Patents by Inventor Bakhtiar Brian Litkouhi
Bakhtiar Brian Litkouhi 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: 9073576Abstract: Vehicle steering measurements of a vehicle may be measured. Expected vehicle steering measurements may be calculated, each calculated expected vehicle steering measurement corresponding to one of the measured vehicle steering measurements. At least one difference between one of the measured vehicle steering measurements and its corresponding calculated expected vehicle steering measurement may be calculated. A lower boundary and an upper boundary of at least one override transition zone, each of the override transition zones corresponding to one of the measured vehicle steering measurements and its corresponding calculated expected vehicle steering measurement, may be calculated. Steering control of the vehicle may be gradually transferred from an automatic vehicle control system to a driver of the vehicle over a predetermined period of time when one or more of the calculated differences lie between the calculated lower boundary and the calculated upper boundary of the corresponding override transition zone.Type: GrantFiled: September 2, 2011Date of Patent: July 7, 2015Assignee: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Jin-Woo Lee, Bakhtiar Brian Litkouhi
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Patent number: 8998353Abstract: A method to control a vehicle including control of regenerative brakes and friction brakes includes monitoring a desired corner force and moment distribution, monitoring real-time actuator constraints including a braking torque limit of each of the regenerative brake, determining a regenerative braking torque for each of the regenerative brakes based upon the desired corner force and moment distribution and the real-time actuator constraints, determining a friction braking torque for each of the friction brakes based upon the desired corner force and moment distribution and the determined regenerative braking torque for each of the regenerative brakes, and controlling the vehicle based upon the determined regenerative braking torques and the determined friction braking torques.Type: GrantFiled: September 7, 2010Date of Patent: April 7, 2015Assignee: GM Global Technology Operations LLCInventors: Shih-Ken Chen, Valery Pylypchuk, Youssef A. Ghoneim, Weiwen Deng, Nikolai K. Moshchuk, Bakhtiar Brian Litkouhi
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Patent number: 8977419Abstract: A system and method for providing adaptive lane centering in an autonomous or semi-autonomous vehicle driving system includes activating a lane centering control system, detecting a driver steering override of the lane centering control system, monitoring a lane centering offset when a driver override condition is detected, determining if the lane centering offset represents a driver bias and adjusting the lane centering offset in the lane centering control system to compensate for the driver bias.Type: GrantFiled: December 23, 2010Date of Patent: March 10, 2015Assignee: GM Global Technology Operations LLCInventors: Jin-Woo Lee, Bakhtiar Brian Litkouhi
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Patent number: 8965633Abstract: One or more vehicle steering measurements of a vehicle may be measured. One or more expected vehicle steering measurements may be calculated, each calculated expected vehicle steering measurement corresponding to one of the measured vehicle steering measurements. At least one difference between one of the measured vehicle steering measurements and its corresponding calculated expected vehicle steering measurement may be calculated. A speed of the vehicle may be measured. One or more current threshold values may be calculated based on the measured speed, each of the current threshold values corresponding to one of the measured vehicle steering measurements and its corresponding calculated expected vehicle steering measurement. An automatic vehicle control system may be deactivated when one or more of the calculated differences exceeds its corresponding current threshold value.Type: GrantFiled: September 2, 2011Date of Patent: February 24, 2015Assignee: GM Global Technology Operations LLCInventors: Jin-Woo Lee, Bakhtiar Brian Litkouhi
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Patent number: 8954235Abstract: A method and system may measure one or more vehicle steering measurements or quantities and calculate one or more expected vehicle steering measurements. The method and system may deactivate an automatic vehicle control system based on the one or more measured vehicle steering measurements and the one or more expected vehicle steering measurements. The vehicle steering measurements may include a vehicle steering angle measurement, vehicle steering torque measurement, or other vehicle dynamics measurements. The automatic vehicle control system may include an automated lane centering system, lane keeping assist, or other autonomous vehicle steering control system.Type: GrantFiled: May 5, 2011Date of Patent: February 10, 2015Assignee: GM Global Technology Operations LLCInventors: Jin-Woo Lee, Bakhtiar Brian Litkouhi
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Patent number: 8935071Abstract: A method, for controlling direction of a vehicle as desired in connection with operation of an autonomous driving maneuver using selectively, independently and/or in combination, multiple electrical park brakes (EPBs) and multiple hydraulic brakes (HBs). The method includes determining a total brake force needed for redirecting the vehicle in a pre-determined manner, and determining whether an applicable EPB can provide the total brake force needed. The method further includes providing, if it is determined that the applicable EPB can provide the total brake force needed, a brake command instructing the applicable EPB to apply the total brake force. The method also includes determining, if it is determined that the EPB is alone insufficient, an optimal fusion of the EPBs and the HBs, including two front and two rear HBs, two rear EPBs, and in some embodiments, also two front EPBs.Type: GrantFiled: May 15, 2013Date of Patent: January 13, 2015Assignee: GM Global Technology Operations LLCInventors: Jin-Woo Lee, Bakhtiar Brian Litkouhi
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Patent number: 8930041Abstract: An aftermarket plug-in safety device that allows a vehicle to communicate with other vehicles or infrastructures in a V2X communications system. The device includes a radio for transmitting and receiving signals and a GPS receiver for receiving GPS signals and providing vehicle position data. The device also includes a memory for storing digital security certificates and vehicle application data and a processor configured to be put in electrical communication with a vehicle CAN bus. The processor receives vehicle location signals from the GPS receiver, files from the memory and signals from the radio and providing signals for transmission to the radio. The processor identifies the vehicle that the plug-in device is coupled to and provides data on the CAN bus identifying the device. The processor also performs self-configuring operations based on type of vehicle, access to vehicle systems and location of the vehicle.Type: GrantFiled: June 27, 2013Date of Patent: January 6, 2015Assignee: GM Global Technology Operations LLCInventors: Donald K. Grimm, Upali Priyantha Mudalige, Bakhtiar Brian Litkouhi
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Publication number: 20150005981Abstract: An aftermarket plug-in safety device that allows a vehicle to communicate with other vehicles or infrastructures in a V2X communications system. The device includes a radio for transmitting and receiving signals and a GPS receiver for receiving GPS signals and providing vehicle position data. The device also includes a memory for storing digital security certificates and vehicle application data and a processor configured to be put in electrical communication with a vehicle CAN bus. The processor receives vehicle location signals from the GPS receiver, files from the memory and signals from the radio and providing signals for transmission to the radio. The processor identifies the vehicle that the plug-in device is coupled to and provides data on the CAN bus identifying the device. The processor also performs self-configuring operations based on type of vehicle, access to vehicle systems and location of the vehicle.Type: ApplicationFiled: June 27, 2013Publication date: January 1, 2015Inventors: Donald K. Grimm, Upali Priyantha Mudalige, Bakhtiar Brian Litkouhi
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Patent number: 8903607Abstract: A lane tracking system for a vehicle includes a front steering controller, a rear steering controller, and a lane tracking processor. The front steering controller is configured to rotate a front wheel of the vehicle through a front steering angle in response to a front steering torque command, and the rear steering controller is configured to rotate a rear wheel of the vehicle through a rear steering angle in response to a rear steering torque command. The lane tracking processor is configured to determine a desired course of the vehicle along a roadway, estimate a trajectory of the vehicle based on sensed vehicle motion, compute an error between the determined desired course and the estimated trajectory, and provide a front steering torque command to the front steering controller, and a rear steering torque command to the rear steering controller to minimize the computed error.Type: GrantFiled: January 11, 2012Date of Patent: December 2, 2014Assignee: GM Global Technology Operations LLCInventors: Jin-Woo Lee, Nikolai K. Moshchuk, Shih-Ken Chen, Bakhtiar Brian Litkouhi
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Patent number: 8903637Abstract: A system for calculating an instantaneous fuel economy for a vehicle is disclosed herein. The system includes, but is not limited to, a speed sensor that is configured to determine a current speed of the vehicle, an acceleration sensor that is configured to determine a current acceleration of the vehicle, a fuel sensor that is configured to determine a current fuel consumption rate of an internal combustion engine of the vehicle, a display unit, and a processor. The processor is communicatively coupled with the speed sensor, the acceleration sensor, and the fuel sensor, and is operatively coupled with the display unit. The processor is configured to determine the instantaneous fuel economy of the vehicle based on information obtained from the speed sensor, the acceleration sensor, and the fuel sensor. The processor is further configured to instruct the display unit to display the instantaneous fuel economy.Type: GrantFiled: March 24, 2011Date of Patent: December 2, 2014Assignee: GM Global Technology Operations LLCInventors: Jin-Woo Lee, Bakhtiar Brian Litkouhi, Elizabeth S. Nunning
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Publication number: 20140347485Abstract: A system and method for determining when to display frontal curb view images to a driver of a vehicle, and what types of images to display. A variety of factors—such as vehicle speed, GPS/location data, the existence of a curb in forward-view images, and vehicle driving history—are evaluated as potential triggers for the curb view display, which is intended for situations where the driver is pulling the vehicle into a parking spot which is bounded in front by a curb or other structure. When forward curb-view display is triggered, a second evaluation is performed to determine what image or images to display which will provide the best view of the vehicle's position relative to the curb. The selected images are digitally synthesized or enhanced, and displayed on a console-mounted or in-dash display device.Type: ApplicationFiled: May 16, 2014Publication date: November 27, 2014Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Wende Zhang, Jinsong Wang, Kent S. Lybecker, Jeffrey S. Piasecki, Bakhtiar Brian Litkouhi, Ryan M. Frakes
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Publication number: 20140347469Abstract: A system and method for creating an enhanced perspective view of an area in front of a vehicle, using images from left-front and right-front cameras. The enhanced perspective view removes the distortion and exaggerated perspective effects which are inherent in wide-angle lens images. The enhanced perspective view uses a camera model including a virtual image surface and other processing techniques which provide corrections for two types of problems which are typically present in de-warped perspective images—including a stretching effect at the peripheral area of a wide-angle image de-warped by rectilinear projection, and double image of objects in an area where left-front and right-front camera images overlap.Type: ApplicationFiled: May 16, 2014Publication date: November 27, 2014Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Wende ZHANG, Jinsong WANG, Kent S. LYBECKER, Jeffrey S. PIASECKI, Bakhtiar Brian LITKOUHI, Ryan M. FRAKES
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Publication number: 20140347470Abstract: A system and method for creating an enhanced virtual top-down view of an area in front of a vehicle, using images from left-front and right-front cameras. The enhanced virtual top-down view not only provides the driver with a top-down view perspective which is not directly available from raw camera images, but also removes the distortion and exaggerated perspective effects which are inherent in wide-angle lens images. The enhanced virtual top-down view also includes corrections for three types of problems which are typically present in de-warped images—including artificial protrusion of vehicle body parts into the image, low resolution and noise around the edges of the image, and a “double vision” effect for objects above ground level.Type: ApplicationFiled: May 16, 2014Publication date: November 27, 2014Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: WENDE ZHANG, JINSONG WANG, KENT S. LYBECKER, JEFFREY S. PIASECKI, BAKHTIAR BRIAN LITKOUHI, RYAN M. FRAKES
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Patent number: 8880287Abstract: A system and method for determining whether a vehicle driver is holding a steering wheel of the vehicle. The vehicle will include an electric power steering (EPS) system and may include an active front steering (AFS) system. The vehicle may further include autonomous or semi-autonomous driving features or safety features, such as Lane Centering Control (LCC) or Lane Keeping Assist (LKA). The system monitors steering torque and steering angle signals, determines a resonant frequency of oscillation of the steering system from the measured data, and compares the resonant frequency to a known natural frequency of the steering system. If the resonant frequency is lower than the known natural frequency, then the system knows that the vehicle driver is holding the steering wheel. A measured steering torque greater than a threshold value is also taken as an immediate indication of the driver holding the steering wheel.Type: GrantFiled: March 6, 2013Date of Patent: November 4, 2014Assignee: GM Global Technology Operations LLCInventors: Jin-Woo Lee, Bakhtiar Brian Litkouhi, Hsun-Hsuan Huang
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Patent number: 8872645Abstract: A method is provided of estimating a road grade of a current driven road. A nominal value of a vehicle operating parameter is measured during a nominal vehicle operating condition. The vehicle operating parameter is related to a vehicle thrust power. The nominal value of the vehicle operating condition is comprised of a nominal acceleration corresponding to the nominal value when the vehicle is driven on a substantially non-inclined road. The nominal value and nominal acceleration is stored in a memory. An actual value of the vehicle operating parameter is determined during a current vehicle operating condition. A vehicle acceleration corresponding to the actual value of the vehicle operating parameter is measured. The road grade of the current driven road is estimated as a function of a comparison between the measured acceleration value and the nominal acceleration that would be expected for the actual value of the vehicle operating parameter.Type: GrantFiled: February 28, 2011Date of Patent: October 28, 2014Assignee: GM Global Technology Operations LLCInventors: Jin-Woo Lee, Bakhtiar Brian Litkouhi, Elizabeth S Nunning
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Patent number: 8862321Abstract: A method of guiding a vehicle to a region for initiating a parallel parking maneuver. A region of feasible starting locations for successfully performing a parallel parking maneuver is determined by a processor. A position of the vehicle relative to the region of feasible starting locations is determined. A determination is made whether the vehicle is in a zero heading position. The vehicle is guided along an initial target path by controlling a steering actuator until the vehicle is in a zero heading position relative to the road of travel in response to the vehicle is not in the zero heading position. A planned path is generated that includes two arc-shaped trajectories extending between the vehicle at the zero heading position and a position within the region of feasible starting locations as determined by the processor. The steering actuator is controlled to follow the planned path to the feasible region.Type: GrantFiled: August 15, 2012Date of Patent: October 14, 2014Assignee: GM Global Technology Operations LLCInventors: Nikolai K. Moshchuk, Bakhtiar Brian Litkouhi, Shih-Ken Chen
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Publication number: 20140257628Abstract: A system and method for determining whether a vehicle driver is holding a steering wheel of the vehicle. The vehicle will include an electric power steering (EPS) system and may include an active front steering (AFS) system. The vehicle may further include autonomous or semi-autonomous driving features or safety features, such as Lane Centering Control (LCC) or Lane Keeping Assist (LKA). The system monitors steering torque and steering angle signals, determines a resonant frequency of oscillation of the steering system from the measured data, and compares the resonant frequency to a known natural frequency of the steering system. If the resonant frequency is lower than the known natural frequency, then the system knows that the vehicle driver is holding the steering wheel. A measured steering torque greater than a threshold value is also taken as an immediate indication of the driver holding the steering wheel.Type: ApplicationFiled: March 6, 2013Publication date: September 11, 2014Applicant: GM Global Technology Operations LLCInventors: Jin-Woo Lee, Bakhtiar Brian Litkouhi, Hsun-Hsuan Huang
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Patent number: 8818606Abstract: A method, system and computer readable medium to autonomously keep a vehicle in a lane. The method including, engaging a lane centering system configured to maintain the vehicle within the lane, at a specified lane position. Further engaging a lane keeping system when the lane centering system fails to keep the vehicle within the lane, the lane keeping system configured to return the vehicle to the lane, when the vehicle leaves or is leaving the lane. And, applying a cost function to determine the nature of engagement of the lane keeping system to return the vehicle to the lane.Type: GrantFiled: April 16, 2012Date of Patent: August 26, 2014Assignee: GM Global Technology Operations LLCInventors: Jin-Woo Lee, Bakhtiar Brian Litkouhi
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Patent number: 8810431Abstract: A vehicle merge control system includes a host communication system in a host vehicle for exchanging vehicle position and kinematics data with a remote communication system in at least one remote vehicle. A vehicle host processor determines respective positions and paths of travel of the at least one remote vehicle and the host vehicle. The host processor determines a time to intersect based on the positions and predicted paths of travel between the host vehicle and remote vehicle during a merging maneuver. A host vehicle is configured to transmit a host vehicle intention message from the host communication system to the remote communication system for negotiating a merging position between the host vehicle and the at least one remote vehicle. The host vehicle executes the merging maneuver using the negotiated merging position.Type: GrantFiled: October 20, 2011Date of Patent: August 19, 2014Assignee: GM Global Technology Operations LLCInventors: Upali Priyantha Mudalige, Bakhtiar Brian Litkouhi
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Patent number: 8788134Abstract: An autonomous driving merge management system includes an autonomous driving control device and an intention decision management system. The management system includes a candidate strategy subsystem generating a plurality of candidate driving strategies, a merging vehicle behavior recognition subsystem predicting a merging intention of a merging vehicle; an intention-based interactive prediction subsystem predicting future merging scenarios between the host vehicle and merging vehicle as a function of inputs by the merging vehicle behavior recognition subsystem and inputs by the candidate strategy subsystem, and a cost function-based evaluation subsystem determining a cost for each future merging scenario generated by the intention-based interactive prediction subsystem. A processor selects a merge strategy of the host vehicle based on intention-based prediction results and cost function-based evaluation results.Type: GrantFiled: January 4, 2013Date of Patent: July 22, 2014Assignee: GM Global Technology Operations LLCInventors: Bakhtiar Brian Litkouhi, Junqing Wei, John M. Dolan