Patent application number | Description | Published |
20090147083 | OBJECT DETECTION SYSTEM FOR VEHICLE - An imaging system for a vehicle includes an imaging sensor and a control. The imaging sensor is operable to capture an image of a scene occurring exteriorly of the vehicle. The control is responsive to the imaging sensor. The imaging system may be associated with a side object detection system, a lane change assist system, a lane departure warning system, a monitoring system, a passive steering system and/or the like. The control may be operable to process a reduced image data set more than other image data, which are representative of areas of the captured image outside of a target zone, to detect objects present within the target zone. | 06-11-2009 |
20100002081 | OBJECT DETECTION SYSTEM FOR VEHICLE - An imaging system for a vehicle includes an imaging sensor and a control. The imaging sensor is operable to capture an image of a scene occurring exteriorly of the vehicle. The control is responsive to the imaging sensor. The imaging system may be associated with a side object detection system, a lane change assist system, a lane departure warning system, a monitoring system, a passive steering system and/or the like. The control may be operable to process a reduced image data set more than other image data, which are representative of areas of the captured image outside of a target zone, to detect objects present within the target zone. | 01-07-2010 |
20100188508 | VEHICULAR VIDEO SYSTEM - A vehicle-based video processor module for a video system of a vehicle includes a video processor circuit, a plurality of electronic sensor interfaces that are operable to receive image output data from a plurality of imaging devices and at least one electronic vehicle interface that is operable to communicate with a vehicle communication bus. The video processor circuit is operable to process the image output data from the plurality of imaging devices in a single database in a standard format and enhances the image output data. | 07-29-2010 |
20130063600 | VISION SYSTEM FOR VEHICLE - A vision system for a vehicle includes an imaging sensor operable to capture an image data set representative of a scene occurring in the exterior field of view of the imaging sensor. A processor processes the captured image data set via an edge detection algorithm, which is applied to a reduced image data set of the captured image data set to detect edges of objects present exteriorly of the equipped vehicle and within a target zone within the exterior field of view of the imaging sensor. The reduced data set is processed more than other image data of the captured image data set in order to detect objects present exteriorly of the equipped vehicle and within the target zone. The target zone encompasses a geographic area of the exterior scene where an object of interest to the driver of the equipped vehicle is realistically expected to be present. | 03-14-2013 |
20130194381 | VEHICULAR VISION SYSTEM - A vehicular vision system includes at least three cameras disposed at the vehicle and having respective fields of view exterior of the vehicle and operable to capture image data. Image data received at a video processor module is processed by a video processor of the video processor module. The received image data is processed by the video processor to generate a synthesized image. The synthesized image is output from the video processor module for display by a single display screen of a display device that is viewable by a driver of the equipped vehicle when normally operating the vehicle. The video processor may be operable for least one of (i) object tracking, (ii) object classification, (iii) diagnostics, (iv) camera selection, (v) camera control, (vi) on-screen display generation, (vii) data storage and (viii) data exchange. | 08-01-2013 |
20140204212 | VISION SYSTEM FOR VEHICLE - A vision system for a vehicle includes a single forward facing camera and a control having a processor, with the camera and processor disposed in a unitary module installed in the vehicle. The processor, responsive to processing of captured image data, detects headlights of oncoming vehicles and the control, responsive to the detection, provides an output for a headlamp control system of the vehicle. The processor, responsive to processing of captured image data, detects lane marks on a road being traveled by the vehicle and, responsive to the detection, provides an output for a lane departure warning system of the vehicle. The processor may estimate distance from the vehicle to an object or vehicle present exteriorly of the vehicle. The module is supplied by an automotive supplier to the vehicle manufacturer with software operable by the processor for a plurality of driver assistance systems of the vehicle. | 07-24-2014 |
20160046288 | VISION SYSTEM FOR VEHICLE - 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 taillights of leading vehicles during nighttime conditions and, responsive to processing of captured image data, detects lane markers on a road being traveled by the vehicle. The control, responsive to lane marker detection and a determination that the vehicle is drifting out of a traffic lane, may control a steering system of the vehicle to mitigate such drifting, with the steering system manually controllable by a driver of the vehicle irrespective of control by the control. The processor, based at least in part on detection of lane markers via processing of captured image data, determines curvature of the road being traveled by the vehicle. | 02-18-2016 |
20160068104 | DRIVER ASSIST SYSTEM FOR VEHICLE - A driver assist system suitable for use in a vehicle includes a plurality of vehicular cameras disposed at the vehicle and a plurality of non-video sensors disposed at the vehicle. The cameras capture image data and at least one non-video sensor captures sensor data. A video processor module receives image data captured by the cameras and receives sensor data captured by the at least one non-video sensor. The received image data is fused with received sensor data at the video processor module. The video processor module communicates with other vehicle systems via a vehicle bus of the vehicle. Received image data is processed at the video processor module to generate a synthesized image, which is displayed by a display screen. Responsive at least in part to fusing of image data and sensor data at the video processor module, a driver assistance system of the equipped vehicle is controlled. | 03-10-2016 |