1
John A Pawlicki, Martha A McMahon, Steven G Chinn, Joel S Gibson: Driver assistance system for vehicle. MAGNA ELECTRONICS, Gardner Linn Burkhart & Flory, January 31, 2017: US09555803 (9 worldwide citation)

A driver assistance system for a vehicle includes a forward-viewing camera disposed in a windshield electronics module attached at a windshield of the vehicle and viewing through the windshield. A control includes a processor that, responsive to processing of captured image data, detects lane marker ...


2
John A Pawlicki, Martha A McMahon, Steven G Chinn, Joel S Gibson: Vehicular control system using cameras and radar sensor. MAGNA ELECTRONICS, Gardner Linn Burkhart & Flory, December 5, 2017: US09834216 (6 worldwide citation)

A vehicular control system includes a plurality of cameras that capture image data, at least one radar sensor that senses radar data and a control that processes image data captured by the cameras and sensed radar data. The control, responsive to processing of captured image data, detects lane marke ...


3
Amnon Shashua, Yoram Gdalyahu, Ofer Springer, Aran Reisman, Daniel Braunstein: Autonomous vehicle navigation based on recognized landmarks. Mobileye Vision Technologies, Finnegan Henderson Farabow Garrett & Dunner, April 18, 2017: US09623905 (5 worldwide citation)

A system for autonomously navigating a vehicle along a road segment is disclosed. The system may have at least one processor. The processor may be programmed to receive from an image capture device at least one image representative of an environment of the vehicle. The processor may also be programm ...


4
John A Pawlicki, Martha A McMahon, Steven G Chinn, Joel S Gibson: Vision system for vehicle. MAGNA ELECTRONICS, Gardner Linn Burkhart & Flory, May 9, 2017: US09643605 (4 worldwide citation)

A forward-facing vision system for a vehicle includes a forward-facing camera disposed in a windshield electronics module attached at a windshield of the vehicle and viewing through the windshield. A control includes a processor that, responsive to processing of captured image data, detects tailligh ...


5
Amnon Shashua, Yoram Gdalyahu, Ofer Springer, Aran Reisman, Daniel Braunstein: Sparse map for autonomous vehicle navigation. MOBILEYE VISION TECHNOLOGIES, Finnegan Henderson Farabow Garrett & Dunner, May 30, 2017: US09665100 (4 worldwide citation)

A non-transitory computer-readable medium is provided. The computer-readable medium includes a sparse map for autonomous vehicle navigation along a road segment. The sparse map includes a polynomial representation of a target trajectory for the autonomous vehicle along the road segment, and a plural ...


6
Daniel Braunstein, Yoram Gdalyahu, Sergey Rubinsky: Autonomous vehicle speed calibration. Mobileye Vision Technologies, Finnegan Henderson Farabow Garrett & Dunner, November 14, 2017: US09817399 (4 worldwide citation)

Systems and methods may calibrate an indicator of speed of an autonomous vehicle. In one implementation, a system may include at least one processor programmed to: receive from a camera at least a plurality of images representative of an environment of the vehicle; analyze the plurality of images to ...


7
Yuval Aviel: Super landmarks as navigation aids. Mobileye Vision Technologies, Finnegan Henderson Farabow Garrett & Dunner, July 4, 2017: US09696719 (4 worldwide citation)

Systems and methods are provided for autonomously navigating a vehicle along a road segment. In one implementation, a system includes at least one processor programmed to receive from a camera at least one image representative of an environment of the vehicle. The at least one image may be analyzed ...


8
Amnon Shashua, Shai Shalev Shwartz: Systems and systems for identifying landmarks. MOBILEYE VISION TECHNOLOGIES, Finnegan Henderson Farabow Garrett & Dunner, April 25, 2017: US09631943 (3 worldwide citation)

A system for identifying a landmark for use in autonomous vehicle navigation is provided. The system includes at least one processor programmed to receive at least one identifier associated with the landmark; associate the landmark with a corresponding road segment; update an autonomous vehicle road ...


9
Amnon Shashua, Aran Reisman, Daniel Braunstein, Yoav Taieb, Igor Tubis: Autonomous vehicle tail alignment navigation. Mobileye Vision Technologies, Finnegan Henderson Farabow Garrett & Dunner, June 27, 2017: US09690293 (3 worldwide citation)

A system for navigating an autonomous vehicle along a road segment is disclosed. The system may have at least one processor. The processor may be programmed to receive from an image capture device, images representative of an environment of the autonomous vehicle. The processor may also be programme ...


10
Niall R Lynam, Axel Nix: Driver active safety control system for vehicle. Magna Electronics, Gardner Linn Burkhart & Flory, March 6, 2018: US09911050 (1 worldwide citation)

A driver active safety control system for a vehicle includes a plurality of image capture sensors, a video display screen, a central driver active safety control module and at least one non-imaging sensor. The control module at least includes an image processor, a vision core and a fusion core. The ...