Patents by Inventor J. Bray
J. Bray has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 10604197Abstract: Disclosed are downforce feedback systems for active aerodynamic devices, methods for making/using such systems, and vehicles equipped with a closed-loop downforce feedback system to govern operation of the vehicle's active aero device(s). A feedback control system for operating an active aerodynamic device of a motor vehicle includes one or more pressure sensors for detecting fluid pressures in one or more pneumatic or hydraulic actuators for moving the active aero device. A vehicle controller receives fluid pressure signals from these sensor(s), and calculates an actual downforce value from these signal(s). The controller retrieves a calibrated downforce value from mapped vehicle downforce data stored in memory, and determines if the actual downforce value differs from the calibrated value. If so, the controller determines a target position for a target downforce value for a current vehicle operating condition, and commands the actuator(s) to move the active aero device to the target position.Type: GrantFiled: September 25, 2017Date of Patent: March 31, 2020Assignee: GM Global Technology Operations LLCInventors: Samantha J. Bray, Timothy D. Demetrio, Philip C. Lundberg, Joshua R. Auden, Jason D. Fahland
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Publication number: 20190263458Abstract: An exemplary method of controlling an automotive vehicle includes the steps of providing a first component, providing a second component movably coupled to the first component, providing an actuator coupled to the second component and configured to actuate the second component between a first position and a second position, providing a vehicle sensor configured to measure a vehicle characteristic, providing at least one controller in communication with the actuator and the vehicle sensor, and determining a baseline vehicle balance and determining an adjusted vehicle balance based on the measured vehicle characteristic.Type: ApplicationFiled: February 28, 2018Publication date: August 29, 2019Inventors: Jason D. Fahland, Kevin Irwin, Dale Cattell, Samantha J. Bray, Michael G. Petrucci, Joshua R. Auden, Alexander MacDonald
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Patent number: 10392055Abstract: Methods, systems, and vehicles are provided for mitigating turbulent air for vehicles. In accordance with one embodiment, a vehicle includes one or more downforce elements, one or more sensors, and a processor. The one or more sensors are configured to obtain one or more parameter values for the vehicle during operation of the vehicle. The processor is processor coupled to the one or more sensors, and is configured to at least facilitate determining whether turbulent air for the vehicle is likely using the parameters, and adjusting a downforce for the vehicle, during operation of the vehicle, by providing instructions for controlling the one or more downforce elements when it is determined that turbulent air for the vehicle is likely.Type: GrantFiled: July 20, 2016Date of Patent: August 27, 2019Assignee: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Jason D. Fahland, Joshua R. Auden, David Dominguez, Samantha J. Bray
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Patent number: 10387029Abstract: An electronic device displays, on a display, a map that is associated with a first orientation. The electronic device receives a touch input on a touch-sensitive surface, and, in response to receiving the touch input on the touch-sensitive surface, rotates the map on the display in accordance with the touch input. While rotating the map on the display in accordance with the touch input, in response to determining that a displayed orientation of the rotated map corresponds to the first orientation of the map, the electronic device generates a first tactile output.Type: GrantFiled: September 30, 2015Date of Patent: August 20, 2019Assignee: APPLE INC.Inventors: Gary I. Butcher, Christopher P. Foss, Raymond S. Sepulveda, Alexander J. Perry, Patrick L. Coffman, Aram David Kudurshian, Cédric J. Bray, Usama M. Hajj
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Patent number: 10370042Abstract: An adjustable aerodynamic assembly includes a support structure and a blocking member supported by the support structure. The blocking member is movable between an extended position in which the blocking member is disposed transverse to the support structure to interact with an airflow and a retracted position in which the blocking member retracts to minimize interaction with the airflow. The adjustable aerodynamic assembly also includes an actuator coupled to the blocking member and configured to move the blocking member to the extended and retracted positions, and a detection member coupled to the blocking member and configured to determine whether a surface of the blocking member is detected. A method of monitoring the adjustable aerodynamic assembly includes determining whether the surface of the blocking member is detected via the detection member. The method also includes selectively activating the actuator to move the blocking member to the extended and retracted positions.Type: GrantFiled: August 2, 2017Date of Patent: August 6, 2019Assignee: GM Global Technology Operations LLCInventors: Samantha J. Bray, Joshua R. Auden, Jason D. Fahland, Timothy D. Demetrio, Caleb Potvin, Rebecca Tjoelker
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Patent number: 10336317Abstract: Methods, systems, and vehicles are provided for controlling lift for vehicles. In accordance with one embodiment, a vehicle includes a body, one or more sensors, and a processor. The one or more sensors are configured to measure values pertaining to one or more parameter values for a vehicle during operation of the vehicle. The processor is coupled to the one or more sensors, and is configured to at least facilitate determining whether an unplanned lift of the body of the vehicle is likely using the parameters, and implementing one or more control measures when it is determined that the unplanned lift of the body of the vehicle is likely.Type: GrantFiled: July 20, 2016Date of Patent: July 2, 2019Assignee: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Jason D. Fahland, Joshua R. Auden, David Dominguez, Samantha J. Bray, Eric E. Krueger
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Publication number: 20190092403Abstract: Disclosed are downforce feedback systems for active aerodynamic devices, methods for making/using such systems, and vehicles equipped with a closed-loop downforce feedback system to govern operation of the vehicle's active aero device(s). A feedback control system for operating an active aerodynamic device of a motor vehicle includes one or more pressure sensors for detecting fluid pressures in one or more pneumatic or hydraulic actuators for moving the active aero device. A vehicle controller receives fluid pressure signals from these sensor(s), and calculates an actual downforce value from these signal(s). The controller retrieves a calibrated downforce value from mapped vehicle downforce data stored in memory, and determines if the actual downforce value differs from the calibrated value. If so, the controller determines a target position for a target downforce value for a current vehicle operating condition, and commands the actuator(s) to move the active aero device to the target position.Type: ApplicationFiled: September 25, 2017Publication date: March 28, 2019Applicant: GM Global Technology Operations LLCInventors: Samantha J. Bray, Timothy D. Demetrio, Philip C. Lundberg, Joshua R. Auden, Jason D. Fahland
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Publication number: 20190061840Abstract: An aerodynamic control assembly includes a support structure and a wing member supported by the support structure. The wing member is movable between a first position relative to the support structure and a second position relative to the support structure. The aerodynamic control assembly also includes an actuator coupled to the wing member. The actuator is configured to move the wing member between the first and second positions. The aerodynamic control assembly further includes an inertia measurement unit (IMU) secured to the wing member. The IMU is configured to compile data regarding the position of the wing member. A vehicle includes a body structure and the aerodynamic control assembly coupled to the body structure. The aerodynamic control assembly includes a support structure fixed to the body structure. The aerodynamic control assembly also includes the wing member, the actuator and the IMU discussed above.Type: ApplicationFiled: August 24, 2017Publication date: February 28, 2019Applicant: GM Global Technology Operations LLCInventors: Samantha J. Bray, Joshua R. Auden, Jason D. Fahland
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Publication number: 20190039663Abstract: An adjustable aerodynamic assembly includes a support structure and a blocking member supported by the support structure. The blocking member is movable between an extended position in which the blocking member is disposed transverse to the support structure to interact with an airflow and a retracted position in which the blocking member retracts to minimize interaction with the airflow. The adjustable aerodynamic assembly also includes an actuator coupled to the blocking member and configured to move the blocking member to the extended and retracted positions, and a detection member coupled to the blocking member and configured to determine whether a surface of the blocking member is detected. A method of monitoring the adjustable aerodynamic assembly includes determining whether the surface of the blocking member is detected via the detection member. The method also includes selectively activating the actuator to move the blocking member to the extended and retracted positions.Type: ApplicationFiled: August 2, 2017Publication date: February 7, 2019Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Samantha J. Bray, Joshua R. Auden, Jason D. Fahland, Timothy D. Demetrio, Caleb Potvin, Rebecca Tjoelker
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Patent number: 9990107Abstract: An electronic device displays a user interface that includes one or more user interface elements; detects a user input on a touch-sensitive surface that includes detecting a contact at a location that corresponds to a respective user interface element; and, in response: if the user input satisfies menu-display criteria, including a criterion that is satisfied when the contact has an intensity above a first intensity threshold, displays a first menu overlaid on the user interface; and, if the user input satisfies action criteria, wherein the action criteria are capable of being satisfied when the intensity of the contact is below the first intensity threshold, initiates performance of an action associated with the respective user interface element without displaying the first menu.Type: GrantFiled: September 28, 2015Date of Patent: June 5, 2018Assignee: APPLE INC.Inventors: Gary I. Butcher, Christopher P. Foss, Raymond S. Sepulveda, Alexander J. Perry, Patrick L. Coffman, Aram David Kudurshian, Cédric J. Bray, Usama M. Hajj
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Patent number: 9902439Abstract: The vehicle has a vehicle body including a first body end facing incident ambient airflow, a second body end opposite of the first body end, an underbody section spanning a distance between the first and second body ends, and vehicle subsystem arranged proximate the underbody section. A panel is moveably mounted to the underbody section and configured to regulate access of an underbody portion of the incident airflow to the subsystem. A mechanism is configured to shift the panel to selectively expose at least a part of the subsystem to the underbody portion of the incident airflow and shield the subsystem to thereby enhance aerodynamics of the vehicle body. A sensor detects a vehicle operating parameter and communicates the detected operating parameter to a controller. The controller is configured to regulate the mechanism and thereby shift the panel in response to the detected vehicle operating parameter.Type: GrantFiled: January 4, 2016Date of Patent: February 27, 2018Assignee: GM Global Technology Operations LLCInventors: Jason D. Fahland, Joshua R. Auden, David Dominguez, Samantha J. Bray
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Patent number: 9902438Abstract: A system is configured to control aerodynamics of a vehicle. The vehicle includes a vehicle body arranged along a longitudinal axis with a first vehicle body end configured to face incident ambient airflow. The system includes an aerodynamic-aid element mounted to the vehicle body and configured to generate a downforce thereon via controlling the incident ambient airflow. The system also includes an adjustable flap arranged at the aerodynamic-aid element. The adjustable flap is configured to shift relative to the aerodynamic-aid element and thereby control movement of the incident ambient airflow relative to the aerodynamic-aid element. The system additionally includes a mechanism configured to vary position of the adjustable flap relative to the aerodynamic-aid element and thereby vary a magnitude of downforce generated by the aerodynamic-aid element.Type: GrantFiled: November 30, 2015Date of Patent: February 27, 2018Assignee: GM Global Technology Operations LLCInventors: Samantha J. Bray, Joshua R. Auden, Jason D. Fahland, David Dominguez
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Publication number: 20180022343Abstract: Methods, systems, and vehicles are provided for controlling lift for vehicles. In accordance with one embodiment, a vehicle includes a body, one or more sensors, and a processor. The one or more sensors are configured to measure values pertaining to one or more parameter values for a vehicle during operation of the vehicle. The processor is coupled to the one or more sensors, and is configured to at least facilitate determining whether an unplanned lift of the body of the vehicle is likely using the parameters, and implementing one or more control measures when it is determined that the unplanned lift of the body of the vehicle is likely.Type: ApplicationFiled: July 20, 2016Publication date: January 25, 2018Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: JASON D. FAHLAND, JOSHUA R. AUDEN, DAVID DOMINGUEZ, SAMANTHA J. BRAY, ERIC E. KRUEGER
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Publication number: 20180022404Abstract: Methods, systems, and vehicles are provided for mitigating turbulent air for vehicles. In accordance with one embodiment, a vehicle includes one or more downforce elements, one or more sensors, and a processor. The one or more sensors are configured to obtain one or more parameter values for the vehicle during operation of the vehicle. The processor is processor coupled to the one or more sensors, and is configured to at least facilitate determining whether turbulent air for the vehicle is likely using the parameters, and adjusting a downforce for the vehicle, during operation of the vehicle, by providing instructions for controlling the one or more downforce elements when it is determined that turbulent air for the vehicle is likely.Type: ApplicationFiled: July 20, 2016Publication date: January 25, 2018Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: JASON D. FAHLAND, JOSHUA R. AUDEN, DAVID DOMINGUEZ, SAMANTHA J. BRAY
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Publication number: 20170190364Abstract: The vehicle has a vehicle body including a first body end facing incident ambient airflow, a second body end opposite of the first body end, an underbody section spanning a distance between the first and second body ends, and vehicle subsystem arranged proximate the underbody section. A panel is moveably mounted to the underbody section and configured to regulate access of an underbody portion of the incident airflow to the subsystem. A mechanism is configured to shift the panel to selectively expose at least a part of the subsystem to the underbody portion of the incident airflow and shield the subsystem to thereby enhance aerodynamics of the vehicle body. A sensor detects a vehicle operating parameter and communicates the detected operating parameter to a controller. The controller is configured to regulate the mechanism and thereby shift the panel in response to the detected vehicle operating parameter.Type: ApplicationFiled: January 4, 2016Publication date: July 6, 2017Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Jason D. Fahland, Joshua R. Auden, David Dominguez, Samantha J. Bray
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Publication number: 20170151984Abstract: A system is configured to control aerodynamics of a vehicle. The vehicle includes a vehicle body arranged along a longitudinal axis with a first vehicle body end configured to face incident ambient airflow. The system includes an aerodynamic-aid element mounted to the vehicle body and configured to generate a downforce thereon via controlling the incident ambient airflow. The system also includes an adjustable flap arranged at the aerodynamic-aid element. The adjustable flap is configured to shift relative to the aerodynamic-aid element and thereby control movement of the incident ambient airflow relative to the aerodynamic-aid element. The system additionally includes a mechanism configured to vary position of the adjustable flap relative to the aerodynamic-aid element and thereby vary a magnitude of downforce generated by the aerodynamic-aid element.Type: ApplicationFiled: November 30, 2015Publication date: June 1, 2017Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Samantha J. Bray, Joshua R. Auden, Jason D. Fahland, David Dominguez
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Patent number: 9645732Abstract: An electronic device: displays, on a display, a user interface that includes one or more user interface elements; and detects a press input by a contact on a touch-sensitive surface at a location that corresponds to a respective user interface element. In response to detecting the press input, the device: if the respective user interface meets first action criteria including a criterion that the respective user interface element is associated with a single option associated with the press input, initiates performance of an action corresponding to the single option; and, if the respective user interface element meets second action criteria including a criterion that the respective user interface element is associated with a first number of options associated with the press input, where the first number is greater than one, displays a first menu overlaid on the user interface with a first set of selectable options.Type: GrantFiled: September 27, 2015Date of Patent: May 9, 2017Assignee: APPLE INC.Inventors: Gary I. Butcher, Christopher P. Foss, Raymond S. Sepulveda, Alexander J. Perry, Patrick L. Coffman, Aram David Kudurshian, Cédric J. Bray, Usama M. Hajj
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Publication number: 20160259495Abstract: An electronic device: displays, on a display, a user interface that includes one or more user interface elements; and detects a press input by a contact on a touch-sensitive surface at a location that corresponds to a respective user interface element. In response to detecting the press input, the device: if the respective user interface meets first action criteria including a criterion that the respective user interface element is associated with a single option associated with the press input, initiates performance of an action corresponding to the single option; and, if the respective user interface element meets second action criteria including a criterion that the respective user interface element is associated with a first number of options associated with the press input, where the first number is greater than one, displays a first menu overlaid on the user interface with a first set of selectable options.Type: ApplicationFiled: September 27, 2015Publication date: September 8, 2016Inventors: Gary I. Butcher, Christopher P. Foss, Raymond S. Sepulveda, Alexander J. Perry, Patrick L. Coffman, Aram David Kudurshian, Cédric J. Bray, Usama M. Hajj
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Publication number: 20160259517Abstract: An electronic device displays, on a display, a map that is associated with a first orientation. The electronic device receives a touch input on a touch-sensitive surface, and, in response to receiving the touch input on the touch-sensitive surface, rotates the map on the display in accordance with the touch input. While rotating the map on the display in accordance with the touch input, in response to determining that a displayed orientation of the rotated map corresponds to the first orientation of the map, the electronic device generates a first tactile output.Type: ApplicationFiled: September 30, 2015Publication date: September 8, 2016Inventors: Gary I. Butcher, Christopher P. Foss, Raymond S. Sepulveda, Alexander J. Perry, Patrick L. Coffman, Aram David Kudurshian, Cédric J. Bray, Usama M. Hajj
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Publication number: 20160259496Abstract: An electronic device displays a user interface that includes one or more user interface elements; detects a user input on a touch-sensitive surface that includes detecting a contact at a location that corresponds to a respective user interface element; and, in response: if the user input satisfies menu-display criteria, including a criterion that is satisfied when the contact has an intensity above a first intensity threshold, displays a first menu overlaid on the user interface; and, if the user input satisfies action criteria, wherein the action criteria are capable of being satisfied when the intensity of the contact is below the first intensity threshold, initiates performance of an action associated with the respective user interface element without displaying the first menu.Type: ApplicationFiled: September 28, 2015Publication date: September 8, 2016Inventors: Gary I. Butcher, Christopher P. Foss, Raymond S. Sepulveda, Alexander J. Perry, Patrick L. Coffman, Aram David Kudurshian, Cédric J. Bray, Usama M. Hajj