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公开(公告)号:US20240202970A1
公开(公告)日:2024-06-20
申请号:US18066340
申请日:2022-12-15
CPC分类号: G06T7/74 , G01B11/272 , G06T7/66 , G06T2207/30204 , G06T2207/30252
摘要: A system is disclosed that includes a computer and memory, the memory including instructions to acquire images, including a first image and a second image of an object attached to a platform that is moving and determine a first real world location of a fiducial marker and a second location of the fiducial marker. A center of rotation for the object can be determined by tracking the first and second real world locations of the fiducial marker and an angle of an axis the object with respect to an axis of the platform can be determined based on the center of rotation, the tracked locations of the fiducial marker, and calibration data.
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公开(公告)号:US20240051523A1
公开(公告)日:2024-02-15
申请号:US17818724
申请日:2022-08-10
发明人: Mohit Srinivasan , Hongtei Eric Tseng , Michael Hafner , Mrdjan J. Jankovic , Abhishek Sharma , Erol Dogan Sumer , Alexander Jaeckel , Aakar Mehra
IPC分类号: B60W30/09
CPC分类号: B60W30/09 , B60W2520/06 , B60W2710/18
摘要: A computer includes a processor and a memory, the memory storing instructions executable by the processor to receive sensor data indicating an obstacle, formulate a control barrier function for a vehicle based on the sensor data, determine a control input based on the control barrier function, and actuate a component of the vehicle according to the control input. The control barrier function is defined with respect to a reference point that is spaced from a centroid of the vehicle.
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公开(公告)号:US11891061B2
公开(公告)日:2024-02-06
申请号:US17350707
申请日:2021-06-17
IPC分类号: B60W30/12 , B60W40/107 , B60W40/105 , B60W10/20 , B60W10/18
CPC分类号: B60W30/12 , B60W10/18 , B60W10/20 , B60W40/105 , B60W40/107 , B60W2520/06 , B60W2520/105 , B60W2554/801 , B60W2554/802 , B60W2554/804
摘要: A lateral virtual boundary for a host vehicle is identified based on a lateral distance between the host vehicle and a target vehicle, a longitudinal distance between the host vehicle and the target vehicle, and a speed of the target vehicle relative to the host vehicle. A forward virtual boundary for the host vehicle is identified based on the longitudinal distance between the host vehicle and the target vehicle. A lateral constraint value of the lateral virtual boundary and a forward constraint value of the forward virtual boundary are determined. A longitudinal acceleration and a steering angle are determined based on the lateral and forward virtual boundaries and the lateral and forward constraint values. One or both of a steering component or a brake are actuated based on the longitudinal acceleration and the steering angle.
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公开(公告)号:US20230242118A1
公开(公告)日:2023-08-03
申请号:US17589930
申请日:2022-02-01
发明人: Gabor Orosz , Sanghoon Oh , Hongtei Eric Tseng , Qi Chen , Gaurav Pandey
CPC分类号: B60W30/18145 , B60W10/04 , B60W10/20 , B60W60/001 , B60W2710/20 , B60W2720/10 , B60W2720/12 , B60W2720/106 , B60W2720/125 , B60W2556/45 , B60W2554/00
摘要: A computer includes a processor and a memory storing instructions executable by the processor to receive a waypoint; generate a path for a vehicle from a starting point to the waypoint, the path characterized by a preset number of parameters; and instruct a propulsion and a steering system of the vehicle to actuate to navigate the vehicle along the path.
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公开(公告)号:US20230182721A1
公开(公告)日:2023-06-15
申请号:US17551228
申请日:2021-12-15
CPC分类号: B60W30/09 , B60W10/18 , B60W10/20 , B60W30/095 , B60W60/0011 , G06F17/11 , G06V20/58 , B60W2300/14
摘要: A computer includes a processor and a memory, and the memory stores instructions executable by the processor to receive sensor data indicating an obstacle, formulate a first control barrier function for a vehicle based on the sensor data, formulate a second control barrier function for a trailer hitched to the vehicle based on the sensor data, determine a control input based on the first and second control barrier functions, and actuate a component of the vehicle according to the control input.
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公开(公告)号:US20220402486A1
公开(公告)日:2022-12-22
申请号:US17350707
申请日:2021-06-17
IPC分类号: B60W30/12 , B60W40/107 , B60W40/105 , B60W10/20 , B60W10/18
摘要: A lateral virtual boundary for a host vehicle is identified based on a lateral distance between the host vehicle and a target vehicle, a longitudinal distance between the host vehicle and the target vehicle, and a speed of the target vehicle relative to the host vehicle. A forward virtual boundary for the host vehicle is identified based on the longitudinal distance between the host vehicle and the target vehicle. A lateral constraint value of the lateral virtual boundary and a forward constraint value of the forward virtual boundary are determined. A longitudinal acceleration and a steering angle are determined based on the lateral and forward virtual boundaries and the lateral and forward constraint values. One or both of a steering component or a brake are actuated based on the longitudinal acceleration and the steering angle.
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公开(公告)号:US10293653B2
公开(公告)日:2019-05-21
申请号:US14869304
申请日:2015-09-29
发明人: Davor David Hrovat , Hongtei Eric Tseng , Jianbo Lu , Li Xu
IPC分类号: B60G17/019 , B60G17/0165 , B60G17/018 , B60G17/0195 , B62D15/02
摘要: The present disclosure generally relates to an obstacle avoidance system with active suspensions. The obstacle avoidance system uses one or more active suspensions to lift or jump one or more corresponding wheels over an obstacle in the vehicle's path to avoid contact with the obstacle when the vehicle cannot practically drive over, steer around, or stop before hitting the obstacle.
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8.发明申请公开(公告)号:US20190084576A1
公开(公告)日:2019-03-21
申请号:US16193714
申请日:2018-11-16
发明人: Christopher John Teslak , Gregory Michael Pietron , Hongtei Eric Tseng , Yuji Fujii , Michael Glenn Fodor , Diana Yanakiev , Seung-Hoon Lee
IPC分类号: B60W30/19 , B60W10/115 , F16H61/06 , F16D67/02 , F16H59/16 , B60W10/02 , B60W10/06 , B60W50/06 , B60W50/00 , F16H61/04
摘要: A control system and method for controlling a multiple gear ratio automatic transmission in a powertrain for an automatic transmission having pressure activated fiction torque elements to effect gear ratio upshifts. The friction torque elements are synchronously engaged and released during a torque phase of an upshift event as torque from a torque source is increased while allowing the off-going friction elements to slip, followed by an inertia phase during which torque from a torque source is modulated. A perceptible transmission output torque reduction during an upshift is avoided. Measured torque values are used during a torque phase of the upshift to correct an estimated oncoming friction element target torque so that transient torque disturbances at an oncoming clutch are avoided and torque transients at the output shaft are reduced.
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公开(公告)号:US10088844B2
公开(公告)日:2018-10-02
申请号:US14088225
申请日:2013-11-22
发明人: Christopher Attard , Shane Elwart , Jeff Allen Greenberg , Rajit Johri , John P. Joyce , Devinder Singh Kochhar , Thomas Edward Pilutti , Douglas Scott Rhode , Matt Y. Rupp , John Shutko , Roger Arnold Trombley , Hongtei Eric Tseng , Andrew Waldis
摘要: A wearable computing device in a vehicle is identified by a computer in a vehicle. Collected data is received relating to autonomous operation of the vehicle. A message is sent to the wearable computing device based at least in part on the collected data.
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公开(公告)号:US09849883B2
公开(公告)日:2017-12-26
申请号:US15145900
申请日:2016-05-04
IPC分类号: B60W30/00 , B60W30/18 , B60W10/22 , B60W50/14 , B60W50/10 , B60W10/20 , B60W10/18 , B60W10/06
CPC分类号: B60W30/18 , B60W10/06 , B60W10/12 , B60W10/18 , B60W10/20 , B60W10/22 , B60W30/02 , B60W30/18172 , B60W50/10 , B60W50/14 , B60W2050/0064 , B60W2050/143 , B60W2050/146 , B60W2300/185 , B60W2520/105 , B60W2520/125 , B60W2520/28 , B60W2530/20 , B60W2540/04 , B60W2540/10 , B60W2540/12 , B60W2540/18 , B60W2550/10 , B60W2550/12 , B60W2550/14 , B60W2550/40 , B60W2550/402 , B60W2720/10 , B60W2750/40
摘要: A vehicle system includes a processor with access to a memory storing instructions executable by the processor. The instructions include determining whether an autonomous host vehicle can traverse an environmental obstacle, and if the autonomous host vehicle can traverse the environmental obstacle, controlling an active suspension system in accordance with the environmental obstacle and controlling the autonomous host vehicle to traverse the environmental obstacle.
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