electronic communication device (13A) associated with the user (3) and remotely connected to the cloud computing system (12A) via one or more wired and/or wireless networks. |
| US12026983B2 |
Information output method, information output device, and program
An information output method in an information output device acquires first information on an operation history of one or more devices operated by one or more users, acquires second information that identifies a user detected in the vicinity of one or more output devices, acquires third information on behavior of the user, identifies a device whose state is changed or whose state is changeable within a predetermined time among the one or more devices and an operator who performs operation relating to the change in the state based on the first information, determines an output mode and content of notification information on the identified device to the detected user based on information on the identified device and operator, the second information, and the third information, and outputs, in the determined output mode, notification information having the determined content to one or more output devices that detect the detected user. |
| US12026980B2 |
Pupil ellipse-based, real-time iris localization
The disclosure relates to systems, methods and programs for developing real-time user-specific eye model based on iris localization using solely pupil-ellipse analysis. |
| US12026966B2 |
Method for recognizing dialogue intention, electronic device and storage medium
A method for recognizing a dialogue intention, an electronic device and a storage medium are provided. The solution includes: obtaining a sample sentence with an intention category to be predicted and a plurality of supporting sentences each labeled with an intention category; and inputting the sample sentence and the plurality of supporting sentences into a trained intention recognition model, in which the trained intention recognition model is configured to generate a sample sentence vector corresponding to the sample sentence and category vectors corresponding to the plurality of supporting sentences based on the sample sentence and the plurality of supporting sentences, calculate matching degrees between the sample sentence vector and the category vectors, and obtain a predicted intention category of the sample sentence based on the matching degrees. |
| US12026964B2 |
Plant blooming period broadcast method and system, and computer-readable storage medium
The disclosure provides a plant blooming period broadcast method and system, and a computer-readable storage medium. The method comprises: receiving an image, and identifying a plant in the image to obtain the species of the plant; using a plant variety identification model corresponding to the species of the plant to identify the specific variety and blooming state of the plant; obtaining the photographing time and photographing position of the image, and determining the blooming period of the plant according to the photographing time and the blooming state; and marking the photographing position on a blooming period broadcast map as a viewing place of the plant, and correspondingly displaying the specific variety and blooming period of the plant. |
| US12026960B2 |
Dynamic driving metric output generation using computer vision methods
Aspects of the disclosure relate to dynamic driving metric output platforms that utilize improved computer vision methods to determine vehicle metrics from video footage. A computing platform may receive video footage from a vehicle camera. The computing platform may determine that a reference marker in the video footage has reached a beginning and an end of a road marker based on brightness transitions, and may insert time stamps into the video accordingly. Based on the time stamps, the computing platform may determine an amount of time during which the reference marker covered the road marking. Based on a known length of the road marking and the amount of time during which the reference marker covered the road marking, the computing platform may determine a vehicle speed. The computing platform may generate driving metric output information, based on the vehicle speed, which may be displayed by an accident analysis platform. Based on known dimensions of pavement markings the computing platform may obtain the parameters of the camera (e.g., focal length, camera height above ground plane and camera tilt angle) used to generate the video footage and use the camera parameters to determine the distance between the camera and any object in the video footage. |
| US12026959B2 |
Systems and methods for deterrence of intruders
Systems and methods are provided to deter an intruder from approaching and damaging a vehicle. With the use of a plurality of cameras, the system captures images of a surrounding environment of a vehicle. The system then detects a first motion-based event and, in response, stores images from at least one of the plurality of cameras. The system then detects a second motion-based event, and, in response, performs a first defensive action. Further, systems and methods are provided to capture images around the vehicle and automatically select an image associated with the insurance claim. |
| US12026956B1 |
Object bounding contours based on image data
Techniques are discussed herein for controlling autonomous vehicles within a driving environment, including generating and using bounding contours associated with objects detected in the environment. Image data may be captured and analyzed to identify and/or classify objects within the environment. Image-based and/or lidar-based techniques may be used to determine depth data associated with the objects, and a bounding contour may be determined based on the object boundaries and associated depth data. An autonomous vehicle may use the bounding contours of objects within the environment to classify the objects, predict the positions, poses, and trajectories of the objects, and determine trajectories and perform other vehicle control actions while safely navigating the environment. |
| US12026944B2 |
Generation of digital cultivation maps
The present invention relates to the technical field of precision farming. The present invention provides a method, a computer system and a computer program product with which a digital cultivation map for a field is created, said cultivation map comprising multiple zones, with at least one feature of at least one zone matched to at least one value of a machine working parameter that has been obtained from an image of the field. |
| US12026943B2 |
Method and device for detecting boundary of road in 3D point cloud using cascade classifier
An embodiment device for detecting a boundary of a road in a 3D point cloud using a cascade classifier includes a rule-based classifier configured to determine whether a received LiDAR cluster has a likelihood of becoming a candidate for the boundary of the road using a box parameter surrounding a point cloud constituting the LiDAR cluster and a point parameter, and a learning-based classifier configured to apply a machine-learning scheme to the LiDAR cluster selected as the candidate for the boundary of the road by the rule-based classifier to determine the LiDAR cluster to be the boundary of the road or an object other than the boundary of the road. |
| US12026925B2 |
Channel-wise autoregressive entropy models for image compression
Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for channel-wise autoregressive entropy models. In one aspect, a method includes processing data using a first encoder neural network to generate a latent representation of the data. The latent representation of data is processed by a quantizer and a second encoder neural network to generate a quantized latent representation of data and a latent representation of an entropy model. The latent representation of data is further processed into a plurality of slices of quantized latent representations of data wherein the slices are arranged in an ordinal sequence. A hyperprior processing network generates a hyperprior parameters and a compressed representation of the hyperprior parameters. For each slice, a corresponding compressed representation is generated using a corresponding slice processing network wherein a combination of the compressed representations form a compressed representation of the data. |
| US12026923B2 |
Object model encodings
Examples of methods are described herein. In some examples, a method includes determining a quantity of inner voxels in a canonical direction from each surface voxel of a set of surface voxels of a three-dimensional (3D) object model. In some examples, the method includes generating an encoded representation of the 3D object model, the encoded representation indicating a location of each surface voxel and the quantity of inner voxels for each surface voxel. |
| US12026920B2 |
Point cloud encoding and decoding method, encoder and decoder
Disclosed are a point cloud encoding and decoding method, an encoder and a decoder. The method comprises: acquiring geometric information and attribute information of an input point cloud; determining a maximum allowable value of a sampling period when the input point cloud is subjected to level-of-detail (LOD) division; determining a preset value of the sampling period on the basis of the maximum allowable value of the sampling period; processing the input point cloud according to the preset value of the sampling period and the geometric information, so as to obtain at least one refinement layer and at least one detail layer; and encoding the attribute information by using the at least one refinement layer and the at least one detail layer, so as to generate a code stream, and writing the preset value of the sampling period into the code stream. |
| US12026919B2 |
Content-based encoding of digital images
An example method may include identifying a first block of a first image, the first block comprising a plurality of pixel values, generating a frequency-based representation of the first block, where the frequency-based representation comprises a transformation matrix having a plurality of coefficients, where each coefficient specifies a weight of a respective frequency in the frequency-based representation of the first block, generating at least one frequency domain parameter of the first block in view of a sum of a plurality of the coefficients of the transformation matrix, generating a visual content classification value in view of the at least one frequency domain parameter of the first block, selecting, in view of a determination of whether the visual content classification value satisfies a visual content-specific threshold, an encoding, and generating, using the selected encoding, an encoded block in view of the first block. |
| US12026916B2 |
Method and apparatus for in-field stereo calibration
A stereo camera calibration method includes: controlling a stereo camera assembly to capture a sequence of stereo image pairs; simultaneously with each capture in the sequence, activating a rangefinder; responsive to each capture in the sequence, updating calibration data for point cloud generation by: detecting matching features in the stereo image pair, and updating a first portion of the calibration data based on the matched features; updating an alignment of the rangefinder relative to the stereo camera assembly, based on the updated first portion of the calibration data, and a detected position of a beam of the rangefinder in a first image of the stereo image pair; and updating a second portion of the calibration data based on the detected position of the beam of the rangefinder in the first image of the stereo image pair, the updated rangefinder alignment, and a depth measurement captured by the rangefinder. |
| US12026914B2 |
Cross spectral feature mapping for camera calibration
A method including capturing a first image of a real-world scene by a first camera sensitive to a first spectrum of light, the first camera having a first light source, capturing a second image of the real-world scene by a second camera sensitive to a second spectrum of light, the second camera having a second light source, identifying at least one feature in the first image, identifying, using a machine learning (ML) model, at least one feature in the second image that matches the at least one feature identified in the first image, mapping pixels in the first image and the second image to rays in a three-dimensional (3D) space based on the matched at least one feature, and calibrating the first camera and the second camera based on the mapping. |
| US12026909B2 |
Weakly supervised object localization apparatus and method
A weakly supervised object localization apparatus includes: a feature map generator configured to generate a feature map X by performing a first convolution operation on an input image; an erased feature map generator configured to generate an attention map A through the feature map X and generate an erased feature map −X by performing a masking operation on the input image through the attention map A; a final map generator configured to generate a final feature map F and a final erased feature map −F, respectively, by performing a second convolution operation on the feature map X and the erased feature map −X; and a contrastive guidance determiner configured to determine contrastive guidance for a foreground object in the input image based on the final feature map F and the final erased feature map −F. |
| US12026908B2 |
Imaging device, control method for imaging device, and non-transitory recording medium
An imaging device includes a lens that guides, to an imaging element, light reflected from a subject, a wearing tool for wearing at least the lens on a wearing target, and at least one processor. The processor determines whether a first condition based on a positional relationship of the lens with respect to the wearing target is satisfied, determines whether a second condition that includes a condition based on the positional relationship of the lens with respect to the wearing target is satisfied, the second condition differing from the first condition, and makes an imaging parameter of at least one of the imaging element or the lens for when the first condition is satisfied and for when the second condition is satisfied different from each other. |
| US12026907B2 |
Imaging systems and related methods including radar imaging with moving arrays or moving targets
Imaging systems, including radio frequency, microwave and millimeter-wave arrangements, and related methods are described. According to one aspect, an imaging system includes an antenna array, a position capture system configured to generate position information indicative of locations of one of the antenna array and the target at the first and second moments in time, and wherein the one of the antenna array and the target move between the first and second moments in time, a transceiver configured to control the antenna array to emit electromagnetic energy towards the target and to generate an output that is indicative of the received electromagnetic energy, a data acquisition system configured to generate radar data, processing circuitry configured to process the position information and the radar data to generate image data regarding the target, and an interface configured to use the image data to generate visual images regarding the target. |
| US12026903B2 |
Processing of depth maps for images
A method of processing depth maps comprises receiving (301) images and corresponding depth maps. The depth values of a first depth map of the corresponding depth maps are updated (303) based on depth values of at least a second depth map of the corresponding depth maps. The updating is based on a weighted combination of candidate depth values determined from other maps. A weight for a candidate depth value from the second depth map is determined based on the similarity between a pixel value in the first image corresponding to the depth being updated and a pixel value in a third image at a position determined by projecting the position of the depth value being updated to the third image using the candidate depth value. More consistent depth maps may be generated in this way. |
| US12026902B2 |
Method and system for monitoring a spatial area in a personnel interlock
A method and a system for monitoring a spatial area in a personnel interlock are provided. Image data are acquired which represent a plurality of depth images of the spatial area which have been acquired simultaneously and from different positions in the area of the personnel interlock, in each case by a respective 3D image sensor arranged at the corresponding position. For each of the depth images, an associated characteristic depth image value is calculated. A total image value is obtained by combining the characteristic depth image values of the various depth images in accordance with a predetermined monotonic combination rule. An estimation result for the probability that more than one person is present in the spatial area is then determined. |
| US12026901B2 |
Efficient encoding of depth data across devices
One embodiment provides a method comprising determining a spatial relationship between an augmented reality (AR) device and a camera-equipped device. The AR device is worn by a user. The camera-equipped device is positioned within proximity of the user. The method comprises determining, based on the spatial relationship, minimum and maximum boundaries of a user volume encompassing a head and one or more extremities of the user. The minimum and maximum boundaries represent a reduced depth range that is narrower than a full depth range of a camera frustum of the camera-equipped device. The method further comprises encoding, based on the minimum and maximum boundaries, a depth image frame captured via the camera-equipped device, and transmitting the encoded depth image frame over a remote network connection. A reconstructed 3D image based in part on the encoded depth image frame is rendered by a different AR device. |
| US12026898B2 |
Systems and methods for image fusion
A method for image fusion may include obtaining a first image including a plurality of first pixels and a second image including a plurality of second pixels. Each of the plurality of second pixels may correspond to one of the plurality of first pixels. The method may further include classifying the plurality of first pixels into different categories which at least includes a first category and a second category. The method may further include fusing the first image with the second image based on a fusion operation between each of the plurality of first pixels and its corresponding second pixel to generate a fused image. The fusion operation associated with a first pixel belonging to the first category and the fusion operation associated with a first pixel belonging to the second category are performed according to different fusion rules. |
| US12026892B2 |
Figure-ground neural radiance fields for three-dimensional object category modelling
Systems and methods for three-dimensional object category modeling can utilize figure-ground neural radiance fields for unsupervised training and inference. For example, the systems and methods can include a foreground model and a background model that can generate an object output based at least in part on one or more learned embeddings. The foreground model and background model may process position data and view direction data in order to output color data and volume density data for a respective position and view direction. Moreover, the object category model may be trained to generate an object output, which may include an instance interpolation, a view synthesis, or a segmentation. |
| US12026890B2 |
Luminescence imaging with refining loop based on combination of partial illuminations
A solution is proposed for imaging an object containing a luminescence substance. A corresponding method (500) is based on a refining loop. At each iteration of the refining loop, different spatial patterns are determined (516-518, 524;536-540, 546), partial illuminations corresponding to the spatial patterns are applied to the object (520,526;542,548), component images are acquired in response to the partial illuminations (522,528;544,550) and the component images are combined (530;552) into a combined image. A corresponding system (100) is also proposed. Moreover, a computer program (400) and a corresponding computer program product are proposed. A diagnostic method, a surgical method and a therapeutic method based on the same solution are further proposed. |
| US12026888B2 |
Imaging analyzer
An imaging mass spectrometry unit (1) executes predetermined analysis on each of a plurality of micro areas set in a two-dimensional measurement region on a sample or a three-dimensional measurement region in a sample to acquire spectrum data. A clustering execution section (21) classifies spectrum data for a plurality of measurement points obtained for a reference sample into any of a plurality of clusters. A clustering model information storage section (22) stores a clustering model obtained by clustering processing. A segmentation execution section (23) classifies respective spectral data for a plurality of measurement points obtained for a sample other than a reference sample using a clustering model, and a spatial distribution image creation section (24) creates a segmentation image obtained by partitioning a two-dimensional or three-dimensional image into a plurality of small regions on the basis of a result of the classification. |
| US12026884B2 |
Methods, apparatuses and systems for surview scan
Methods, apparatuses, and systems for surview scans are provided. In one aspect, a method includes: collecting a static image for a subject on a scan bed when it is stationary; determining a scan beginning position and a reference position in the static image; obtaining a first distance between the scan beginning position and the reference position; during a movement of the scan bed, obtaining a video image of the subject in real time; identifying a corresponding reference position in the video image; marking, according to the corresponding reference position and the first distance, a corresponding scan beginning position in the video image; detecting a second distance between the corresponding scan beginning position and a positioning line in the video image; and in response to detecting that the second distance is equal to or less than a predetermined first threshold, starting the surview scan to obtain a surview image. |
| US12026883B1 |
Apparatus and method for extracting vascular function from brain-related information
An aspect of the present disclosure provides an apparatus for extracting a vascular function including an information reception unit configured to extract an original CT image from brain-related information received from the outside; an NIFTI image transformation unit configured to transform the original CT image into an NIFTI file format image to acquire time sequence data; a time interpolation unit configured to apply time interpolation to the original CT image through the time sequence data to transform the original CT image into each time-specific 3D CT image; a vessel segmentation unit configured to predict a vessel segmentation mask by passing the each time-specific 3D CT image through a deep learning-based vessel segmentation deep-learning model 141 and generate a 4D vessel mask image by stacking the 3D CT images based on a time axis; and a vascular function extraction unit configured to extract a vascular function from a vessel region of the 4D vessel mask image and calculate a blood flow parameter using an artery function which is one of the vascular functions. |
| US12026879B2 |
Method for detecting the presence of pneumonia area in medical images of patients, detecting system, and electronic device employing method
A pneumonia area detecting system includes an information obtaining module, an image preprocessing module, a calculating module, and a pneumonia area detecting model. The information obtaining module obtains medical images and a frame size of an initial pneumonia area. The image preprocessing module processes the medical images to obtain a standard format image. The calculating module processes the frame size of the initial pneumonia area through a preset algorithm and the standard format image, to obtain a frame size of a standard format pneumonia area. The pneumonia area detecting model obtains an output pneumonia area according to the standard format image and the frame size of the standard format pneumonia area. A pneumonia area detecting method and an electronic device are also provided in the present disclosure. |
| US12026878B2 |
Learning method for generating multiphase collateral image and multiphase collateral image generating method using maching learning
A learning method for generating a multiphase collateral image comprises the steps of: receiving inputs of an MRI image of a head part and a multiphase collateral image generated on the basis of the MRI image; generating a brain mask by using the MRI image; generating an MRI image and a multiphase collateral image which are masked by the brain mask; and learning the masked multiphase collateral image for the masked MRI image by using a learning network. |
| US12026871B2 |
Shale shaker imaging system
A method for identifying a wellbore condition includes capturing a first image of cuttings on or downstream from a shale shaker using a first camera. A size, shape, texture, or combination thereof of the cuttings in the first image may be determined. A wellbore condition may be identified based on the size, shape, texture, or combination thereof of the cuttings in the first image. |
| US12026865B2 |
Image analysis system for testing in manufacturing
A vision analytics and validation (VAV) system for providing an improved inspection of robotic assembly, the VAV system comprising a trained neural network three-way classifier, to classify each component as good, bad, or do not know, and an operator station configured to enable an operator to review an output of the trained neural network, and to determine whether a board including one or more “bad” or a “do not know” classified components passes review and is classified as good, or fails review and is classified as bad. In one embodiment, a retraining trigger to utilize the output of the operator station to train the trained neural network, based on the determination received from the operator station. |
| US12026864B2 |
Method and apparatus for detecting a status of a lens, electronic device and medium
Provided are a method and apparatus for detecting a status of a lens, an electronic device and a medium. A specific implementation includes: determining current feature points included in a current image according to the current image captured at a current moment by a to-be-detected lens of a target driving device; determining historical feature points included in a historical image according to the historical image captured at a historical moment by the to-be-detected lens; and matching the current feature points with the historical feature points and determining a status detection result of the to-be-detected lens according to a matching result. Therefore, an effect of determining a status of the to-be-detected lens of the target driving device is achieved and the problem of a potential safety hazard of the target driving device due to an abnormal status of the to-be-detected lens can be avoided. |
| US12026862B2 |
Apparatus and methods for preprocessing images having elements of interest
At least some embodiments of the present disclosure directs to a method for processing an input image having an embedded element, comprising the steps of: computing one or more histograms of the input image; identifying a range of interest in one of the one or more histograms; and determining, by the processor, a threshold based on the range of interest. In some embodiments, a computing device processes the input image using the threshold to generate an output image. |
| US12026854B2 |
Image processing device, method, image reading device, and recording medium
A local variance or an edge amount is calculated as an image feature amount by analyzing a reference image of the same field of view as multiple band images constituting a multispectral image, a filter parameter is calculated from the image feature amount, and smoothing the band images while preserving edges is performed by using the filter parameter. When a multispectral image including a band image of a wavelength band in which a sufficient signal amount is not obtained is obtained, it is possible to improve the S/N ratio of the multispectral image without destroying edges. |
| US12026853B2 |
Deep learning based denoising and artifact reduction in cardiac CT cine imaging
A method for cardiac computed tomography imaging acquires 4D image volumes using cardiac CT, generates synthetic low noise data from the 4D image volumes for a complete cardiac cycle by exploiting redundancies in the data, uses the generated synthetic low noise data to train a 3D U-Net with 2D+time architecture to produce denoised cardiac CT output from noisy cardiac CT input, and uses the trained 3D U-Net for deep learning based denoising of functional cardiac CT data. |
| US12026851B2 |
Single image deraining method and system thereof
A single image deraining method is proposed. A wavelet transforming step processes an initial rain image to generate an i-th stage low-frequency rain image and a plurality of i-th stage high-frequency rain images. An image deraining step inputs the i-th stage low-frequency rain image to a low-frequency deraining model to output an i-th stage low-frequency derain image. A first inverse wavelet transforming step recombines the n-th stage low-frequency derain image with the n-th stage high-frequency derain images to form an n-th stage derain image. A weighted blending step blends a (n−1)-th stage low-frequency derain image with the n-th stage derain image to generate a (n−1)-th stage blended derain image. A second inverse wavelet transforming step recombines the (n−1)-th stage high-frequency derain images with the (n−1)-th stage blended derain image to form a (n−1)-th stage derain image, and sets n to n−1 and repeats the last two steps. |
| US12026849B2 |
Source image providing multiple item views
According to example embodiments, an Image View Aggregator identifies a frontal view of an item within an image. The Image View Aggregator identifies at least one reflection view of the item within the image. Each reflection view of the item having been captured off a corresponding reflective physical surface. The Image View Aggregator extracts the frontal view of the item and each reflection view of the item from the image. The Image View Aggregator generates a representation of the item based at least on the extracted frontal view of the item and each extracted reflection view of the item. |
| US12026847B2 |
Method and apparatus for controlling placement of virtual character and storage medium
A method for controlling placement of a virtual character includes: displaying a virtual character at a first position in a virtual reality (VR) scene; receiving a first instruction in the VR scene, the first instruction indicating moving the virtual character from the first position by a designated movement; displaying, in response to receiving the first instruction, third indication information as a preview of the designated movement in the VR scene; determining, according to the first instruction, a second position by the designated movement from the first position in response to the first instruction; removing the virtual character from the first position; and placing the virtual character at the second position, the virtual character not appearing between the first position and the second position after being removed from the first position. |
| US12026846B2 |
Location-based metaverse social system combining the real world with virtual worlds for virtual reality interaction
A location-based metaverse social media system provided for users to actually move and carry out various social events of online/offline interactions after positioning through a mobile device includes a virtual world management processor and an user processor. The virtual world management processor is provided for augmenting a plurality of parallel virtual worlds by basic map information of the real world and the user processor is provided for the users to create personal accounts and a virtual character tied with them and displayed on the mobile device. In operations, the users can switch to any one of the parallel virtual worlds in a cross-world manner and perform a location-based social event while the users are moving. |
| US12026841B2 |
Augmented reality product display
Methods, devices, and systems related to a computing device for capturing and displaying an augmented reality (AR) image are described. An example method can include capturing a first three-dimensional (3D) figure of a user at a mobile device. The method further includes accessing the first 3D figure of a user at the mobile device. The method further includes receiving, at the mobile device, a selection of a product to display on the 3D figure. The method further includes displaying, on the mobile device, the product to display on the first 3D figure as an augmented reality (AR) image. |
| US12026835B2 |
Computer-implemented methods for simulating deformation in real-world scene, electronic devices, and computer-readable storage medium
The present disclosure provides a computer-implemented method. The method includes: acquiring 3D volumetric data for representing a real-world scene; acquiring a current set of active 3D volumetric data from the 3D volumetric data in response to an activating action on the 3D volumetric data; updating a plurality of sets of active 3D volumetric data based on the current set of active 3D volumetric data, the plurality of sets of active 3D volumetric data being acquired from the 3D volumetric data; constructing a surface based on the plurality of updated sets of active 3D volumetric data; and simulating a deformation of a part of the real-world scene based on the surface, the part of the real-world scene corresponding to the plurality of updated sets of active 3D volumetric data. In addition, the present disclosure also provides an electronic device, and a storage medium. |
| US12026831B2 |
Electronic device and method for spatial mapping using the same
An electronic device and method are disclosed. The electronic device includes a first and second camera, display, memory and processor. The processor implements the method, including acquiring image data of an external environment via the first camera, detecting a plurality of objects included in the image data, identifying a first object corresponding to the detected gaze among the detected plurality of objects, configuring a first precision for spatial mapping of the identified first object and a second precision of at least one other object from among the detected plurality of objects, wherein the first precision is higher than the second precision, executing 3D spatial mapping on the image data using the first precision for the identified first object and the second precision for the at least one other object, and displaying a 3D space generated based on the image data and the spatial mapping. |
| US12026829B2 |
Method for processing a shadow in a 3D scene, and corresponding device, system and computer program
A method for processing a 3D scene, and corresponding device, system and computer program are disclosed. In an example embodiment, the disclosed method includes: obtaining an image comprising at least a nadir view of a 3D scene, captured by at least one camera; detecting, in the image, at least one shadow cast by at least one object of the 3D scene acting as a support for the at least one camera; and determining a direction of at least one real light source from the at least one detected shadow and at least information representative of the object. |
| US12026825B2 |
Apparatus and method for reduced precision bounding volume hierarchy construction
Apparatus and method for efficient BVH construction. For example, one embodiment of an apparatus comprises: a memory to store graphics data for a scene including a plurality of primitives in a scene at a first precision; a geometry quantizer to read vertices of the primitives at the first precision and to adaptively quantize the vertices of the primitives to a second precision associated with a first local coordinate grid of a first BVH node positioned within a global coordinate grid, the second precision lower than the first precision; a BVH builder to determine coordinates of child nodes of the first BVH node by performing non-spatial-split binning or spatial-split binning for the first BVH node using primitives associated with the first BVH node, the BVH builder to determine final coordinates for the child nodes based, at least in part, on an evaluation of surface areas of different bounding boxes generated for each of the child node. |
| US12026815B2 |
Scrolling with damped oscillation
In one embodiment, a method includes displaying one or more objects on a display device and receiving a user input corresponding to a movement along the display device. The method further includes determining a motion of each of the one or more objects on the display device. The determined motion corresponds to the user input and includes: a first motion that includes a translation of each of the objects along a particular path across at least a portion of the display device and a second motion that includes a decaying oscillatory motion of each of the objects where an amplitude of the decaying oscillatory motion decreases with time. The method also includes applying the determined motion to the one or more objects displayed on the display device. |
| US12026813B2 |
Apparatus and method for providing digital twin book shelf
Disclosed are an apparatus and method for providing a digital twin bookshelf, which can generate a digital twin bookshelf including a virtual bookshelf and book objects by using book information and an image obtained by capturing a real bookshelf. The apparatus captures an image of a real bookshelf in which real books are arranged, detects book recognition information from the real bookshelf image, generates a digital twin bookshelf based on the real bookshelf image and the book information corresponding to the book recognition information, and outputs the generated digital twin bookshelf. |
| US12026805B2 |
Augmented reality based geolocalization of images
Methods, systems, devices, and tangible non-transitory computer readable media for generating geolocalized images are provided. The disclosed technology can access target location data. The target location data can include information associated with an environment from which a target location is within a field of view of a user device. A suitable position of the user device from which an unobstructed view of the target location is within the field of view of the user device and that satisfies one or more criteria can be determined based on the target location data. Furthermore, indications and images of the environment within the field of view of the user device can be generated. The indications can be associated with positioning the user device in the suitable position. |
| US12026803B2 |
Rendering images stored with grow protocol along with conditions per growth stage
A system is configured to obtain multiple images (83) of a plant and store a plurality of the multiple images of the plant with a grow protocol (71) for growing the plant. Each of the images is associated with a different capture moment. The system is further configured to select the grow protocol separately from the plant and render the plurality of images upon selection of the grow protocol. Each of the images is rendered along with one or more desired and/or measured conditions (74-76) of a growth stage (84). The growth stage corresponds to a capture moment of the respective image. The grow protocol comprises a plurality of growth stages and the one or more desired and/or measured conditions are included in the grow protocol. |
| US12026802B2 |
Sharing of resources for generating augmented reality effects
An augmented reality (AR) effect system can improve application of AR effects by sharing resources between AR effects. The AR effect system can employ manifests for AR effects that define which resources are required to render each AR effect. The AR effect system can organize rendering operations used by selected AR effects into a pipeline and can use the manifests of the AR effects to determine when each resource will be needed. Based on this pipeline, the AR effect system can create a cache order defining a resource schedule which specifies, when a resource is freed, conditions for whether to save the resource to a local cache or unload the resource. As rendering of the video with the AR effects progresses, the resource schedule can control whether resources not currently being used to render an AR effect should be unloaded or cached for fast access for future render operations. |
| US12026800B1 |
Blitting a display-locked object
A method is performed at an electronic device with a controller and a display. The method includes identifying, within a first memory, a first object that satisfies a locked criterion. For example, the first object corresponds to a head-locked object or a body-locked object. The first object is associated with a first plurality of pixel values. The method includes blitting, via the controller, the first plurality of pixel values from the first memory to a second memory. The method includes displaying, on the display, the first object by obtaining the first plurality of pixel values from the second memory. In some implementations, the method includes rendering, via a graphics processing unit (GPU), a second object that does not satisfy the locked criterion, such as a world-locked object. As compared with GPU rendering, blitting is less computationally expensive. |
| US12026796B2 |
Systems and methods for describing, simulating and optimizing spaceborne systems and missions
Systems and methods for describing, simulating and/or optimizing spaceborne systems and missions. Configurations for spaceborne systems are generated and validated based on simulation output. |
| US12026793B2 |
Method and system for decentralized energy forecasting and scheduling
A method for adjusting electrical energy flow schedules of a utility handling a plurality of distributed energy resources. The method comprising the steps of providing information regarding energy flow of the energy resources and storing said information on a distributed ledger; transferring energy schedules from the utility to the distributed ledger; transferring said information regarding the energy flow and the energy schedules from the distributed ledger to a computing means and computing proposed corrections for the energy schedules; transferring said proposed correction to the distributed ledger; transferring said proposed correction to the utility which decides to use or not to use the proposed correction. By deciding to use the proposed correction, the schedules are corrected and information is transferred from the utility to the computing means. |
| US12026790B2 |
Methods, systems, and media for identifying abusive content items
Methods, systems, and media for identifying abusive content items are provided. In some embodiments, the method comprises: receiving, at a server from a user device associated with a user, a request to provide user-generated content on a media content platform; in response to receiving the request, determining whether the user-generated content is to be reviewed by one or more reviewing users based on one or more bypass criterion; in response to determining that the user-generated content is to be reviewed based on the one or more bypass criterion, adding a review request to a queue of a reviewing user, wherein the review request includes the user-generated content and information associated with a user account corresponding to the user; and determining whether a decision responsive to the review request indicates that the user-generated content is to be provided on the media content platform, wherein: in response to determining that the decision indicates that the user-generated content item violates at least one policy associated with the media content platform, (i) a first message is transmitted to the user of the user device that indicates the at least one violated policy and a penalty to be administered to the user account corresponding to the user and (ii) a corresponding action is taken that inhibits the user-generated content from being provided on the media content platform; and in response to determining that the decision indicates that the user-generated content item does not violate the at least one policy associated with the media content platform, a second message is transmitted to the user of the user device that indicates that the user-generated content is eligible for providing on the media content platform. |
| US12026788B2 |
Intelligent expense report determination system
Aspects of the disclosure provide a computerized method and system that utilizes reference expense reports to build and train one or more neural network learning models that intelligently determine the riskiness of to-be-determined expense reports submitted for reimbursement. In examples, a determined riskiness may inform a reimbursement entity manager when determining whether to approve, reject, and/or flag for further review a to-be-determined expense report. In instances, computerized expense report resolution systems and methods may be further automated in order to omit user interactions with to-be-determined expense reports, such that an intelligent computer determines whether to approve, reject, and/or flag a to-be-determined expense report based on the intelligently determined riskiness of the to-be-determined expense report. |
| US12026786B2 |
Technologies for using image data analysis to assess and classify hail damage
Systems and methods for analyzing image data to assess property damage are disclosed. According to certain aspects, a server may analyze segmented digital image data of a roof of a property using a convolutional neural network (CNN). The server may extract a set of features from a set of regions output by the CNN. Additionally, the server may analyze the set of features using an additional image model to generate a set of outputs indicative of a confidence level that actual hail damage is depicted in the set of regions. |
| US12026785B1 |
Techniques to visualize and gamify risk management services
Techniques for gamifying risk management services include associating a financial status of a user with a defensible position display element in a gameplay scenario, receiving risk management data regarding at least one risk management service secured by the user, associating the risk management service with at least one defensive display element in the gameplay scenario, and providing the defensible position display element and each defensive display element to a display to cause the display to visualize the defensible position display element protected by each defensive display element in the gameplay scenario. |
| US12026781B2 |
Systems and methods for building, utilizing, and/or maintaining an autonomous vehicle-related event distributed ledger or blockchain
Methods and systems for building, utilizing, and/or maintaining an autonomous vehicle-related event distributed ledger or blockchain are provided. One or more processors may receive indications of autonomous vehicle events. The autonomous vehicle events may include information relating to technology usage and/or operational events. The autonomous vehicle events may be compiled into a log of recorded autonomous vehicle events. Based upon the autonomous vehicle events, an action to implement bay be determined. Additionally, the log may be distributed to a public or private network of distributed nodes. As a result, the distributed nodes may maintain an up-to-date record of the shared ledger of autonomous vehicle events. |
| US12026777B2 |
Systems and methods for using secondary market for primary creation and redemption activity in securities
Systems and methods for transforming an electronic portfolio. A system includes an electronic crossing platform that receives data defining trade orders of the electronic portfolio during an initial time period; compares portions of the data to determine an imbalance of the trade orders remaining after the initial time period and receives, during a final time period, a final trade order from a fund agent device to offset the remaining imbalance. The platform receives, after the final time period, a benchmark value of the electronic portfolio from a fund device; compares the final trade order with the remaining imbalance to determine an adjustment value; converts the benchmark value to a final value by applying the adjustment value to the benchmark value; and transforms the electronic portfolio into the transformed portfolio by creating paired buy and sell orders among the trade orders received during the initial time period at the final value. |
| US12026775B1 |
System and method for displaying order status and receiving and changing orders
A system and method graphically displays and receives order status and allows order status to be replayed in time. |
| US12026774B1 |
System and method for operating a family of mutual funds or ETFs
A system and method operates a family of exchange traded funds or mutual funds with different weighted average maturities. |
| US12026771B1 |
ATM customer messaging systems
A system includes a computing system associated with a financial institution and communicatively coupled with one or more automated teller machines (ATMs), where the computing system is configured to authenticate an account holder via an ATM of the one or more ATMs based on identification information of the account holder, identify an event associated with the account holder, determine a message relating to the event to be displayed to the account holder based on the event, and display the message to the account holder via the ATM where the message being displayed is based on the account holder accessing the ATM within a threshold time period associated with the event. |
| US12026770B2 |
Financial health smartwatch
Computer implemented systems and methods are disclosed involving technological advancements in the processing of electronic transaction processing. A system may comprise a networked environment including heterogeneous or homogenous payment processing systems. A centrally accessible server machine storing an automatic savings program module and rules controls the generation and dissemination of new transactions derived from incoming transactions. Moreover, the networked system may be used to control authorization of electronic transactions in a near real-time manner. The networked system may be used to distribute a financial health of a user in a user-friendly, mobile form factor. |
| US12026769B2 |
Vehicle imaging and inspection system
A front-end image acquisition component acquires photographs and/or videos of the exterior of a vehicle traveling on a path between a first predefined location and a second predefined location. In one aspect, an image acquisition system comprises a first camera support structure, a second camera support structure, an image processor, and a memory. Cameras are affixed to each of the camera support structures for acquiring image data of a subject vehicle. Image data is controlled by the image processor and the memory. In another aspect, an image acquisition system comprises a first camera tower, a second camera tower, a camera boom. Cameras are affixed to each of the camera towers. In another aspect, a method of identifying features of the exterior of a vehicle includes acquiring a series of images from a front-end component, accessing previously acquired images and associated metadata stored in a database, executing machine learning algorithms using the previously acquired information to identify at least one exterior vehicle feature, and executing machine learning algorithms using the presently acquired series of images to identify at least one exterior feature of the vehicle. |
| US12026766B2 |
Method, medium, and system for analyzing products and determining alternatives using artificial intelligence
A product analyzing system and method may include receiving a scan of a product, retrieving a plurality of individual data of one or more individuals, determining how the product will affect the plurality of individual data of the one or more individuals and whether the product complies with the individual data of the one or more individuals, generating an alert corresponding to the product based on the determining, and sending the alert to a user device before purchase of the product. |
| US12026764B2 |
Method and apparatus for providing information using trained model based on machine learning
Provided is a method of providing information using a trained model through machine learning, which may include checking a first set of character strings including a plurality of character strings representing pieces of information about a plurality of items related to a trained model creation, creating at least one trained model on the basis of the first set of character strings, checking a second set of character strings including a plurality of character strings representing pieces of information about a plurality of items related to an information classification object, and checking reference product name information and attribute information for each of at least a portion of the second set of character strings using the at least one trained model. |
| US12026747B2 |
Systems and methods for ad-supported mobile data plans or in-app purchases
Methods are disclosed for providing an ad-supported mobile data plan, where ad display may be tied to data usage levels and user input. A method includes receiving, using at least one processor, user interaction with advertisement content displayed on a device; retrieving, using the at least one processor, a data usage limit associated with the device; and causing a change in the data usage limit based on the user interaction with the advertisement content displayed on the device. |
| US12026745B2 |
Control method, communication terminal, non-transitory computer-readable recording medium, and information providing method
A method includes causing a computer of a communication terminal to perform a process including acquiring, in response to receipt of a beacon signal transmitted from a vending machine, identification information and type information of a plurality of drinks from the vending machine by using short-range wireless communication; acquiring preference information on drinks of a user of the communication terminal; generating, based on the identification information, the type information, and the preference information, a push notification screen that recommends at least one drink that matches a preference of the user indicated by the preference information from among the plurality of drinks stored in the vending machine indicated by the identification information; and displaying the push notification screen on a display of the communication terminal. |
| US12026744B2 |
Prompting item interactions
Methods, computer program products, and systems are presented. The method computer program products, and systems can include, for instance: responsive to a determination that a mobile client computer device is at a location of an item venue, sending to the client computer device prompting data, wherein the client computer device is associated to a user; examining feedback data defined by the user, wherein the feedback data is defined by the user in response to the prompting data; and transmitting to the mobile client computer device second prompting data in dependence on the examining feedback data defined by the user. |
| US12026743B2 |
Automatic event triggered balance top-up, money transfer, and location based advertising platform
This disclosure provides aspects and embodiments of methods, services, and platforms for prompting users with a zero account balance to send a callback message to a contact informing the contact that the user cannot call them and asking the contact to call the user. This disclosure further provides location determining platforms and rewards platforms for users. |
| US12026740B1 |
Tracking performance of recommended content across multiple content outlets
The present disclosure relates to systems and methods for tracking content across multiple content outlets. Content items, characterized by first metadata, and content slots, characterized by second metadata, can be received. Third metadata for digital content slots can be generated. Fourth metadata can be received. A recommended content item package can be provided based on a comparison between a combination of the first metadata, the second metadata, and the third metadata and the fourth metadata. The recommended content item package can include a content file and a metadata file. A performance and a measurement of the recommended content item package can be determined by executing the metadata file to track the content file across one or more of the content slots and the potential digital content slots. The performance and the measurement can be provided. |
| US12026738B2 |
Predicting application conversion using eye tracking
Techniques are disclosed for determining application experience of a user. One embodiment presented herein includes a computer-implemented method, which includes receiving, at a computing device, eye tracking data of a user interacting with at least a first page of an application. The computer-implemented method further includes determining, based at least on the eye tracking data, at least a current user experience regarding the first page. The computer-implemented method further includes predicting, based on evaluating the current user experience, that the user is likely to discontinue use of the application. The computer-implemented method further includes determining, based at least on the prediction, an intervention that reduces a likelihood of the user discontinuing use of the application, and interacting with the user according to the intervention. |
| US12026733B2 |
System and method for real-time promotional demand management utilizing mobile e-commerce sales leads
A method, apparatus and computer program product are provided for mobile location based sales lead identification. Sales lead information may be provided based on a reference location, such as a sales resource real time location. Additional location information, demand information, competitive information, activity history, follow-up tasks, sales resource ownership information and past promotions relating to a particular sales lead may be additionally provided. The mobile location based sales lead information may allow a sales resource to efficiently manage their time during and in between sales visits, and prepare effective sales pitches to sales leads. |
| US12026732B2 |
Methods and systems for growing and retaining the value of brand drugs by computer predictive model
The present invention is directed to a brand value growth and retention system for brand drugs commercialized by brand drug advertisers through a brand drug's lifecycle during patent exclusivity and after loss of exclusivity. The brand value growth and retention system iteratively analyzes combined computational models of consumer, healthcare provider retailer and payor segment data to produce brand drug promotional campaigns that are predictive with modifying parameters that transform the promotional campaigns over time. As a result, the brand drug promotional campaign generates an increased number of brand drug purchases while predicting the point where incremental promotional campaign investments produce a diminishing number of incremental brand drug purchases. |
| US12026730B2 |
System and method for interactive transaction information aggregation
A transaction information aggregation system includes raw transaction and enriched transaction databases. The raw transaction database comprises transaction information for a plurality of transactions, including for each transaction an account holder identifier and at least one transaction parameter. The enriched transaction database comprises an indexed transaction record for each of the plurality of transactions, each record including a plurality of search terms associated with each of the at least one transaction parameter. A transaction information processing server is in data communication with the raw transaction and enriched transaction databases and is configured to receive raw transaction information for a new transaction, parse the raw transaction information to determine, associate search terms with a characteristic for each of the at least one transaction parameter, and establish a new indexed transaction record in the enriched transaction database for the new transaction, the new indexed transaction record including the additional searchable terms. |
| US12026726B2 |
User provisioning management in a database system
A central database system receives information associated with an employee from an employer. Using this information, the central database system can provision one or more user accounts for the employee, for instance via an API of an account provider. The central database system can use a machine learned model to identify fields of the API and to translate the information associated with the employee based on information requirements associated with the API. When a characteristic of the employee, such as the employee's title, subsequently changes within the central database system, one or more features associated with the user account can be automatically updated in response to the change. |
| US12026725B2 |
System providing self-service access to locked merchandise
A system providing self-service access to locked merchandise comprising: (a) providing a fixture that restricts access to the locked merchandise, wherein the fixture can automatically lock or unlock, allowing or restricting access to the locked merchandise; (b) providing a means of uniquely identifying an individual attempting to access the merchandise; (c) measuring a set of behaviors of the individual during any time the fixture is an open mode; (d) assessing whether the set of behaviors of the individual are suspicious or not relative to a set of suspicious event thresholds; (e) storing the individual and their set of behaviors as accessible records in at least one database; and (f) providing an algorithm which determines future access privileges of the individual to the enclosure based on a set of variables. Additionally, a system for maximizing sales of and minimizing theft of merchandise in a retail environment, the system comprising: (a) providing a merchandise fixture, wherein the merchandise fixture can allow or restrict access to the merchandise; (b) presenting a questionnaire to an individual; (c) providing a means of uniquely identifying the individual attempting to access the merchandise; and (d) allowing or restricting access to the merchandise based on the individual's responses to the questionnaire. |
| US12026722B2 |
Information reading system and method
An information reading system includes an information reading device and a device-to-be-identified. The information reading device includes a first signal pin, a second signal pin, and a control module, and the device-to-be-identified includes a third signal pin and a ground pin. The control module is configured to, when recognizing that the device-to-be-identified is inserted, control the first signal pin to connect to the third signal pin of the device-to-be-identified, and control the second signal pin to connect to the ground pin, to form a first single-wire path, and attempt to read anti-counterfeiting information stored in the device-to-be-identified by using the first single-wire path. |
| US12026719B2 |
Systems and methods for processing transaction disputes and processing transactions associated with compromised accounts
The present disclosure provides systems and methods for computerized methods and systems for processing transaction disputes and processing transactions associated with compromised accounts. According to one exemplary method, a server receives, from a user device, an instruction for disputing a transaction associated with a user account. The server can initiate, based on a record of the transaction, a dispute investigation, and issue provisional credit to the user account for the transaction. Based on a transaction history associated with the user account, the server can determine a plurality of expected transactions associated with the user account and cause the determined expected transactions to be displayed on the user device. After receiving a transaction authorization for at least one of the plurality of expected transactions, the server can process payments for the at least one of the plurality of expected transactions, and generate a notification indicating a status of the dispute investigation. |
| US12026718B1 |
Low latency anomaly detection and related mitigation action
Anomalies can be detected and related mitigation actions can be executed. For example, a computing device receives, from a first source, first data associated with a first process of a payment service in support of transactions of a first plurality of users. The computing device generates first aggregated metrics based on the first data. The computing device determines, by using the first aggregated metrics as first input to a machine learning engine, an anomaly associated with the execution of the first process. The computing device determines, based on the anomaly and a history of anomalies associated with the execution of the first process, an indication of an outage associated with the first process. The computing device causes an execution of a mitigation action based on the indication of the outage. The execution of the mitigation action is in support of transactions of a second plurality of users. |
| US12026713B2 |
System and method for processing transactions
A method, computer program product, and computer system for receiving a first scan of an identifier from a first computing device is disclosed. The identifier is associated with a financial transaction. A second scan of the identifier is received from a second computing device. The financial transaction is processed based upon, at least in part, receiving the second scan of the identifier from the second computing device. |
| US12026711B2 |
E-commerce security assurance network
This disclosure describes techniques that enable a security assurance network to secure entry of sensitive payment data associated with a merchant transaction. A security assurance webserver is configured to receive order context data associated with the merchant transaction, and selectively establish a secure webpage on the client workstation that overlays a presentation of a merchant webpage. The security assurance webserver may receive encrypted payment data via the secure webpage for transmission to an application server within a security assurance network, and in response, facilitate a processing of the payment data via the application server. In turn, the application server may transmit a payment message indicating whether the payment data was successfully processed. |
| US12026709B2 |
Systems and methods for card authorization
Example embodiments of systems, methods, and computer-accessible mediums for transaction authorization are provided. An exemplary system can comprise a card including an input device and a display device in data communication with a server. The server can generate an authorization passcode upon an initiation of a transaction session, and the card can receive an entered passcode through the input device, display the entered passcode on the display device, and transmit the entered passcode to the server for comparison to the authorization passcode. Upon a determination that the entered passcode is a match for the authorization passcode, the server can transmit a match notification indicating the transaction session is valid, and upon a determination that the entered passcode is a mismatch for the authorization passcode, the server can transmit a mismatch notification terminating the transaction session. |
| US12026701B2 |
Methods, systems, apparatuses and devices for facilitating processing of recyclable items
A method to facilitate processing of recyclable items. Accordingly, the method may include capturing, using at least one sensory device, sensory data associated with at least one recyclable item. Further, the method may include receiving, from the at least one sensory device, event data associated with a recycling process. Further, the at least one sensory device may include at least one of a hyperspectral camera, a spectroscopic scanner and a colored filter scanner configured for capturing at least one image of at least one recyclable item undergoing the recycling process. Further, the method may include analyzing, using a processing device, the event data using at least one image processing model. Further, the method may include issuing, using the processing device, the predetermined amount of crypto tokens to a second crypto account associated with a second user device based on the generating and the sensory data. |
| US12026700B2 |
Methods and systems for executing smart contracts in secure environments
Method for the secure execution of programs (smart contracts) implemented between a first wallet node (WN) (WN1) and a second wallet node (WN2), at least the second WN being implemented in an enclave of a processor, and the WNs being capable of executing programs designated in the messages that reach them, the method comprising the following steps: a) sending by WN1 to WN2 of a pre-message; b1) in response to this pre-message, execution in the enclave of a first program (WNRoT); b2) generation by the enclave of a certificate of authenticity of said first program and of the integrity of its execution; b3) sending said certificate to WN1; c) verification by WN1 of said certificate; d) in the event of successful verification, sending by WN1 to WN2 of a message intended to trigger the execution of a given program in WN2, and e) execution of said program in WN2. |
| US12026698B2 |
Digital payments linked to geographic locations
Electronic transfers of value may be secured via verification of locations of parties, and/or progressive trust building, while maintaining privacy of sensitive personal information of parties via separate communications by parties with a payment network server. Locations may be fixed geolocations, proximities, and/or positions relative to markers/beacons that are in motion. Transfers may be made from party to party, party to place and place to party, and/or party to a virtual point-of-sale at a place. Transferred items may be electronic funds in fiat and/or crypto currencies, Non-Fungible Tokens (NFTs)/data associated NFTs, electronic data, and/or securities/financial instruments, for example. Transactions may be multiparty and may comprise multiple exchanges of value. |
| US12026697B2 |
System and method for segment security using a certificate right on a distributed network
Embodiments of the invention are directed to systems, methods, and computer program products for onboarding digital content to a platform designed specifically for seamless creation and user-friendly management of non-fungible tokens. The invention allows for users with zero knowledge of decentralized protocols to leverage the benefits of such technologies by providing a system for uploading existing digital content, automating the creation of one or more non-fungible tokens, managing permissioned access to the non-fungible tokens, and facilitating the ownership verification of the non-fungible tokens. |
| US12026696B1 |
Automated application workflows based on signal detection
Techniques are described for automatically presenting workflow(s) in an application based at least partly on detected signal(s). A radio-frequency signal may be emitted from a transceiver and received by a transceiver of a user device when the transceiver is in proximity to the device. In response, an application including functionality to activate a payment card can launch. |
| US12026689B2 |
Accounting system, terminal, and information processing method
An accounting system according to the present disclosure includes a terminal that is placed on a table used by a customer, a connection apparatus that is connected to the terminal at the time of accounting, and a server that communicates with the terminal and the connection apparatus via a network. The terminal receives an order for a product from the customer and then transmits table identification information by which the table can be identified and product information regarding the product to the server, the server stores the table identification information and the product information in association with each other as accounting information, and the terminal acquires, when it is connected to the connection apparatus, the accounting information associated with the table identification information from the server and performs accounting processing. |
| US12026684B2 |
Digital and physical asset transfers based on authentication
An apparatus for transferring virtual resources comprises a processor associated with a server. The processor is configured to conduct an interaction between a first user and an entity to transfer a physical object and a non-fungible token (NFT) to the first user, wherein the NFT is associated with the physical object. The processor is further configured to receive the NFT for storage in a first digital folder and to receive a request to establish an interaction session between a first avatar in a virtual environment and a second avatar associated with a second user. The processor is further configured to authorize the interaction session in response to authenticating the NFT and to conduct the interaction. The interaction includes initiating a transfer of the physical object from the first user to the second user and transmitting the NFT to a second digital folder associated with the second user. |
| US12026681B2 |
Lamp, lamp fan life predicting system and method thereof
The disclosure relates to a life prediction system for a fan of a lamp. The system comprises a fan signal detecting module to detect at least one working parameter of the fan; and a micro control unit to receive the working current signal, the environment temperature signal and the working rotation speed signal of the fan. The detecting module comprises a current detecting unit to detect a working current of the fan and output a working current signal; a temperature detecting unit to detect a working environment temperature of the fan and output an environment temperature signal; and a rotation speed detecting unit to detect and output a working rotation speed signal of the fan. The micro control unit calculates a predicted residual life of the fan based on the received working current signal, the environment temperature signal, the working rotation speed signal, through the life model of the fan. |
| US12026678B2 |
Communication systems for multi-source robot control
A service robot may be autonomous, with respect to a portion of a customer service task, and coordinated, with respect to another portion of a customer service task. A resource, such as another robot or an agent (human or automated), may monitor or interact with the robot and, in such a combination, perform a customer service task. The robot may be instructed to pause or delay initiation of a robot portion to allow for a resource to become available at a common time that the interaction portion is to be performed to minimize delay and promote better customer service. Should the delay be beyond an acceptable threshold, the robot may engage in a delay task (e.g., slow down, pause, etc.). The delay task may include a social interaction with a human at a service location. |
| US12026676B2 |
Systems and methods for verifying integrity of associate training
In some embodiments, apparatuses and methods are provided herein useful to verifying integrity of associate training. In some embodiments, there is provided a system for verifying integrity of associate training at a facility including a plurality of wireless devices; a plurality of sensors; one or more databases; and a control circuit. By one approach; the control circuit is configured to: receive first and second associate identifiers; determine first, second, and third areas; determine whether the first, second, and third areas each correspond to the same area, wherein the determination verifies that the trainer-associate is with the trainee-associate at a designated area associated with a first training module; and provide a verification message that the first training module has been completed. |
| US12026675B2 |
Internet-based method and apparatus for career and professional development via structured feedback loop
Methods and apparatus for generating feedback, reviewing feedback, and conducting interviews by use of VMocks are provided. A VMock, or Virtual Mock, is a virtual profile of a candidate that includes resume, text, video and a document. VMock profiles may be created that have one or more VMocks. Contacts associated with the VMock profile may be managed. Feedback may be requested from the contacts concerning the one or more VMocks, who may then generate the requested feedback. The feedback may then be reviewed. This feedback process may be performed in the context of interviews for employment opportunities and in other similar situations. |
| US12026663B1 |
Automated sequencing and dispensing in final segment of delivery
An item delivery system can include a carrier positioned on a rail. The rail can be positioned in a delivery vehicle, for example. The carrier can include rigid or semi-rigid sidewall and dividers to form item slots. The item slots can receive one or more items. The carrier can be positioned on the rail and moved around the rail by an advancement device. The advancement device can engage with a portion of the carrier to move the carrier. The carrier can be moved to a position for removal of items from the carrier. The removal position may correspond to an area accessible from an operator area of the delivery vehicle, for example. |
| US12026662B2 |
Commodity change information generation method and apparatus, commodity sorting method and apapratus, and electronic device
A commodity change information generation method and apparatus, a commodity sorting method and apparatus, and an electronic device are disclosed. The commodity change information generation method comprises: acquiring original commodity arrangement information of a to-be-tidied shelf and standard commodity arrangement information corresponding to the to-be-tidied shelf; acquiring first commodities and second commodities in multiple original commodities, as well as first commodities and third commodities in multiple standard commodities; determining first position change information of the first commodities according to original position information and standard position information of the first commodities; and determining second position change information of the second commodities and the third commodities according to original position information of the second commodities, standard position information of the third commodities, and the first position change information. |
| US12026661B2 |
Mobile automated inventory container bin and system
Systems and methods are provided for automatic inventory tracking such that items placed into a container/bin are automatically tracked and wherein the container/bin is moveable. The system including automatic tracking of items removed from the container/bin and automatic tracking of the container/bin. The system may further include audio/visual indications when an asset tag is validated. |
| US12026654B2 |
Central service that generates evaluation scores for entities
Techniques for provisioning a central, cloud-based service (i) that generates customized queries for execution against multiple third-party applications to collect certain metric data and (ii) that generates an evaluation score based on the collected metric data are disclosed. A corresponding query is created for each of the third-party applications. Each query is designed to extract certain metric data. The queries are transmitted to their corresponding third-party applications. Metric data is returned, including first and second metric data. The first and second metric data are used to validate one another with respect to an event, which is classified. The metric data is weighted. An evaluation score is then generated based on the weighted metric data. |
| US12026646B2 |
Titanium task-engine system
The present disclosure is related to computing devices, systems, and methods for a new task-engine system that connects to a variety of task-interaction providers, enabling a user to use any one of multiple task-interaction providers to create and complete tasks within a workflow. That is, the connection to a variety of task-interaction providers allows a user to interact with the workflow through any of the task-interaction providers and create and/or complete any number of tasks in the workflow. The task-engine system may also update the creation and/or completion of a workflow task in all other task-interaction providers, such that all users may be aware of, or notified of, the current state of the workflow through any of the task-interaction providers. |
| US12026645B2 |
Welding data tracking platform and interface
Methods, devices, and platforms related to welds. More particularly a device includes a processor that when in operation receives a first signal indicative of completion of action undertaken with respect to a weld. The processor of the device when in operation generates a data log corresponding to receipt of the first signal for addition to a set of one or more previous data logs that correspond to the weld. |
| US12026640B2 |
Autonomous vehicle seat reservation
Various technologies described herein pertain to reserving seats in an autonomous vehicle. The autonomous vehicle includes a plurality of seats that can be occupied by passengers when riding in the autonomous vehicle. The autonomous vehicle is configured to assign a particular seat from the plurality of seats in the autonomous vehicle to a passenger based on information pertaining to the passenger and information pertaining to a ride-sharing trip. The autonomous vehicle is to transport at least the passenger and a differing passenger during at least a portion of the ride-sharing trip. Moreover, the passenger and the differing passenger independently request rides in the autonomous vehicle. The autonomous vehicle is further configured to output, to the passenger, an indication of the particular seat assigned to the passenger. |
| US12026639B2 |
Interactive technique for using a user-provided image of a document to collect information
In a collection technique, a user (such as a taxpayer) provides information (such as income-tax information) by submitting an image of a document, such as an income-tax summary or form. In particular, the user may provide a description of the document. In response, the user is prompted for the information associated with the field in the document. Then, the user provides the image of a region in the document that includes the field. Based on the image, the information is extracted, and the field in the form is populated using the extracted information. The prompting, receiving, extracting and populating operations may be repeated for one or more additional fields in the document. |
| US12026636B2 |
Cognitive platform for deriving effort metric for optimizing cognitive treatment
Adaptive modification and presentment of user interface elements in a computerized therapeutic treatment regimen. Embodiments of the present disclosure provide for non-linear computational analysis of cData and nData derived from user interactions with a mobile electronic device executing an instance of a computerized therapeutic treatment regimen. The cData and nData may be computed according to one or more artificial neural network or deep learning technique to derive patterns between computerized stimuli or interactions and sensor data. Patterns derived from analysis of the cData and nData may be used to define an effort metric associated with user input patterns in response to the computerized stimuli or interactions being indicative of a measure of user engagement or effort. A computational model or rules engine may be applied to adapt, modify, configure or present one or more graphical user interface elements in a subsequent instance of the computerized therapeutic treatment regimen. |
| US12026632B2 |
Response phrase selection device and method
A theme phrase feature value calculation unit 103 calculates a feature value Fq of a given theme phrase Q based on the cosine similarity with a feature keyword of a feature keyword DB 107b. A positive/negative example determination unit 104 applies the feature value Fq to a positive/negative example determination model to determine whether a response phrase A is a positive example or a negative example. A response phrase score calculation unit 105 calculates the cosine similarity between the theme phrase Q and a plurality of theme phrases that form a pair with a response phrase A determined to be a positive example, and the highest value of the calculated cosine similarity is set as a score of the response phrase A. A response phrase selection unit 106 selects the response phrase indicating the maximum score as the response phrase for the theme phrase Q. |
| US12026630B2 |
Artificial intelligence methods and systems for improving user adaptability using textual communication
An artificial intelligence system for improving user adaptability using textual communication includes a communication device, the communication device configured to initiate a textual communication session with a user input, and using the textual communication session, at least a first textual datum from the user, identify, using a language processing model, at least an adaption problem category using the at least a first textual datum, determine an adaptability profile of the at least a user, generate at least an adaption solution as a function of the at least a first textual datum, the at least an adaption problem category, and the adaptability profile, and output at least a second textual datum to the user as a function of the adaption solution. |
| US12026629B2 |
Generation-based evolution of non-player characters in a game
A method for configuring a character in a game includes generating a first non-player character of a first generation in the game, the first generation being associated with a first difficulty level, and detecting a target event affecting the first non-player character of the first generation in the game. The method further includes, based on the first non-player character of the first generation affected by the target event, obtaining an evolution indicator of an evolution from the first generation to a second generation associated with a second difficulty level higher than the first difficulty level. The method further includes, in response to the evolution indicator indicating that the evolution from the first generation to the second generation is successful, generating the second generation comprising two or more second non-player characters while one or more non-player characters of the first generation remain in the game. |
| US12026620B2 |
Information processing device and information processing method
There is provided an information processing device which efficiently executes machine learning. The information processing device according to one embodiment includes: an obtaining unit which obtains a source code including a code which defines Forward processing of each layer constituting a neural network; a storage unit which stores an association relationship between each Forward processing and Backward processing associated with each Forward processing; and an executing unit which successively executes each code included in the source code, and which calculates an output value of the Forward processing defined by the code based on an input value at a time of execution of each code, and generates a reference structure for Backward processing in a layer associated with the code based on the association relationship stored in the storage unit. |
| US12026619B1 |
Slimmable neural network architecture search optimization
Disclosed are systems and methods to perform neural architecture search (“NAS”) that automatically optimizes for the number of channels to allocate to each layer of a deep neural network. Some implementations include a pairwise slimming that includes a global optimization step. Likewise, in some implementations, a bias toward a region of interest may be applied to channel path selection during training. |
| US12026616B2 |
Preparation method of high resistance gallium oxide based on deep learning and vertical bridgman growth method
The present application discloses a preparation method of high resistance gallium oxide based on deep learning and vertical Bridgman growth method. The prediction method comprises: obtaining a preparation data of the high resistance gallium oxide single crystal, the preparation data comprises a seed crystal data, an environmental data, a control data and a raw material data, and the raw material data comprises a doping type data and a doping concentration; preprocessing the preparation data to obtain a preprocessed preparation data; inputting the preprocessed preparation data into a trained neural network model, and obtaining a predicted property data corresponding to the high resistance gallium oxide single crystal through the trained neural network model, the predicted property data comprises a predicted resistivity. |
| US12026614B2 |
Interpretable tabular data learning using sequential sparse attention
A method of interpreting tabular data includes receiving, at a deep tabular data learning network (TabNet) executing on data processing hardware, a set of features. For each of multiple sequential processing steps, the method also includes: selecting, using a sparse mask of the TabNet, a subset of relevant features of the set of features; processing using a feature transformer of the TabNet, the subset of relevant features to generate a decision step output and information for a next processing step in the multiple sequential processing steps; and providing the information to the next processing step. The method also includes determining a final decision output by aggregating the decision step outputs generated for the multiple sequential processing steps. |
| US12026612B2 |
Optimization of parameter values for machine-learned models
A computer-implemented method can include receiving, by one or more computing devices, one or more prior evaluations of performance of a machine learning model, the one or more prior evaluations being respectively associated with one or more prior variants of the machine-learning model, the one or more prior variants of the machine-learning model each having been configured using a different set of adjustable parameter values. The method can include utilizing, by the one or more computing devices, an optimization algorithm to generate a suggested variant of the machine-learning model based at least in part on the one or more prior evaluations of performance and the associated set of adjustable parameter values, the suggested variant of the machine-learning model being defined by a suggested set of adjustable parameter values. |
| US12026611B2 |
Method and apparatus for quantizing parameters of neural network
A method of quantizing parameters of a neural network includes calculating, for each of the parameters, a bit shift value indicating a degree outside a bit range of a fixed-point format for quantizing the parameters, updating the fixed-point format based on the calculated bit shift values of the parameters, and quantizing parameters updated in a learning or inference process according to the updated fixed-point format. |
| US12026610B2 |
Reinforcement learning by sharing individual data within dynamic groups
Methods and systems for reinforcement learning with dynamic agent grouping include gathering information at a first agent using one or more sensors. Shared information is received at the first agent from a second agent. An agent model is trained at the first agent using the gathered information and the shared information. A contribution of the shared information is weighted according to a degree of similarity between the first agent and the second agent. An action is generated using the trained agent model responsive to the gathered information. |
| US12026605B2 |
FeFET unit cells for neuromorphic computing
A circuit structure includes a first ferroelectric field effect transistor (FeFET) having a first gate electrode, a first source electrode, and a first drain electrode and a second FeFET having a second gate electrode, a second source electrode, and a second drain electrode. The first gate electrode is connected to a wordline, and the first source electrode and the second source electrode are connected to a bitline. The first drain electrode is connected to the second gate electrode and the second drain electrode is connected to a bias line. A weight synapse structure is constructed by combining two circuit structures. A plurality of weight synapse structures are incorporated into a crossbar array. |
| US12026597B2 |
Device identifier classification
An example method can include tracking, by a network device, a plurality of attributes associated with a plurality of unique client device identifiers stored in a tracking table; deriving, by the network device, a training data set based on the plurality of attributes; and generating, by the network device, a plurality of clusters by inputting the derived training data set to an unsupervised machine learning mechanism. The example method can include receiving, by the network device, a labeling of the plurality of unique client device identifiers in the tracking table based at least on the plurality of clusters; generating, by the network device, a plurality of classifiers by inputting the labelled tracking table to a supervised machine learning mechanism; and classifying, by the network device, a new unique client device identifier in the tracking table based at least on the plurality of classifiers. |
| US12026596B2 |
Computerized system and method for adaptive stranger detection
Disclosed are systems and methods for improving interactions with and between computers in computerized security and content monitoring, hosting and providing devices, systems and/or platforms. The disclosed systems and methods provide a novel framework that adaptively distinguishes between known people versus unknown people based on a dynamically applied, anonymous facial recognition methodology. The disclosed framework provides such functionality by recognizing faces within captured images without storing any information or annotations regarding or revealing the captured person's identity. The framework is configured to adaptively learn to distinguish between faces seen for the first time and faces it has previously seen by locally processing a captured image and only sending face embeddings to a network location for future comparisons of subsequently, anonymously captured images. |
| US12026595B2 |
Method and system for detecting building objects installed within a building
Various embodiments of the teachings herein include a building object detection system for a building comprising: a scanner to generate scan data; an artificial intelligence module implemented on a processing unit trained to process the scan data to detect and automatically classify building objects installed within the space; a database to store different types of building objects and associated installation rules; and a verification unit to verify the classification of a building object based on compliance with the installation rules. The AI is trained using labeled training data comprising labels derived from scan data of previously scanned building objects provided with associated object identifiers. A second set of installation rules is loaded from the database based at least in part on a location of the building. |
| US12026591B2 |
Classification in hierarchical prediction domains
There is a need for solutions that classification solutions in hierarchical prediction domains. This need can be addressed by, for example, performing one or more online machine learning, co-occurrence analysis machine learning, structured fusion machine learning, and unstructured fusion machine learning. In one example, structured predictions inputs are processed in accordance with an online machine learning analysis to generate structurally hierarchical predictions and in accordance with a co-occurrence analysis machine learning analysis to generate structurally non-hierarchical predictions. Then, the structurally hierarchical predictions and the structurally non-hierarchical predictions in accordance with processed by a structured fusion model to generate structure-based predictions. Afterward, the structure-based predictions and non-structure-based predictions are processed in accordance with an unstructured fusion model to generate one or more unstructured-fused predictions. |
| US12026587B2 |
Adaptive basis selection for fusion measurements
A quantum computing system and methods for performing fault-tolerant quantum computing. A fusion controller sequentially performs a series of fusion measurements on different fusion sites of a plurality of fusion sites to obtain a respective series of classical measurement results. The series of fusion measurements is performed on quantum modes of a logical qubit. For respective fusion measurements of the series of fusion measurements, a basis for performing the respective fusion measurement is selected based on classical measurement results of previous fusion measurements. The series of classical measurement results are in the memory medium. |
| US12026584B2 |
Optically multiplexed quantum control interface
A qubit control system for a quantum computer includes an optical waveguide configured to receive and transmit therethrough a wavelength division multiplexed optical signal which has a plurality of modulated optical carriers, each optical carrier being at a different optical wavelength and carrying a digital qubit control signal; an optical demultiplexer optically coupled to the optical waveguide to receive the multiplexed optical signal to recover the plurality of modulated optical carriers; a plurality of photodetectors in communication with the optical demultiplexer; a plurality of cryogenic filters in communication with the plurality of photodetectors, each being configured to filter corresponding one of the plurality of digital qubit control signals to provide a corresponding one of a plurality of analog qubit control signals which is directed to a corresponding superconducting qubit and the photodetectors. The cryogenic filters are provided at a cryogenic temperature. |
| US12026581B2 |
Wearable scanner
Some embodiments of the present disclosure provide a wearable scanner. The wearable scanner includes: a scanner body and a wearable portion. A wearing space for a user to wear is formed between the scanner body and the wearable portion; the wearable portion includes at least one adjusting section configured for adjusting a length of the wearable portion; the adjusting section includes a plurality of hole structures that are disposed in a circumferential direction of the wearable portion, and a plurality of air-permeable grooves formed by hole walls of the hole structures in a matching manner are provided on a surface of the adjusting section facing the wearing space. |
| US12026577B2 |
Systems and methods of user identification verification
Systems and methods for user identification (ID) document verification are provided. An exemplary method includes receiving, by a client device, an image of an ID document. Based on the image of the ID document, a determination is made whether the ID document includes a near-field communications (NFC) chip that stores an ID photo associated with the ID document. Based on this determination of whether the ID document includes an NFC chip, the ID document is verified by selectively using at least one of NFC chip authentication and optical authentication, to obtain a verification result. |
| US12026576B2 |
Electromagnetic state sensing devices
A container includes a surface defining a volume of the container, a first resonance portion disposed on a first portion of the surface of the container using one or more first carbon-based inks, and a second resonance portion disposed on a second portion of the surface of the container using one or more second carbon-based inks different than the one or more first carbon-based inks. The first resonance portion can resonate within a first range of frequencies in response to one or more electromagnetic pings received from a user device, and the second resonance portion can resonate within a second range of frequencies in response to the one or more electromagnetic pings, the second range of frequencies being different than the first range of frequencies. In some instances, the user device may be a smartphone, a radio frequency identification (RFID) reader, or a near-field communication (NFC) device. |
| US12026575B2 |
Animal motion and temperature monitoring
A computer system and method for identifying and monitoring animals in a confined space. A tracking apparatus is provided in proximity to the confined space that defines a plurality of separate individual tracking regions for the confined space. Each of a plurality of animals to be disposed in the confined space is associated respectively with a detection component operable to identify and detect a temperature of an animal it is associated with when detected by the tracking apparatus. Data is received in a computer monitor system from a detection component when detected by the tracking apparatus in the confined space wherein the received data includes motion and temperature data relating to an animal when located in the confined space. The tracking apparatus detects multiple animals simultaneously located in an individual tracking region. Utilizing the received data associated with an animal in the confined space, an animal's motion and temperature data is correlated to an individual tracking region an animal is located within. |
| US12026573B2 |
Method for switching scanner buttons, apparatus, storage medium, and scanner
The present disclosure provides a method for switching scanner buttons, an apparatus, a storage medium, and a scanner. The method comprises: scanning a barcode and obtaining barcode data; determining whether the barcode data matches preset button switching barcode data; in a case that the barcode data matches the button switching barcode data, switching an active button bit for waking up a scanner from a button at the current side to a button at the other side. |
| US12026569B2 |
Display method of electronic identification device, controller, electronic identification device and system
A display method of an electronic identification device, a controller, an electronic identification device and a system are provided. The display method includes: controlling the electronic identification device to enter a working state from a sleep state, and obtaining to-be-displayed data; power consumption corresponding to the electronic identification device in the sleep state being lower than power consumption corresponding to the electronic identification device in the working state; and refreshing the to-be-displayed data to an electronic ink screen for display through a serial peripheral interface bus, and controlling the electronic identification device to enter the sleep state again after the refreshing is completed. |
| US12026567B2 |
Circuit for passive radio-frequency identification tag comprising a strain sensor and method for manufacturing a circuit
A circuit for a passive radio-identification tag operating in a UHF band is described, configured for a radio communication with a reader that emits a reading signal. The circuit is produced as a single chip, comprising one or more transducers for measuring a strain, a first sub-circuit configured for the acquisition of the transducer measurement, and a second sub-circuit configured for the radio transmission of the acquired measurement to the reader. |
| US12026563B1 |
Automated dynamic barcode content update modes
A system includes a memory device and a processing device. The processing device is operatively coupled to the memory device to perform operations including receiving, from a user device, a request for content accessible via a dynamic barcode, identifying, from a database, a mode variable specifying a mode of operation for updating the content, obtaining, from a mode table of the database corresponding to the mode of operation, mode table data, and causing, based on the mode table data, the content to be provided to the user device. |
| US12026562B2 |
Industry opinionated API managed service
Systems and methods for implementing an industry opinionated managed service are disclosed. A request from a client is received that includes a set of application programming interface (API) parameters comprising an industry type selection. An API managed service is implemented based on the set of API parameters, which includes creating a client-specific API and provisioning a set of backend resources based on the set of API parameters. The API managed service is deployed to an operational cloud, and one or more commands are processed at the operational cloud through the client-specific API utilizing the provisioned set of backend resources. |
| US12026560B2 |
Enhanced integration of spreadsheets with external environments
An enhanced integration of spreadsheet environments and external environments is disclosed herein that allows users to enter non-native statements directly into the cells of a worksheet so that external resources can be applied with respect to their values. In addition, a security model is disclosed whereby external functions referenced in the cells of a worksheet are executed in the context of a runtime environment that is secured apart from the spreadsheet application that hosts the worksheet. Various enhancements to the user experience are also disclosed that allow users to enter non-native statements in line with respect to the functional syntax that forms the basis of spreadsheet formulas. |
| US12026559B2 |
Processing state changes to applications
Some embodiments provide a program. The program receives a state change that occurred for an event created by an application. The event includes a creator of the event, a set of objects, and a set of sources. The program further identifies a schema definition in a plurality of schema definitions based on a type of the state change that occurred for the event. Each scheme definition in the plurality of schema definitions specifies a type of state change and a set of information associated with the event. The program also generates a message comprising the set of information associated with the event specified in the identified schema definition and a set of targets. The program further sends the message to a message management platform in order for the message management platform to send to an application for presentation to each target in the set of targets through a web portal provided by the application. |
| US12026557B2 |
Method and system for a utilizing a proxy service to generate a composed information handling system
In general, the invention relates to providing computer implemented services using information handling systems. One or more embodiments of the invention includes identifying a hardware resource requirement in a composition request for a composed information handling system, wherein the hardware resource requirement specifies a hardware resource with data transformation functionality (DTF), identifying a hardware resource that does not have the DTF, connecting the hardware resource to a DTF container, wherein the DTF container implements the DTF and emulates the hardware resource with DTF, and initiating composition of the composed information handling system using the DTF container, wherein the DTF container satisfies the hardware resource requirement. |
| US12026554B2 |
Query-response system for identifying application priority
A resource management system receives a set of application priorities. The resource management system determines, based at least in part on the received set of application priorities, a resource allocation corresponding to a proposed distribution of the computing applications and the users amongst the computing devices of a computing infrastructure. The resource management system determines, using the resource allocation, a recommended device configuration for each of the computing devices. The resource management system automatically implements the determined resource allocation using the device configuration determined for each of the computing devices. |
| US12026552B1 |
Method and system for allocating on-chip memory of neural processing unit
A method for allocating on-chip memory of a neural processing unit is performed by one or more processors, and includes deallocating an allocated chunk in an on-chip memory area, which is finished with the use of the memory, and converting it into a cached chunk, receiving an on-chip memory allocation request for specific data, determining whether there is a cached chunk of one or more cached chunks that is allocable for the specific data, based on a comparison between a size of the specific data and the size of the one or more cached chunks, and based on a result of determining whether there is the cached chunk that is allocable for the specific data, allocating the specific data to a specific cached chunk of the one or more cached chunks, or allocating the specific data to at least a portion of the free chunk. |
| US12026550B1 |
Cryptomining heat management
In an example method, a system accesses sensor data representing a temperature of one or more computer chips of a computer system configured to perform a cryptographic operation, and determines that the temperature has exceeded a threshold temperature. In response, the system dynamically adjusts a target computing performance of the one or more computer chips. Dynamically adjusting the target computing performance includes decreasing the target computing performance of the one or more computer chips by a first level; subsequent to decreasing the target computing performance of the one or more computer chips by the first level, determining that the temperature is less than the threshold temperature; and responsive to determining that the temperature is less than the threshold temperature, incrementally increasing the target computing performance of the one or more computer chips by a second level, where the first level is greater than the second level. |
| US12026547B2 |
Method and system for arranging business process, computing device, and non-transitory computer readable storage medium
A method and a system for arranging business process, a computing device, and a non-transitory computer readable storage medium are provided. The method includes: receiving an application module and a business process rule that are transmitted by a user terminal, wherein the application module is configured to indicate a processing logic in a link in a business process, and wherein the business process rule is configured to indicate a processing rule of the application module; determining a target edge device corresponding to the application module; and transmitting the application module and the business process rule to the target edge device for the target edge device to execute the application module according to the business process rule. |
| US12026544B2 |
Self-play to improve task-oriented dialog systems and methods
An automatic agent may be trained using reinforcement learning. A secret task may be obtained for a simulated user, and the secret task may be unknown to the automatic agent. At least one instruction to complete the secret task may be obtained from the simulated user according to at least one RL policy. At least one action may be generated by the automatic agent based on the at least one instruction and the at least one RL policy. Rewards may be determined for the simulated user and the automatic agent in response to determining that the at least one action successfully completes the secret task. The at least one RL policy may be adjusted based on the determined rewards. |
| US12026543B2 |
Cooperative computing device and cooperative computing method thereof
The present invention discloses a cooperative computing device, wherein a task dispatching module receives a plurality of original image frames and dynamically dispatches the original image frames as a first amount of original image frames and a second amount of original image frames based on a loading result. A first computing module and a second computing module, which are of different types, respectively receive the first amount and the second amount of original image frames and respectively generate a first amount and a second amount of processed image frames. An image sorting module receives the first amount and the second amount of processed image frames, sorts and recovers the processed image frames based on a first timing sequence, and generating the loading result. The present invention also discloses a cooperative computing method which corresponds to the cooperative computing device. |
| US12026542B2 |
Optimizing deployment of machine learning workloads
A system for optimizing deployment of a machine learning workload is provided. A computer device receives information pertaining to a machine learning workload to be processed for a client device. The computer device determines a machine learning model for the workload and a processing location for the workload based, at least in part, on the information. The computer device generates a request to process the workload at the determined processing location utilizing the determined machine learning model. |
| US12026540B2 |
Working memory management
Methods, computer program products, and systems are presented. The method computer program products, and systems can include, for instance: predicting, with use of one or more predictive model, subsequent future state data of a computing node having an associated working memory, wherein the subsequent future state data specifies that a certain transaction currently uninvoked will be invoked by the computing node; prior to the invoking of the certain transaction, proactively establishing one or more control parameter value for controlling the working memory in dependence on the future state data; invoking the certain transaction in response to receipt, by the computing node, of transaction invoking request data for invoking the certain transaction; and executing the certain transaction in dependence on at least one control parameter value of the one or more control parameter value for controlling the working memory. |
| US12026539B2 |
Service creation and management
Concepts and technologies are disclosed herein for service creation and management. A processor can detect an event relating to a service, and access a service creation database to identify a recipe associated with the service. The recipe can define a resource to be used to provide the service. The processor can access an inventory to determine if the resource is available, identify a service control to control the service, instruct an infrastructure control to allocate virtual machines to host components of the service, and issue instructions to the service control. The instructions can instruct the service control to load service functions to the virtual machines. |
| US12026538B2 |
Distributed and associative container platform system
Provided is a distributed and associative container platform system which has an advantage of providing flexible movement of services and infinite extension of computing resources by interconnecting regionally distributed multiple container platforms and enhancing security. |
| US12026536B2 |
Rightsizing virtual machine deployments in a cloud computing environment
The present disclosure relates to systems, methods, and computer readable media for rightsizing virtual machine deployments on a cloud computing system. For example, systems disclosed herein may predict utilization of resources for a customer deployment and determine a desired goal state including a deployment of virtual machines having rightsized specifications that align more closely with the predicted utilization. Systems disclosed herein may utilize the goal state in view of the deployment data, policies, and other information to determine an action plan including deployment actions for transitioning a current state of a customer deployment to the goal state. By rightsizing virtual machine deployments, systems described herein may affect more efficient utilization of cloud computing resources and decrease costs associated with over-allocation of cloud computing resources. |
| US12026531B2 |
Methods and systems for emulating application-specific workstations on personal computers
Provided are methods and systems which transform a general purpose computer into a secure and dedicated remote work station by enabling the computer to be booted using an operating system stored on a connected portable storage device and by executing the operating system from volatile memory in a secure and efficient manner. |
| US12026527B2 |
World-controlled and application-controlled augments in an artificial-reality environment
The present disclosure provides world-controlled augments and application-controlled augments. World-controlled augments can be controlled directly by a shell in the artificial reality environment. To allow even inexperienced users to develop world-controlled augments, a world-controlled builder system is provided. Application-controlled augments may be resource intensive (e.g., using eye-tracking, social-media tie-ins, etc.), may support complicated interactions among themselves, may require or have extensive use of inputs and permissioned resources, and are controlled by their hosting application. When a running application is halted, the application closes its application-controlled augments but can choose to have the XR system run a “place-holder” world-controlled augment for as long as the application is not running. The place-holder world-controlled augment preserves the appearance of the application in the artificial reality environment but uses few system resources. Upon a user selecting a place-holder world-controlled augment, the XR system can run the associated application and close the place-holder world-controlled augment. |
| US12026525B2 |
Dynamic dashboard administration
Methods and systems for dynamic dashboard administration are presented. Embodiments include displaying a dashboard through a graphical user interface (‘GUI’); receiving user instructions to manipulate one or more elements of the dynamic dashboard; capturing the manipulation of the one or more GUI elements; parsing, according to a gesture taxonomy and gesture ontology, the captured manipulation into one or more gesture triples; storing the gesture triples in an enterprise knowledge graph of a semantic graph database; identifying, in dependence upon the gesture triples, dashboard insights; updating the dashboard in accordance with the dashboard insights. |
| US12026522B2 |
Automatic application dependency management
A database of deployed configurations, as well as attempted configurations that failed is maintained and used as reference to compare against configurations of attempted software deployments. Upon detecting a failed deployment, disclosed embodiments search the database for working configurations that most closely resemble the failed configuration, and rank the configurations based on various criteria. Disclosed embodiments may then automatically select a highest ranked working configuration, and perform an automatic upgrade of the necessary components to create a working configuration. |
| US12026519B2 |
Control method and device for powering timing
A control method for powering timing, performed by a controller, includes: performing a delay modulation procedure when triggered by a delay modulation command, wherein the delay modulation procedure includes: after a delay duration has passed, determining whether a number of output voltage values of a number of voltage converters reach a number of target levels respectively, wherein the target levels correspond to the output voltage values respectively. The method further includes: if any one of the output voltage values does not reach a corresponding one of the target levels, increasing the delay duration according to a first default interval and updating the delay duration, and performing the delay modulation procedure when triggered by the delay modulation command again; and if the output voltage values reach the target levels respectively, outputting a power good signal to a central processing unit, for the central processing unit to perform a booting procedure. |
| US12026517B2 |
Communicating between browsers and native applications
In one example of the present disclosure, a method for establishing communication between a browser and a native application is disclosed. The method may be initiated by executing a browser extension associated with the browser. The method may execute a native host to initiate startup of the native application. The native host may interface with the native application to establish bidirectional communication between the native host and the native application. The native host may also interface with the browser extension to establish bidirectional communication between the native host and the browser extension to connect the browser and the native application. |
| US12026515B2 |
Instruction fusion
A data processing apparatus includes detection circuitry that detects a parent instruction and a child instruction from a stream of instructions. The parent instruction references a destination register that is referenced as a source register by the child instruction. Adjustment circuitry then adjusts the child instruction to produce an adjusted child instruction whose behaviour is logically equivalent to a behaviour of executing the parent instruction followed by the child instruction. |
| US12026508B2 |
Methods for automated configuration management in platform-as-a-service environments and devices thereof
Methods, non-transitory computer readable media, and platform-as-a-service (PaaS) server devices are disclosed that obtain commit metadata from a version control system (VCS) via communication network(s). The VCS is located on-premises and is associated with an enterprise and the commit metadata comprises an indication of file(s) committed to the VCS by enterprise user(s). A determination is made that at least a portion of the indication for at least one of the file(s) matches a stored pattern. The one of the file(s) comprises a configuration file. Contents of the configuration file are retrieved from the VCS via the communication network(s). The contents comprise configuration data associated with information technology infrastructure associated with the enterprise. A database associated with an instance of a platform is updated to include at least a portion of the configuration data. The platform instance is associated with the enterprise and hosted within a PaaS environment. |
| US12026507B2 |
Method and apparatus for providing platform-integrated SDK capable of developing multiple platforms with single source code
A method for providing a platform-integrated SDK capable of developing multiple platforms with single source code, includes: receiving, from a user, a build instruction in which any one of the multiple platforms is designated as a build target platform, with respect to source code integrally written for the multiple platforms; importing a software development kit (SDK), among pre-stored SDKs, corresponding to the build target platform; building the source code after the SDK is imported; and providing the built object file to the user. |
| US12026504B2 |
Control system and control method of control system
A control system for a vehicle includes: a power source; a first power line; a second power line; a first relay; a second relay; at least one first control device; and at least one second control device. The first control device is configured to transmit a trigger signal to the second control device on condition that the first control device has detected that the first relay has been turned from off to on, and enable a first update program after transmitting the trigger signal. The first update program is an updated version of the first current program. The second control device is configured to enable a second update program on condition that the second control device has received the trigger signal from the first control device. The second update program is an updated version of the second current program. |
| US12026500B2 |
Software update device, server, software update system, and software update method
An external communication unit receives, from a server, update information including information indicating an update target device whose software is to be updated among devices and information indicating a generation source device among the devices, the generation source device being installed with generation source software that is a source for generating update data to be used for updating update target software installed in the update target device. An update data generating unit generates, on the basis of the update information, the update data using the generation source software installed in a host device of the update data generating unit, when the host device is the generation source device. A software update unit updates, on the basis of the update information, the update target software installed in a host device of the software update unit using the generated update data, when the host device is the update target device. |
| US12026499B2 |
Device and method for controlling OTA update of vehicle
A device and a method for controlling OTA update of a vehicle, to automatically set an optimal current consumption regardless of a vehicle model and an option for each vehicle model, includes a sensor configured for measuring a current consumption of a battery provided in the vehicle, and a controller that sets an initial current consumption to the vehicle, determines whether the OTA update is possible based on the initial current consumption and an expected over the air (OTA) update time, and determines an optimal current consumption based on the initial current consumption and an average current consumption during the OTA update. |
| US12026494B2 |
Dynamic automation of prerequisite component deployment in disconnected environments
Systems and methods analyze for installing dependencies required for the installation of prerequisite components of cloud infrastructure to be installed in a disconnected environment are presented herein. An automation playbook generated after an assessment of a disconnected environment may be analyzed to determine a set of dependencies required by the automation playbook (e.g., packages and files required by each installation playbook called by the automation playbook). Each of the dependencies may be brought into the disconnected environment and installed as operating system packaging units, or deployed as containerized services. After all of the dependencies have been installed, a processing device may generate an installation report indicating whether the installation of each prerequisite component was successful or not. Upon determining that each of the prerequisite components was successfully installed, the processing device may install the cloud infrastructure on the disconnected environment. |
| US12026493B2 |
Docker image creation apparatus and method
Disclosed herein are a Docker image creation apparatus and method. The Docker image creation apparatus may include one or more processors, and execution memory for storing at least one program that is executed by the one or more processors, wherein the at least one program is configured to create a Docker image based on a previous Docker file, and executing a push command to store the created the Docker file to a registry, wherein the Docker file is created from a partial Docker file of the previous Docker file, wherein the Docker image is created from a verified partial Docker file, after the partial Docker file is verified. |
| US12026492B2 |
Method and system for obtaining download information of application for managing IoT devices
A method for obtaining download information of an application includes: a first device reading tag data of a second device; a second server receiving a first request that carries identification information of the second device and application supporting capability information of the first device. The identification information is associated with the tag data and the first request is used for obtaining download information of a device management application from the second server. |
| US12026491B2 |
System architecture for pattern-based software applications
Systems and methods for providing a pattern-based cloud architecture facilitating deployment of pattern-based cloud applications are presented. The pattern-based cloud architecture comprises a base layer having one or more bases, a landing zone layer comprising one or more landing zones within each base, and an application pattern layer comprising one or more application patters for each landing zone. Each base provides base services and/or parameters common to all landing zones associated with such base. Each landing zone adds services and/or parameters specific to such landing zone, while inheriting those of the associated base. Application patterns define the requirements and capability of cloud-based applications that can be run within each associated landing zone. |
| US12026490B2 |
Method for obtaining vehicle diagnosis software, server and diagnosis device
Provided are a method for obtaining vehicle diagnosis software, a server and a diagnosis device. In the method, the diagnosis device sends an acquisition request of target diagnosis software to the server based on a target vehicle, where the acquisition request includes a vehicle identification code; the server determines whether the target vehicle has an authorization qualification of the target diagnosis software based on the acquisition request, to obtain a determination result; the server performs an operation based on the determination result. Only the target vehicle with the authorization qualification can download the software, realizing the flexible configuration of the diagnosis device and configuring the diagnosis device based on user's actual requirement to complete the vehicle diagnosis, and reducing waste of resources. |
| US12026486B2 |
Scalable cross-boundary edge framework
A build of a software solution that is cooperatively performed is automated. A broadcasting computing entity selects a selected set of functional operations from one or more sets of functional operations associated with the software solution and then broadcasts a request to perform each of the functional operations in the selected set. Each of a plurality of listening computing entities connected to the network receives the request and determines capability of performing each of the functional operations in the selected set. After determining itself capable, a capable one of the plurality of listening computing entities transmits a response to the request indicating such capability, and then performs each of the functional operations in the selected set, thereby generating and transmitting to the broadcasting computing entity the output of the selected set of functional operations. The broadcasting computing entity then performs an action using the output of the functional operation received. |
| US12026485B2 |
Method for generating source code
A method for generating source code from one or more blocks of a block diagram that comprises at least two non-virtual blocks and at least one signal link between two non-virtual blocks includes: transforming the block diagram into an intermediate representation, wherein transforming the block diagram into the intermediate representation comprises transforming a first block having access to a multi-component variable; successively optimizing the intermediate representation; and translating the optimized intermediate representation into source code. Transforming the first block comprises: testing whether a block pair made up of the first block and an adjacent block comprises an equal assignment; and removing any assignments in which a reference to the same variable exists on both sides. |
| US12026481B2 |
Systems and methods for creating software from library and custom components
Methods and systems are disclosed that automate and institutionalize many aspects of the process of creating software. Embodiments automate aspects of pricing, software creation, and delivery using a manufacturing-styled approach to development that reuses existing code and other existing software design features. |
| US12026477B2 |
Systems and methods for generating enhanced data metrics
A system and method for isolating electronic data and generating enhanced data. A data subscription unit receives data having plural data formats from data source devices. The data may be received pre-filtered or filtered by the data subscription unit. A modeling unit may receive the filtered data from the storage databases, may determine eligibility of the stored data based on eligibility criteria, sort the eligible data based on at least one sorting parameter, adjust and/or normalize the eligible data based on at least one adjustment parameter and/or an aggregate value for a data attribute, generate data metrics over a defined set of time periods based on the eligible data, generate further data metrics based on the data metrics, and derive specified values from these metrics. A data distribution device may transmit or make available the data metrics, further data metrics and values to remote devices. |
| US12026475B2 |
Predicting service issues
Examples are described herein for facilitating responses to computing device service requests. In various examples, natural language processing may be performed on a plurality of incoming computing device service requests associated with a plurality of computing devices. A plurality of embeddings corresponding to the plurality of computing device service requests may be generated based on the natural language processing. Based on distances between each of a particular subset of the embeddings in an embedding space, a trending service issue associated with the computing device service requests corresponding to the particular subset may be predicted. The trending service issue may be provided to a computing device servicer associated with resolving a new incoming computing device service request. |
| US12026471B2 |
Automated generation of chatbot
The present disclosure relates to automated chatbot generation for different domains from available human-to-human chat logs. The systems and methods may be configured to cluster user utterances as well as agent utterances from the human chat logs. A data miner mines intents and entities from the user utterance clustering and mines actions from agent utterances. The intents, entities and actions mined are used to generate a set of stories or flows which are further used by a machine learning engine to train the chatbot. The stories or flows are also generated automatically by mapping the intents with the actions. |
| US12026470B2 |
Method and system for bridging a gap between disparate platforms that remove the need for a user to switch between the disparate platforms
Various techniques are disclosed, including receiving at a multiplatform management system a communication from a computing device via a groupware platform, the multiplatform management system interfacing with multiple disparate platforms including the groupware platform and an image processing platform, determining an event type based on the communication from the computing device to identify a cloud platform to be selected from among the plurality of disparate platforms based on a detection of one of the image or the text in the communication from the groupware platform; and identifying an action to be performed by the selected cloud platform based on the determined event type. |
| US12026462B2 |
Word embedding model parameter advisor
Methods, systems and computer program products for determining recommended parameters for use in generating a word embedding model are provided. Aspects include storing a plurality of meaningful test cases. Each meaningful test case includes a test data profile and one or more test model parameters used to create a word embedding model that has been classified as yielding meaningful results. Aspects include receiving a production data set to be used in generating a new word embedding model. The production data set includes data stored in a relational database having a plurality of columns and a plurality of rows. Aspects include generating a data profile associated with the production data set. Aspects include generating a recommendation for one or more production model parameters for use in building a word embedding model based on the data profile associated with the production data set and the plurality of meaningful test cases. |
| US12026460B2 |
Dialogue data generation device, dialogue data generation method, and program
To make it possible to generate dialogue data for generating a question sentence to deeply delve conversation at a low cost. For each of a plurality of pieces of data each including a set of a first utterance sentence that is a sentence uttered by a first user, a second utterance sentence that is a sentence uttered by a second user and is a response to the first utterance sentence, and a third utterance sentence that is a sentence uttered by the first user and is a response to the second utterance sentence, a dialogue data generation unit 110 generates a set of the first utterance sentence of the data and the second utterance sentence of the data as dialogue data when the second utterance sentence of the data is a question sentence using an interrogative. |
| US12026457B2 |
Utilizing dynamic interface elements to improve user interfaces
The present disclosure relates to utilizing a dynamic visual elements system to improve operations and interfaces of client applications by detecting when user accounts associated with tokenized or alternative account information are provided for user accounts, generating dynamic visual elements based on the tokenized account information, and intelligently integrating the dynamic visual elements into one or more user interfaces associated with fillable forms. In some implementations, the dynamic visual elements system generates and integrates selectable visual elements and/or visual overlay elements into user interfaces with respect to tokenized user account information in a manner that reduces visual clutter as well as eliminates user confusion regarding tokenized user accounts and their relationship to regular user accounts. |
| US12026456B2 |
Systems and methods for using optical character recognition with voice recognition commands
Systems and methods for using optical character recognition (OCR) with voice recognition commands are provided. Some embodiments include receiving a user interface that includes a text field, capturing an image of at least a portion of the user interface, and performing OCR on the image to identify the text field and a word in the user interface. Some embodiments include mapping a coordinate of the word in the text field, receiving a voice command that includes the word, and navigating, by the computing device, a cursor to the coordinate to execute the voice command. |
| US12026452B1 |
Confidentiality filter for AI content enhancement
A method of enabling a remotely hosted AI to enhance a document while withholding sensitive information from the AI includes identifying sensitive terminology associated with the sensitive information and replacing by an exclusion filter of the sensitive terminology with redaction markers that cannot be interpreted as misspelled words or coined terms, thereby creating a redacted draft that is submitted to the AI. Upon receiving an enhanced, redacted draft from the AI, the original sensitive terminology is restored in place of the redaction markers, and the resulting enhanced document is delivered to a user. Sensitive terms can be local or global. Globally sensitive terms can be stored in databases directed to categories of sensitive information. Sensitive terms can include indicators directed to sensitive numerical quantities and/or other targets. In embodiments, the exclusion filter automatically corrects any grammatical errors arising from replacement of the redaction markers by the original sensitive terminology. |
| US12026449B1 |
Document storage system
A document storage system includes a document digitizing device making an electronic copy of a document. A Liquid neural network (LNN) annotates the video files with document terms producing an annotated document. A semantic analyzer generates a relationship between document terms. A blockchain based data transaction forwards the annotated document to a server. A photonic spiking neural network (PSNN) server uploads and downloads annotated documents from the server. The interface will be changed automatically based on the individual's physical characteristics. |
| US12026446B2 |
Method and apparatus applicable for voice recognition with limited dictionary preliminary class
One embodiment includes an apparatus, with materials having a text sub file with texts, an illustration sub file with illustrations, and a logic sub file with instructions for presenting at least a part of the materials. One embodiment includes materials with a logic sub file that can analyze an attribute of, and provide a response to, a user. Another embodiment is applicable to apparatus and methods using a limited voice recognition dictionary at least tailored for a piece of materials that includes illustrations. The piece of materials includes instructions. The another embodiment can also use a limited image dictionary. The apparatus can include a headset, and the illustrations can include a piece of audio. The apparatus can be implemented in a vehicle. |
| US12026444B2 |
Dynamic port handling for isolated modules and dynamic function exchange
Dynamic port handling for circuit designs can include inserting, within a static isolated module of a circuit design, static drivers configured to drive isolated modules of reconfigurable module (RM) instances for inclusion in an RM of the circuit design. For each RM instance of a plurality of RM instances to be inserted into the RM, one or more additional ports can be inserted in the RM based on a number of isolated modules included in a current RM instance. Further, net(s) corresponding to the additional port(s) can be created. The circuit design, including the current RM instance, the additional port(s), and the net(s), can be placed and routed. Prior to the inserting and the performing place and route for a next RM instance to be inserted into the RM, the current RM instance can be removed from the RM along with the additional port(s) and the net(s). |
| US12026443B2 |
Recording medium, computing method, and computing device
A non-transitory computer readable recording medium includes simulation data input into a computing device executing a simulation of a semiconductor device, wherein the simulation data includes part shape information describing shape and terminal information of the semiconductor device, logical model information describing operation and connection information of an element in the semiconductor device, and functional block information describing positional information of a functional block in the semiconductor device, and the computing device causes the part shape information, the logical model information, and the functional block information to correspond to each other to execute the simulation of the semiconductor device. |
| US12026434B2 |
Method and apparatus for providing an updated digital building model
A method for providing an updated digital building model is provided. The method includes the following steps: a) providing a digital building model for a physical building, b) ascertaining a virtually accessible area within the digital building model, c) capturing real data obtained by a number N of data sources, where N≥1, wherein the real data include data from a real accessible area within the physical building that corresponds to the virtually accessible area, and d) updating the virtually accessible area within the digital building model by the captured real data of the real accessible area to provide the updated digital building model. This means that when there is a need to evacuate a physical building, there are updated virtually accessible areas present, and hence these can be taken as a basis for providing an updated evacuation plan for evacuating people. |
| US12026430B2 |
Information processing device, information processing method, and program
Provided is an information processing device and an information processing method, the information processing device including a control unit that, on the basis of a position of a recognized operation object, dynamically controls output of an information associated with at least one operation region in which the recognized operation object is located, the control unit being configured to, in a case where the recognized operation object is located in the operation region, control execution of a device function corresponding to the operation region in which the recognized operation object is located, and the operation region including a region incapable of being visually recognized by a user. |
| US12026429B2 |
Playback zone representations
Method and systems are provided for displaying a control representation in a playback zone representation provided on a playback zones view interface. The playback zones view interface allows a user to view and navigate between playback zones in a media playback system, and the control representation in the playback zone representation is selectable to allow the user to control playback of media content in the corresponding playback zone from the playback zones view interface without having to navigate to a particular playback control interface corresponding to the playback zone. |