| Patent application number | Description | Published |
|---|
| 20100071771 | High altitude atmospheric injection system and method - A system and method is described generally for affecting atmospheric change. The system and method include providing a high altitude conduit or track. The system and method also include providing a first material through the conduit or via a payload delivery system. Further, the system and method include expelling the first material into the atmosphere at high altitude. | 03-25-2010 |
| 20100108806 | Hybrid propulsive engine including at least one independently rotatable propeller/fan - One aspect relates to a method of reducing noise for an aircraft. The method includes determining a mode of operation of the aircraft or the engine. The method also includes controlling a hybrid jet engine, based on the mode of operation, to at least partially use electrically generated torque to generate thrust. | 05-06-2010 |
| 20100112533 | System and method of training by providing motional feedback - A method is generally described which includes providing training by altering a user's motional response includes directing a user to perform specified motions in accordance with a training sequence and detecting the user's motions, by a feedback sensor device, the motions associated with the user. The method also includes generating, by the control program, control data based on the data representative of the detected motions and the training sequence. The control program is configured to receive data representative of the detected motions and to receive the training sequence. The control program has a control algorithm configured to generate control data based on the data representative of the detected motions and the information. Further, the method includes running the control program by a controller configured to output control signals based on the control data. Further still, the method includes delivering current, during a repeating phase in which the user is attempting to repeat the training sequence, from the current source to a vestibular stimulation device configured to deliver a stimulation current to at least one electrical contact, in response to the control signals. The at least one electrical contact is configured to contact flesh of the user. | 05-06-2010 |
| 20100112535 | System and method of altering motions of a user to meet an objective - A method is generally described which includes detecting motions associated with a user, by a feedback sensor device. The method of also includes receiving information by a control program, the information being related to an objective of the user's motion from an objective information source and receiving data representative of the detected motions by the control program. Further, the method includes generating control data based on the data representative of the detected motions and the information, by a control algorithm of the control program. Further still, a method includes running the control program by a controller. Yet further still, the method includes outputting control signals based on the control data and delivering current from a current source to the vestibular system of the user in response to the control signals. | 05-06-2010 |
| 20100113150 | System and method for game playing using vestibular stimulation - A method of gaming is generally described which includes detecting motions associated with the user by a feedback sensor device and providing motion information from the feedback sensor device to the game device. The method also includes providing a vestibular stimulation signal to a user, by a vestibular stimulation device in communication with a game device in response to the motion information and the game content. | 05-06-2010 |
| 20100114186 | System for altering motional response to music - A system for altering a user's motional response to music is generally described. The system includes a current source and a music source including at least one musical piece. The system also includes an information source including information associated with at least one characteristic of the at least one musical piece. Further, the system includes a sound delivering device configured with a sound producing structure and in communication with the music source. A feedback sensor device is configured to detect motions associated with the user. A control unit is configured to receive signals from the feedback sensor and receive the information, the control unit generating control signals based on the signals and the information. Further, electrical contacts are configured to contact flesh of the user and deliver current from the current source to the vestibular system of the user in response to the control signals. | 05-06-2010 |
| 20100114187 | System and method for providing feedback control in a vestibular stimulation system - A method is generally described which includes a method for altering a user's motional response to sound. The method includes receiving a sound produced by a sound device capable of producing sound and the sound device in communication with a sound data source. The sound data source includes information associated with at least one set of sounds. The method also includes detecting movement by a feedback sensor device and compared to information from an information source including information associated with at least one characteristic of the at least one set of sounds, and the comparison information being provided to a control program, the control program having a control algorithm configured to generate control data based on the comparison. Further, the method includes receiving current, by a vestibular system, from electrical contacts coupled to a current source, the current delivered being based on the control data and output control signals. Further still, the method includes causing alteration of the created movement in response to the current. | 05-06-2010 |
| 20100114188 | System and method for providing therapy by altering the motion of a person - A method for providing motor control therapy for a user by altering a user's motional response is generally described. The method includes directing a user to perform a specified motion in accordance with a schedule. The method also includes detecting the user's motions in response to the directions, by a feedback sensor device, the motions associated with the user and providing information from an information source including information associated with a target motion. Further, the method includes generating, by a control program, control data based on the data representative of the detected motions and the information. The control program is configured to receive data representative of the detected motions and to receive the information. The control program has a control algorithm configured to generate control data based on the data representative of the detected motions and the information. Further still, the method includes running the control program by a controller configured to output control signals based on the control data. Yet further still, the method includes delivering current from the current source to a vestibular stimulation device configured to deliver a stimulation current to at least one electrical contact, in response to the control signals. The at least one electrical contact is configured to contact flesh of the user. | 05-06-2010 |
| 20100114255 | System for altering motional response to sensory input - A system is generally described for altering a user's motional response to sensory input and includes a current source and a first sensory input device configured to provide a first sensory input to a user. The system also includes a second sensory input device configured to provide a second sensory input to a user and a sensor device configured to detect motions associated with the user. Further, the system includes a control unit configured to receive signals from the sensor and receive sensory signals related to the first and second sensory inputs. The control unit generates control signals based on the signals and the sensory signals. Further still, the system includes electrical contacts configured to contact flesh of the user and deliver current from the current source to the vestibular system of the user in response to the control signals and the current is configured to cause the user to move in a predetermined manner if the user is not in the process of making the predetermined motion. | 05-06-2010 |
| 20100114256 | Adaptive system and method for altering the motion of a person - A method is generally described which includes producing a sound from a sound device capable of producing sound. The sound device is in communication with a sound data source. The sound data source is associated with at least one set of sounds. The method also includes detecting motions, by a feedback sensor device, the motions associated with the user. The further the method includes providing information from an information source including information associated with at least one characteristic of the at least one set of sounds and providing the information to a control program configured to receive data representative of the detected motions and to receive the information. Further still, the method includes generating, by the control program, control data based on the data representative of the detected motions and the information. The control program is configured to receive data representative of the detected motions and to receive the information. The control program has a control algorithm configured to generate control data based on the data representative of the detected motions and the information. Further still, the method includes running the control program by a controller configured to output control signals based on the control data and adjusting parameters of at least one of the controller, the feedback sensor, the sound source, the information, or the control algorithm, by an adaptive system. Yet further still, the method includes delivering current from the current source to the vestibular system of the user in response to the control signals, by a vestibular stimulation device. | 05-06-2010 |
| 20100300560 | Water alteration structure and system having heat transfer conduit - A system is described generally for a water capture structure that is configured to capture wave water lapping over at least one wall of the water capture structure. The at least one wall extends at least above a nominal surface water level and at least one conduit extends downward from the water capture structure. The at least one conduit has a length extending to a depth at which at least one property of water at the depth differs substantially from that of water at the surface. The at least one conduit is configured to provide thermal energy to water outside of the at least one conduit. The at least one conduit has at least one conduit wall. | 12-02-2010 |
| 20100304192 | System for altering temperature of an electrical energy storage device or an electrochemical energy generation device using high thermal conductivity materials based on states of the device - A method is generally described which includes altering temperature of an electrical energy storage device or an electrochemical electrochemical energy generation device, includes providing at least one thermal control structure formed of a high thermal conductive material, the high thermal conductive material having a high k-value. The high k-value is greater than approximately 410 W/(m*K). The thermal control structures are disposed adjacent at least a portion of the electrical energy storage device or the electrochemical electrochemical energy generation device. The thermal control structures are configured to provide heat transfer away from the portion of the electrical energy storage device or the electrochemical electrochemical energy generation device. Further, the method includes configuring a controller with a control algorithm to control the actions of a controllable fluid flow device as a function of current draw from the electrical energy storage device or the electrochemical electrochemical energy generation device, the electrical energy storage device or the electrochemical electrochemical energy generation device configured to provide electrical current and the controllable fluid flow device providing a fluid to the at least one thermal control structure. Further still, the method includes providing an electrical characteristic sensor coupled to the electrical energy storage device or the electrochemical electrochemical energy generation device and configured to sense at least one electrical characteristic of the electrical energy storage device or the electrochemical electrochemical energy generation device and to provide a signal representative of the at least one characteristic to the controller. | 12-02-2010 |
| 20100304250 | System for operating an electrical energy storage device or an electrochemical energy generation device using microchannels based on mobile device states and vehicle states - A method is generally described which includes operating an electrical energy storage device or an electrochemical energy generation device includes configuring a controller with a control algorithm to control the actions of a controllable fluid flow device as a function of states of a mobile device using the electrical energy storage device or the electrochemical energy generation device. The electrical energy storage device or the electrochemical energy generation device is configured to provide electrical current. The method also includes providing a microchannel thermal control system for the electrical energy storage device or the electrochemical energy generation device. The microchannel thermal control system is configured to alter the temperature at least portions of the electrical energy storage device or the electrochemical energy generation device. The microchannel thermal control system is configured to flow a fluid through the microchannels and the fluid to receive heat generated by the electrical energy storage device or the electrochemical energy generation device. The method further includes providing an electrical characteristic sensor coupled to the electrical energy storage device or the electrochemical energy generation device and is configured to sense at least one electrical characteristic of the electrical energy storage device or the electrochemical energy generation device and to provide a signal representative of the at least one characteristic to the controller. | 12-02-2010 |
| 20100304251 | System and method of operating an electrical energy storage device or an electrochemical energy generation device using thermal conductivity materials based on mobile device states and vehicle states - A method is generally described which includes operating an electrical energy storage device or an electrochemical energy generation device includes providing at least one thermal control structure formed of a high thermal conductive material. The high thermal conductive material having a high k-value, the high k-value being greater than approximately 410 W/(m*K). The thermal control structures are disposed adjacent at least a portion of the electrical energy storage device or the electrochemical energy generation device. The thermal control structures are configured to provide heat transfer away from the portion of the electrical energy storage device or the electrochemical energy generation device. The method also includes configuring a controller with a control algorithm to control the actions of a controllable fluid flow device as a function of a mobile device states. The mobile device using electricity from the electrical energy storage device or the electrochemical energy generation device. The electrical energy storage device or the electrochemical energy generation device is configured to provide electrical current and the controllable fluid flow device providing a fluid to the at least one thermal control structure. The method also includes accessing a processor of a mobile device. The processor is configured to determine at least one mobile device state. Further, the method includes providing an electrical characteristic sensor coupled to the power source and is configured to sense at least one electrical characteristic of the power source and to provide a signal representative of the at least one characteristic to the controller. | 12-02-2010 |
| 20100304252 | System for altering temperature of an electrical energy storage device or an electrochemical energy generation device using microchannels based on states of the device - A method is generally described which includes altering the temperature of an electrical energy storage device or an electrochemical energy generation device includes configuring a controller with a control algorithm to control the actions of a fluid control system as a function of current draw from the electrical energy storage device or the electrochemical energy generation device, the electrical energy storage device or the electrochemical energy generation device configured to provide electrical current. The method also includes providing A microchannel thermal control system for the electrical energy storage device or the electrochemical energy generation device. The microchannel thermal control system is configured to cool at least portions of the electrical energy storage device or the electrochemical energy generation device. The microchannel thermal control system is configured to flow a fluid through the microchannels and the fluid to receive heat generated by the electrical energy storage device or the electrochemical energy generation device. Further, the method includes providing an electrical characteristic sensor coupled to the electrical energy storage device or the electrochemical energy generation device and configured to sense at least one electrical characteristic of the electrical energy storage device or the electrochemical energy generation device and to provide a signal representative of the at least one characteristic to the controller. | 12-02-2010 |
| 20100304255 | System and method of operating an electrical energy storage device or an electrochemical energy generation device, during charge or discharge using microchannels and high thermal conductivity materials - A method is generally described which includes operating an electrical energy storage device or an electrochemical energy generation device includes placing an electrical load to draw current from the electrical energy storage device or the electrochemical energy generation device. The electrical energy storage device or the electrochemical energy generation device includes a housing having an external surface and an internal surface. The method also includes generating electricity by at least one component within the housing. At least one component is configured to generate electrical energy in combination with other components, chemicals, or materials residing within the housing. Further, the method includes thermal control of the electrical energy storage device or the electrochemical energy generation device by transferring heat to a plurality of microchannels coupled to at least one of the internal surface of the housing or the at least one internal components. The at least one microchannel is at least partially formed of or coated with a high thermal conductivity material. The high thermal conductivity material has a high k-value. The high k-value is greater than approximately 410 W/(m*K). Further still, the method includes transferring the collected heat through a thermal sink coupled to the microchannels. The thermal sink is configured to transfer heat energy to or from the microchannel and to receive a fluid flowing through the microchannels. | 12-02-2010 |
| 20100304256 | Method of operating an electrical energy storage device using microchannels during charge and discharge - A method is generally described which includes operating an electrical energy storage device or an electrochemical energy generation device includes placing an electrical load to draw current from the electrical energy storage device or the electrochemical energy generation device. The electrical energy storage device or the electrochemical energy generation device includes a housing having an external surface and an internal surface. The method also includes generating electricity by at least one component within the housing. At least one component is configured to generate electrical energy in combination with other components, chemicals, or materials residing within the housing. Further, the method includes thermal control the electrical energy storage device by transferring heat to a plurality of microchannels coupled to at least one of the internal surface of the housing or at least one components. Further still, the method includes rejecting the collected heat through a thermal sink coupled to the microchannels. The thermal sink is configured to transfer heat energy from the microchannels and to receive a fluid flowing through the microchannels. | 12-02-2010 |
| 20100304257 | System and method of operating an electrical energy storage device or an electrochemical energy generation device using microchannels and high thermal conductivity materials - A method is generally described which includes operating an electrical electrochemical energy generation device or an electrochemical energy generation device. The method includes providing a housing having an external surface and an internal surface. The method also includes coupling at least one component within the housing. At least one component is configured to generate electrical energy in combination with other components, chemicals, or materials residing within the housing. The method includes forming a plurality of microchannels coupled to at least one of the internal surface of the housing or the at least one internal components. At least one microchannel is at least partially formed of a high thermal conductivity material. The high thermal conductivity material has a high k-value, the high k-value is greater than approximately 410 W/(m*K). The method further includes providing a thermal sink coupled to the microchannels. The thermal sink is configured to transfer heat energy to or from the microchannels. Further, the method includes flowing a fluid through the microchannels. | 12-02-2010 |
| 20100304258 | System and method of altering temperature of an electrical energy storage device or an electrochemical energy generation device using high thermal conductivity materials - A method is generally described which includes thermal control of an electrical energy storage device or electrochemical energy generation device includes providing a housing having an external surface and an internal surface. The method also includes providing at least one component within the housing. At least one component is configured to generate electrical power in combination with other components, chemicals, or materials residing within the housing. Further, the method includes forming a plurality of thermal control structures of a high thermal conductivity material coupled to at least one of the internal surface of the housing or the at least one internal components. The high thermal conductivity material having a high k-value, the high k-value being greater than approximately 400 W/(m*K). Further still, the method includes flowing a fluid adjacent the high thermal conductivity material to transfer heat to or from the high thermal conductivity material. | 12-02-2010 |
| 20100304259 | Method of operating an electrical energy storage device or an electrochemical energy generation device using high thermal conductivity materials during charge and discharge - A method is generally described which includes altering the temperature of an electrical energy storage device or an electrochemical energy generation device, includes placing an electrical load to draw current from the electrical energy storage device or the electrochemical energy generation device. The electrical energy storage device or the electrochemical energy generation device includes a housing having an external surface and an internal surface. The method also includes generating electricity by at least one component within the housing. At least one component being configured to generate electrical power in combination with other components, chemicals, or materials residing within the housing. Further, the method includes thermal control of the electrical energy storage device or the electrochemical energy generation device by transferring heat to a plurality of thermal control structures of a high thermal conductivity material coupled to at least one of the internal surface of the housing or the at least one internal components. The high thermal conductivity material having a high k-value, the high k-value being greater than approximately 400 W/(m*K). The method further includes flowing a fluid adjacent the high thermal conductivity material to remove heat from the high thermal conductivity material. | 12-02-2010 |
| 20100305762 | System and method of altering temperature of an electrical energy storage device or an electrochemical energy generation device using microchannels - A method is generally described which includes altering temperature. The method includes providing a housing having an external surface and an internal surface. The method also includes coupling at least one component within the housing. At least one component is configured to generate electrical energy in combination with other components, chemicals, or materials residing within the housing. Further, the method includes forming a plurality of microchannels coupled to at least one of the internal surface of the housing or at least one internal components. Further still, the method includes providing a thermal sink coupled to the microchannels. The thermal sink is configured to transfer heat energy to or from the microchannels. Yet further still, the method includes flowing a fluid through the microchannels and the thermal sink. | 12-02-2010 |
