子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | PROXIMITY DETECTION BY MOBILE DEVICES | US13790637 | 2013-03-08 | US20140253813A1 | 2014-09-11 | Majd Bakar |
| A processor of a mobile device initiates a listening session including listening for a message from a remote service and receiving the message from the remote service. The message indicates that a first device is within a predetermined range of the mobile device. In response to receiving the message from the remote service, a network session is automatically initiated. The network session includes obtaining a signature via the network, the signature being uniquely associated with the first device. In response to obtaining the signature via the network, the mobile device initiates an access session with the first device, including utilizing the signature to present a user interface on the mobile device that includes access to the first device. The access session is automatically terminated in response to detecting a change in the listening session. | ||||||
| 2 | SELF-PROPELLED BUOY FOR MONITORING UNDERWATER OBJECTS | US13231881 | 2011-09-13 | US20120063262A1 | 2012-03-15 | Mir Imran |
| Various embodiments of the invention provide a buoy and system for monitoring divers and other underwater objects. In many embodiments, the buoy has capabilities to monitor a diver, obtain position information about the diver and use that information to move itself to an effective range for continued monitoring. The buoy can connect and communicate with a communication device attached to a diver to communicate, position, biometric and other data. In one embodiment, the buoy comprises a propulsion system for propelling the buoy, an acoustic communication module for communicating with the diver and a propulsion controller for controlling the propulsion system to move to the effective range. Other embodiments provide a power generation system using a power generating buoy comprising an inertial weight, an energy converter and a connecting linkage. The system may comprise a single or multiple buoys and can include an electrical storage such as an electrical battery. | ||||||
| 3 | Applying a variable encoding/decoding scheme in a communication network | US12632731 | 2009-12-07 | US09258348B2 | 2016-02-09 | Darren P. Loher |
| Various systems, devices and methods for providing variable encoder/decoder mechanisms are disclosed. As one example, a coder/decoder device including a plurality of coder/decoder mechanisms, a coder/decoder selection engine, and a computer readable medium is disclosed. The computer readable medium includes a network statistic. The coder/decoder selection engine is operable to select at least one of the plurality of coder/decoder mechanisms based at least in part on the network statistic. Further, the coder/decoder selection engine is operable to offer the at least one of the plurality of coder/decoder mechanisms. | ||||||
| 4 | Self-propelled buoy for monitoring underwater objects | US14334526 | 2014-07-17 | US09118407B2 | 2015-08-25 | Mir Imran |
| Various embodiments of the invention provide a buoy and system for monitoring divers and other underwater objects. In many embodiments, the buoy has capabilities to monitor a diver, obtain position information about the diver and use that information to move itself to an effective range for continued monitoring. The buoy can connect and communicate with a communication device attached to a diver to communicate, position, biometric and other data. In one embodiment, the buoy comprises a propulsion system for propelling the buoy, an acoustic communication module for communicating with the diver and a propulsion controller for controlling the propulsion system to move to the effective range. Other embodiments provide a power generation system using a power generating buoy comprising an inertial weight, an energy converter and a connecting linkage. The system may comprise a single or multiple buoys and can include an electrical storage such as an electrical battery. | ||||||
| 5 | Self-propelled buoy for monitoring underwater objects | US13231881 | 2011-09-13 | US08804461B2 | 2014-08-12 | Mir Imran |
| Various embodiments of the invention provide a buoy and system for monitoring divers and other underwater objects. In many embodiments, the buoy has capabilities to monitor a diver, obtain position information about the diver and use that information to move itself to an effective range for continued monitoring. The buoy can connect and communicate with a communication device attached to a diver to communicate, position, biometric and other data. In one embodiment, the buoy comprises a propulsion system for propelling the buoy, an acoustic communication module for communicating with the diver and a propulsion controller for controlling the propulsion system to move to the effective range. Other embodiments provide a power generation system using a power generating buoy comprising an inertial weight, an energy converter and a connecting linkage. The system may comprise a single or multiple buoys and can include an electrical storage such as an electrical battery. | ||||||
| 6 | Power transmission control device of non-contact type having a charging function | JP8858391 | 1991-08-02 | JPH0648347U | 1994-06-28 | 勝吉 中野; 昭 松下 |
| (57)【要約】 【目的】 固定部の能動用モジュールから運動部の受動用モジュールの動作に必要な電力の伝送と、両モジュール間で相互に授受する情報信号の伝送とを非接触で行わせる装置において、運動部が移動中であっても常に動力用電源および両モジュール間で相互に情報信号を授受させるための電力を維持することのできる、電力伝送制御装置を提供する。 【構成】 能動モジュールAと受動モジュールBとの間隙を電磁波の信号により非接触で電力を伝送させると同時に、モジュールAからモジュールBへの制御指令信号を重畳して送信する場合、その少なくとも一方を平面コイルで構成した送信コイル3と受信コイル5間を電磁誘導作用で行い、整流平滑回路6で直流化した電力で2次電池を充電しておきモジュールB内の動作電源にするように構成したものである。 | ||||||
| 7 | Signal transmitter | JP11389985 | 1985-05-27 | JPS61273031A | 1986-12-03 | NAKANO KATSUYOSHI; MATSUSHITA AKIRA |
| PURPOSE:To attain stably the transmission/reception of data with high accuracy alternately between modules with comparatively a simple circuit constitution by sending a signal with the electromagnetic induction system and receiving signal by the photoelectric conversion system and transmitting power required for the operation of the reception module contactlessly. CONSTITUTION:After an input parallel data SD1 is converted into a serial signal by a P/S conversion circuit 1 in an active module A, the data is an F/S modulation wave by an F/S modulation circuit 3, the frequency is increased by a frequency multiplier circuit 4, power amplication is applied by an RF power amplifier 5 and irradiated into space as an electromagnetic wave form an electromagnetic wave sending head 6. On the other hand, the light flux irradiated from the reception module 8 is received by an optical reception head 7 and converted into an electric signal. Further, the electromagnetic wave for power transmission irradiated from an electromagnetic wave sending head 6 of the active module A is received by an electromagnetic wave reception head 13, a part of the power is rectified into DC by a rectifier and smoothing circuit 14 and fed to each circuit of the reception module 8 as a power supply E1. | ||||||
| 8 | Power transmission control apparatus | JP11390085 | 1985-05-27 | JPS61271806A | 1986-12-02 | NAKANO KATSUYOSHI; MATSUSHITA AKIRA |
| PURPOSE:To enable to transmit information signals, their clock signal, etc., from a stationary section in a non-contacting state, by providing a means for transmitting power to loads and circuits of receiving modules and for controlling them, through electromagnetic induction by electromagnetic waves over the commercial frequency being oscillated from an active module. CONSTITUTION:After parallel data SD of an information signal which is required to transmit from a stationary section A to a moving section B is converted into a serial form by a P/S (parallel-serial) converting circuit 9, it is input into a F/S (frequency shift) modulation circuit 11 which is driven by an oscillation circuit 10 which oscillates at a frequency BR1 integer times the Baud rate clock, resulting in a F/S modulated wave corresponding to the parallel data SD. However, the frequency is not appropriate for the transmission owing to the low efficiency, so the frequency is raised by a frequency multiplier 12. The waves is then power-amplified by a power amplifier 13, and is applied to a transmission coil 3 wound around a magnetic core 2 of the stationary section. Through electromagnetic induction between the magnetic core 4 of the moving section and the magnetic core 2 of the stationary section, power having the raised frequency may be induced in the receiving coil 5 wound on the magnetic core 4. | ||||||
| 9 | 通信システム | JP2018514818 | 2016-09-19 | JP2018532321A | 2018-11-01 | フランクリン ドン ビェン |
| 隔壁の厚さに関わらず、船舶内で無線でデータ送受信を可能にする本発明の一実施形態に係る船舶用ネットワーク通信システムは、船体を複数の空間に区分する複数の隔壁のうち、第1隔壁に取り付けられて送信端末から送信される送信データを受信する第1通信装置と、前記隔壁のうち第2隔壁に取り付けられて近距離磁場通信により前記第1イーサネット通信モジュールから前記送信データを受信し、受信された送信データを受信端末に伝達する第2通信装置とを含み、前記第1通信装置及び前記第2通信装置は、前記第1隔壁及び前記第2隔壁を通信媒体として近距離磁場通信を行うことを特徴とする。 【選択図】図2 |
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| 10 | モバイルデバイスによる近接検出 | JP2015561722 | 2014-03-07 | JP2016519863A | 2016-07-07 | バカル マジェド; ツイ フランシス |
| モバイルデバイスのプロセッサは、遠隔サービスからのメッセージをリッスンして遠隔サービスからのメッセージを受信することを含むリスニングセッションを開始する。メッセージは、第1のデバイスがモバイルデバイスの所定範囲内にあることを示す。遠隔サービスからのメッセージを受信すると、ネットワークセッションが自動的に開始される。ネットワークセッションはネットワークを介してシグネチャを取得することを含み、シグネチャは第1のデバイスに一意的に対応付けられている。ネットワークを介してシグネチャを取得すると、モバイルデバイスは、シグネチャを利用して第1のデバイスへのアクセスを含むモバイルデバイス上のユーザインターフェイスを提示することを含む第1のデバイスとのアクセスセッションを開始する。アクセスセッションは、リスニングセッションにおける変化を検出すると自動的に終了される。【選択図】図2 | ||||||
| 11 | VARIABLE CODING METHOD FOR REALIZING CHIP REUSE AND COMMUNICATION TERMINAL THEREFOR | EP16869993.2 | 2016-11-30 | EP3386123A1 | 2018-10-10 | LIN, Sheng |
Disclosed is a variable coding method for realizing chip reuse, comprising the following steps: using at least two identical integrated circuit chips, wherein each integrated circuit chip executes different control logic truth tables according to different gating signals; introducing at least one logical control signal as a gating signal; and controlling the logical control signal, so that each integrated circuit chip respectively executes a corresponding control logic truth table. Also disclosed is a communication terminal using the variable coding method for realizing chip reuse. Two or more completely identical integrated circuit chips can be used to realize different logical control functions, thereby simplifying the type of a chip for realizing a system function, and greatly reducing the development costs of an integrated circuit system and the management complexity of a mass production supply chain. |
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| 12 | SELF-PROPELLED BUOY FOR MONITORING UNDERWATER OBJECTS | EP11825827.6 | 2011-09-13 | EP2616317B1 | 2016-03-09 | IMRAN, Mir |
| 13 | SELF-PROPELLED BUOY FOR MONITORING UNDERWATER OBJECTS | EP11825827.6 | 2011-09-13 | EP2616317A2 | 2013-07-24 | IMRAN, Mir |
| Various embodiments of the invention provide a buoy and system for monitoring divers and other underwater objects. In many embodiments, the buoy has capabilities to monitor a diver, obtain position information about the diver and use that information to move itself to an effective range for continued monitoring. The buoy can connect and communicate with a communication device attached to a diver to communicate, position, biometric and other data. In one embodiment, the buoy comprises a propulsion system for propelling the buoy, an acoustic communication module for communicating with the diver and a propulsion controller for controlling the propulsion system to move to the effective range. Other embodiments provide a power generation system using a power generating buoy comprising an inertial weight, an energy converter and a connecting linkage. The system may comprise a single or multiple buoys and can include an electrical storage such as an electrical battery. | ||||||
| 14 | VARIABLE CODING METHOD FOR REALIZING CHIP REUSE AND COMMUNICATION TERMINAL THEREFOR | US15780242 | 2016-11-30 | US20180351553A1 | 2018-12-06 | Sheng LIN |
| Disclosed is a variable coding method for realizing chip reuse, comprising the following steps: using at least two identical integrated circuit chips, wherein each integrated circuit chip executes different control logic truth tables according to different gating signals; introducing at least one logical control signal as a gating signal; and controlling the logical control signal, so that each integrated circuit chip respectively executes a corresponding control logic truth table. Also disclosed is a communication terminal using the variable coding method for realizing chip reuse. Two or more completely identical integrated circuit chips can be used to realize different logical control functions, thereby simplifying the type of a chip for realizing a system function, and greatly reducing the development costs of an integrated circuit system and the management complexity of a mass production supply chain. | ||||||
| 15 | Communication System | US15760911 | 2016-09-19 | US20180205415A1 | 2018-07-19 | Franklin Don Bien |
| A ship network communication system according to an embodiment of the present invention that enables data transmission and reception wirelessly in a ship regardless of the thickness of a bulkhead comprises: a first communication device, attached to a first bulkhead from among a plurality of bulkheads dividing a hull into a plurality of spaces, to receive transmission data transmitted from a transmitting terminal; and a second communication device, attached to a second bulkhead from among the bulkheads, to receive the transmission data from a first Ethernet communication module through near field communication and to transfer the received transmission data to a receiving terminal, wherein the first communication device and the second communication device perform near field communication using the first bulkhead and the second bulkhead as a communication medium. | ||||||
| 16 | Proximity detection by mobile devices | US13790637 | 2013-03-08 | US09496968B2 | 2016-11-15 | Majd Bakar |
| A processor of a mobile device initiates a listening session including listening for a message from a remote service and receiving the message from the remote service. The message indicates that a first device is within a predetermined range of the mobile device. In response to receiving the message from the remote service, a network session is automatically initiated. The network session includes obtaining a signature via the network, the signature being uniquely associated with the first device. In response to obtaining the signature via the network, the mobile device initiates an access session with the first device, including utilizing the signature to present a user interface on the mobile device that includes access to the first device. The access session is automatically terminated in response to detecting a change in the listening session. | ||||||
| 17 | SELF-PROPELLED BUOY FOR MONITORING UNDERWATER OBJECTS | US14799824 | 2015-07-15 | US20160009347A1 | 2016-01-14 | Mir Imran |
| Various embodiments of the invention provide a buoy and system for monitoring divers and other underwater objects. In many embodiments, the buoy has capabilities to monitor a diver, obtain position information about the diver and use that information to move itself to an effective range for continued monitoring. The buoy can connect and communicate with a communication device attached to a diver to communicate, position, biometric and other data. In one embodiment, the buoy comprises a propulsion system for propelling the buoy, an acoustic communication module for communicating with the diver and a propulsion controller for controlling the propulsion system to move to the effective range. Other embodiments provide a power generation system using a power generating buoy comprising an inertial weight, an energy converter and a connecting linkage. The system may comprise a single or multiple buoys and can include an electrical storage such as an electrical battery. | ||||||
| 18 | SELF-PROPELLED BUOY FOR MONITORING UNDERWATER OBJECTS | US14334526 | 2014-07-17 | US20150003192A1 | 2015-01-01 | Mir Imran |
| Various embodiments of the invention provide a buoy and system for monitoring divers and other underwater objects. In many embodiments, the buoy has capabilities to monitor a diver, obtain position information about the diver and use that information to move itself to an effective range for continued monitoring. The buoy can connect and communicate with a communication device attached to a diver to communicate, position, biometric and other data. In one embodiment, the buoy comprises a propulsion system for propelling the buoy, an acoustic communication module for communicating with the diver and a propulsion controller for controlling the propulsion system to move to the effective range. Other embodiments provide a power generation system using a power generating buoy comprising an inertial weight, an energy converter and a connecting linkage. The system may comprise a single or multiple buoys and can include an electrical storage such as an electrical battery. | ||||||
| 19 | Applying a Variable Encoding/Decoding Scheme in a Communication Network | US12632731 | 2009-12-07 | US20100208601A1 | 2010-08-19 | Darren P. Loher |
| Various systems, devices and methods for providing variable encoder/decoder mechanisms are disclosed. As one example, a coder/decoder device including a plurality of coder/decoder mechanisms, a coder/decoder selection engine, and a computer readable medium is disclosed. The computer readable medium includes a network statistic. The coder/decoder selection engine is operable to select at least one of the plurality of coder/decoder mechanisms based at least in part on the network statistic. Further, the coder/decoder selection engine is operable to offer the at least one of the plurality of coder/decoder mechanisms. | ||||||
| 20 | Systems and methods for applying a variable encoding/decoding scheme in a communication network | US11027561 | 2004-12-29 | US07630308B1 | 2009-12-08 | Darren P. Loher |
| Various systems, devices and methods for providing variable coder/decoder mechanisms are disclosed. As one example, a coder/decoder device including a plurality of coder/decoder mechanisms, a coder/decoder selection engine, and a computer readable medium is disclosed. The computer readable medium includes a network statistic. The coder/decoder selection engine is operable to select at least one of the plurality of coder/decoder mechanisms based at least in part on the network statistic. Further, the coder/decoder selection engine is operable to offer the at least one of the plurality of coder/decoder mechanisms. | ||||||
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