| 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 | UNMANNED VEHICLE SYSTEMS AND METHODS OF OPERATION | EP15735559.5 | 2015-01-07 | EP3092540A1 | 2016-11-16 | BOUZAS, Horacio Ricardo; TOOLSI, Reishin |
| The present invention is directed to unmanned vehicle (UV) systems and methods. A method may include capturing data with at least one UV proximate an area of interest. The method may also include processing the data at a computing device. In addition, the method may include at least storing the processed data, sharing the processed data with another device, combining the processed data with related historical data, developing a model based at least partially on the processed data, determining at least one future task to be performed by the UV based at least partially on the processed data, or any combination thereof. | ||||||
| 2 | IMPROVED POLOXAMER AND POLOXAMINE COMPOSITIONS FOR NUCLEIC ACID DELIVERY | EP01913279.4 | 2001-03-02 | EP1309904A1 | 2003-05-14 | NICOL, François; WANG, Jijun; COLEMAN, Michael; MACLAUGHLIN, Fiona; ROLLAND, Alain |
| 3 | IMPROVED POLOXAMER AND POLOXAMINE COMPOSITIONS FOR NUCLEIC ACID DELIVERY | EP01913279 | 2001-03-02 | EP1309904A4 | 2006-03-29 | NICOL FRANCOIS; WANG JIJUN; COLEMAN MICHAEL; MACLAUGHLIN FIONA; ROLLAND ALAIN |
| 4 | Data security apparatus | EP95102120.3 | 1995-02-16 | EP0669580B1 | 1998-06-10 | Ohba, Toshihiro, c/o Sega Enterprises, Ltd.; Asai, Toshinori, c/o Sega Enterprises, Ltd. |
| 5 | Data security apparatus | EP95102120.3 | 1995-02-16 | EP0669580A2 | 1995-08-30 | Ohba, Toshihiro, c/o Sega Enterprises, Ltd.; Asai, Toshinori, c/o Sega Enterprises, Ltd. |
An input means 4 is connected by way of a security check means 5 to a program data readout means 6. The program data readout means 6 is coupled to a game implementation means 11. To the security check means 5 are coupled a flag storage means 7 and an ID detection means 8. In the flag storage means 7 are stored a security flag 7a and a readout enabling flag 7b. To the ID detection means 8 are coupled an ID storage means 9 and an ID collation means 10. The ID collation means 10 is coupled to the program data readout means 6. A KEY-CD 2 stores an identifier KEY-ID 2b. A trial CD 1 stores an identifier DISC-ID 1 b. In response to the KEY-ID 2b detected from the KEY-CD 2, the security flag 7a becomes on, and after the collation of the DISC-ID 1 detected from the trial CD 1 with the KEY-ID 2b, the readout flag 7b becomes on. Then, the program data within the trial CD 1 are read out by the program data readout means 6, allowing the game implementation means 11 to execute a game. It is thus possible both to securely prevent the data stored in the storage medium from being illegally executed, analyzed. or copied by a person not having a legitimate title and to facilitate the execution of the data by a person having the legitimate title. |
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| 6 | Dynamic adjustment of I/O configuration | EP00308490.2 | 2000-09-27 | EP1102149A3 | 2004-10-06 | Cwiakala, Richard, c/o IBM United Kingdom Ltd.; Rooney, William J., c/o IBM United Kingdom Ltd.; Yocom, Peter B., c/o IBM United Kingdom Ltd.; Yudenfriend, Harry M., c/o IBM United Kingdom Ltd. |
Input/output (I/O) configurations of a computing environment are managed. This management includes dynamically adjusting an I/O configuration, when it is determined that such an adjustment is needed or desired. In order to make the adjustment, a channel path is selected from a plurality of channel paths. The selection of the channel path to be used in the adjustment is based on one or more characteristics associated with the channel path. |
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| 7 | Dynamic adjustment of I/O configuration | EP00308490.2 | 2000-09-27 | EP1102149A2 | 2001-05-23 | Cwiakala, Richard, c/o IBM United Kingdom Ltd.; Rooney, William J., c/o IBM United Kingdom Ltd.; Yocom, Peter B., c/o IBM United Kingdom Ltd.; Yudenfriend, Harry M., c/o IBM United Kingdom Ltd. |
Input/output (I/O) configurations of a computing environment are managed. This management includes dynamically adjusting an I/O configuration, when it is determined that such an adjustment is needed or desired. In order to make the adjustment, a channel path is selected from a plurality of channel paths. The selection of the channel path to be used in the adjustment is based on one or more characteristics associated with the channel path. |
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| 8 | Data security apparatus | EP95102120.3 | 1995-02-16 | EP0669580A3 | 1996-04-17 | Ohba, Toshihiro, c/o Sega Enterprises, Ltd.; Asai, Toshinori, c/o Sega Enterprises, Ltd. |
An input means 4 is connected by way of a security check means 5 to a program data readout means 6. The program data readout means 6 is coupled to a game implementation means 11. To the security check means 5 are coupled a flag storage means 7 and an ID detection means 8. In the flag storage means 7 are stored a security flag 7a and a readout enabling flag 7b. To the ID detection means 8 are coupled an ID storage means 9 and an ID collation means 10. The ID collation means 10 is coupled to the program data readout means 6. A KEY-CD 2 stores an identifier KEY-ID 2b. A trial CD 1 stores an identifier DISC-ID 1 b. In response to the KEY-ID 2b detected from the KEY-CD 2, the security flag 7a becomes on, and after the collation of the DISC-ID 1 detected from the trial CD 1 with the KEY-ID 2b, the readout flag 7b becomes on. Then, the program data within the trial CD 1 are read out by the program data readout means 6, allowing the game implementation means 11 to execute a game. It is thus possible both to securely prevent the data stored in the storage medium from being illegally executed, analyzed. or copied by a person not having a legitimate title and to facilitate the execution of the data by a person having the legitimate title. |
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| 9 | STICK DEVICE AND USER INTERFACE | PCT/US2019/065264 | 2019-12-09 | WO2020123398A1 | 2020-06-18 | VERMA, Pramod, Kumar |
This invention introduces a mobile robotic arm equipped with a projector camera system, and computing device connected with internet and sensors, which can stick to any nearby surface using sticking mechanism. Projector camera system displays user interface on the surface. User can interact with the device using user interface using voice, body gestures, remote device, wearable or handheld device. We call this device by "Stick Device" or "Stick User Interface". In addition, device can execute application specific task using reconfigurable tools and devices. With these functionalities, device can be used for various human-computer interaction or human-machine interaction applications. |
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| 10 | METHODS AND APPARATUS FOR USING WATER USE SIGNATURES IN IMPROVING WATER USE EFFICIENCY | PCT/US0015480 | 2000-06-05 | WO0195277A3 | 2002-05-30 | ADDINK JOHN; ADDINK SYLVAN; GIVARGIS TONY |
| A flow anomaly is provided to an operator or other person by: executing a first device of a plurality of water using devices; receiving flow data on a quantity of water used by the first device during a time period required to generate a first water use signature from the first device; comparing a future water use pattern against the first water use signature to identify a flow anomaly with the first device; and providing information regarding the flow anomaly to the person. All water using devices are contemplated, including those employed at residential, commercial, industrial or other types of sites. It is especially contemplated that signatures are identified for multiple devices coupled to a common water supply system, with two or more of signatures compared against the same future water use pattern. Apparatus to accomplish these tasks is preferably housed in an irrigation controller, which may be advantageously coupled to a flow meter. The controller can operate a display that provides real time flow data, and a warning signal generator that provides an alert upon determination of the existence of a flow anomaly. | ||||||
| 11 | Apparatus and method for automatically controllingand scaling motor velocity | PCT/US9614669 | 1996-09-13 | WO9711633A3 | 1997-04-24 | KRAUSE KENNETH W |
| An apparatus and method automatically associate a sensed mechanical parameter (17) to a range of motor velocity for controlling the rotational velocity of a motor driving a medical instrument (16). The apparatus and method sense or measure the mechanical parameter whose value, controlled by a human operator, through for example, a footpad (18), can be measured and converted to a digital signal. The apparatus and method, in response to the measured sensed parameter, automatically scale the range of parameter values to a new range of motor velocity values thereby adjusting, to the mechanical displacement (force or distance) with which the user is most comfortable. The transformation also provides deadband values around the minimum and maximum motor velocities so that maximum motor velocity is not 'chased' and minimum motor velocity is not sensitive to small perturbations due to thermal effects and other events which may affect the mechanical sensor output. | ||||||
| 12 | ROTORCRAFT SYSTEMS TO REDUCE PILOT WORKLOAD | PCT/US2015/052549 | 2015-09-28 | WO2016053825A1 | 2016-04-07 | BREDENBECK, Kevin L.; WEINER, Steven D.; WALSH, David M.; COTTON, Bryan S.; ARIFIAN, Kenneth C. |
An aircraft includes an airframe having an extending tail, a counter rotating, coaxial main rotor assembly disposed at the airframe including an upper rotor assembly and a lower rotor assembly, and a translational thrust system positioned at the extending tail and providing translational thrust to the airframe. A fly by wire control system for the aircraft includes a flight control system configured to receive a plurality of inputs and a flight control computer to translate the inputs into commands and issue the commands to one or more controlled elements of the aircraft. A fly by wire control system for a dual coaxial rotor rotorcraft with auxiliary propulsor includes a flight control system configured to receive a plurality of inputs and a flight control computer to translate the inputs into commands and issue the commands to one or more controlled elements of the rotorcraft. |
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| 13 | UNMANNED VEHICLE SYSTEMS AND METHODS OF OPERATION | PCT/US2015/010446 | 2015-01-07 | WO2015105851A1 | 2015-07-16 | BOUZAS, Horacio Ricardo; TOOLSI, Reishin |
The present invention is directed to unmanned vehicle (UV) systems and methods. A method may include capturing data with at least one UV proximate an area of interest. The method may also include processing the data at a computing device. In addition, the method may include at least storing the processed data, sharing the processed data with another device, combining the processed data with related historical data, developing a model based at least partially on the processed data, determining at least one future task to be performed by the UV based at least partially on the processed data, or any combination thereof. |
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| 14 | METHODS AND APPARATUS FOR USING WATER USE SIGNATURES IN IMPROVING WATER USE EFFICIENCY | PCT/US0015480 | 2000-06-05 | WO0195277B1 | 2002-12-27 | ADDINK JOHN; ADDINK SYLVAN; GIVARGIS TONY |
| A flow anomaly is provided to an operator or other person by: executing a first device of a plurality of water using devices; receiving flow data on a quantity of water used by the first device during a time period required to generate a first water use signature from the first device; comparing a future water use pattern against the first water use signature to identify a flow anomaly with the first device; and providing information regarding the flow anomaly to the person. All water using devices are contemplated, including those employed at residential, commercial, industrial or other types of sites. It is especially contemplated that signatures are identified for multiple devices coupled to a common water supply system, with two or more of signatures compared against the same future water use pattern. Apparatus to accomplish these tasks is preferably housed in an irrigation controller, which may be advantageously coupled to a flow meter. The controller can operate a display that provides real time flow data, and a warning signal generator that provides an alert upon determination of the existence of a flow anomaly. | ||||||
| 15 | Reception and payment device for coin rod | JP5861194 | 1994-03-29 | JPH07272048A | 1995-10-20 | YOKOYAMA KIMINORI; TAKEDA HAJIME |
| PURPOSE: To provide the reception and payment device for coin rods which has a receiving function and a paying function for coin rods and enables received coin rods to be reused as paid coin rods. CONSTITUTION: Plural trays 22 which each have a coin rod entrance exit on one end side are provided vertically in stages, and a coin rod receiving and passing unit 12 which is mounted with a hopper 14, a separate taking-out mechanism 62, a inspecting mechanism 64, a coin rod carrying-out mechanism 66, and a coin rod carrying-in mechanism 68 and passes and receives coin rods to and from the trays 22 is made movable in the stack direction of the tray 22... facing the coin rod entrance exit and a money reception and payment opening, thereby performing money receiving and paying operation. Further, a 1st cam member 92 and a 2nd cam member 94 for stack breaking which push up coin rods in a hopper 14 are provided and moved after a coin rod is separated and taken out of the hopper 14 to push up coin rods and break the bridge phenomenon due to a balanced state, thereby securely preventing a defect in taking a coin rod out of the hopper 14 due to the bridge phenomenon. COPYRIGHT: (C)1995,JPO | ||||||
| 16 | Air type operator for extraction of square root | JP2576081 | 1981-02-23 | JPS57139801A | 1982-08-30 | KASAMA YASUO |
| PURPOSE:To drop out by a desired input, by transferring the displacement of a feedback bellows to a flapper through a bellows displacement transferring means of an elastic material. CONSTITUTION:In the aixal center position in a feedback bellows 22, a stopper pin 26 is set to a fixed plate 25 to which a fixed end of the bellows has been installed. Accordingly, a space between the tip of the bellows 22 and the fixed plate 25 does not become a constant value or below since it is limited by the stopper pin 26. On the contact part of a flapper 17 and the bellows 22, a tongue 29 is formed by a U-cut groove 28, and with this tongue 29, the tip of the feedback bellows 22 contact. That is, displacement of the tip of the bellows 22 is transferred to the flapper 17 through the elastic tongue 29. | ||||||
| 17 | JPS5561717U - | JP14342478 | 1978-10-20 | JPS5561717U | 1980-04-26 | |
| 18 | Extracting operator | JP5384377 | 1977-05-11 | JPS53138798A | 1978-12-04 | HARADA KINJI; ANDOU MOTOYOSHI |
| PURPOSE: To increase the calculation accuracy as well as to reduce the measurement of the operator by providing the balanced beam containing the first arm lever which rotates co centering on the axle fulcrum and the second arm lever which is combined to the first arm lever which is combined to the first arm lever and whose other end is displaced on the reference line passing through the fulcrum and then performing a specified operation based on the angle which is formed by the both levers and the reference line plus the displaced position at the end part of the balanced beam. COPYRIGHT: (C)1978,JPO&Japio | ||||||
| 19 | JPS5245267Y2 - | JP14469572 | 1972-12-16 | JPS5245267Y2 | 1977-10-14 | |
| 20 | Bainarikaunta | JP12679275 | 1975-10-21 | JPS5169770A | 1976-06-16 | ITO JINICHI |
