최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0942087 (2015-11-16) |
등록번호 | US-9376060 (2016-06-28) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 3 인용 특허 : 493 |
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 receive
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.
1. A driver assist system suitable for use in a vehicle, said driver assist system comprising: a plurality of video sensors disposed at a vehicle equipped with said vehicular driver assist system;said plurality of video sensors comprising at least four vehicular cameras;said at least four vehicular
1. A driver assist system suitable for use in a vehicle, said driver assist system comprising: a plurality of video sensors disposed at a vehicle equipped with said vehicular driver assist system;said plurality of video sensors comprising at least four vehicular cameras;said at least four vehicular cameras comprising a first vehicular camera disposed at a driver side of the equipped vehicle;said at least four vehicular cameras comprising a second vehicular camera disposed at a passenger side of the equipped vehicle;said at least four vehicular cameras comprising a third vehicular camera disposed at a rear portion of the equipped vehicle;said at least four vehicular cameras comprising a fourth vehicular camera disposed at a front portion of the equipped vehicle;wherein said first vehicular camera has a first field of view exterior of the equipped vehicle and is operable to capture first image data;wherein said second vehicular camera has a second field of view exterior of the equipped vehicle and is operable to capture second image data;wherein said third vehicular camera has a third field of view exterior of the equipped vehicle and is operable to capture third image data;wherein said fourth vehicular camera has a fourth field of view exterior of the equipped vehicle and is operable to capture fourth image data;wherein said first vehicular camera comprises a CMOS imaging sensor and wherein said second vehicular camera comprises a CMOS imaging sensor and wherein said third vehicular camera comprises a CMOS imaging sensor and wherein said fourth vehicular camera comprises a CMOS imaging sensor;a plurality of non-video sensors disposed at the equipped vehicle;said plurality of non-video sensors comprising at least one non-video sensor selected from the group consisting of a radar sensor, a near-infrared sensor, a far-infrared sensor, a thermal sensor and a sonar sensor;wherein said at least one non-video sensor is operable to capture sensor data;a video processor module;wherein said video processor module receives first image data captured by said first vehicular camera;wherein said video processor module receives second image data captured by said second vehicular camera;wherein said video processor module receives third image data captured by said third vehicular camera;wherein said video processor module receives fourth image data captured by said fourth vehicular camera;wherein said video processor module receives sensor data captured by said at least one non-video sensor;wherein received image data is fused with received sensor data at said video processor module;wherein said video processor module communicates with other vehicle systems via a vehicle bus of the equipped vehicle;wherein received image data is processed at said video processor module to generate a synthesized image;wherein said synthesized image is output from said video processor module for display by a single display screen of a display device of the equipped vehicle that is viewable by a driver of the equipped vehicle when normally operating the equipped vehicle;wherein said synthesized image displayed by said display screen approximates a substantially seamless view as would be viewed from a single virtual camera located exterior the equipped vehicle; andwherein, responsive at least in part to fusing of image data and sensor data at said video processor module, a driver assistance system of the equipped vehicle is controlled. 2. The driver assist system of claim 1, wherein said video processor module receives first image data captured by said first vehicular camera at a first interface via a vehicle bus of the equipped vehicle, and wherein said video processor module receives second image data captured by said second vehicular camera at a second interface via a vehicle bus of the equipped vehicle, and wherein said video processor module receives third image data captured by said third vehicular camera at a third interface via a vehicle bus of the equipped vehicle, and wherein said video processor module receives fourth image data captured by said fourth vehicular camera at a fourth interface via a vehicle bus of the equipped vehicle. 3. The driver assist system of claim 2, wherein said video processor module comprises at least one non-video sensor interface configured for communication with said at least one non-video sensor of the equipped vehicle, and wherein said video processor module communicates with said at least one non-video sensor via a vehicle bus of the equipped vehicle. 4. The driver assist system of claim 1, wherein said synthesized image displayed by said display screen is algorithmically stabilized at said video processor module. 5. The driver assist system of claim 1, wherein said first vehicular camera is disposed at a driver-side exterior mirror assembly at the driver side of the equipped vehicle and wherein said second vehicular camera is disposed at a passenger-side exterior mirror assembly at the passenger side of the equipped vehicle. 6. The driver assist system of claim 1, wherein objects external to the equipped vehicle are tracked based at least in part on processing of captured image data and captured sensor data at said video processor module. 7. The driver assist system of claim 1, wherein an object external to the equipped vehicle is detected, at least in part, via processing of image data at said video processor module. 8. The driver assist system of claim 7, wherein position of the object external the equipped vehicle is detected via processing of image data at said video processor module. 9. The driver assist system of claim 1, wherein said synthesized image displayed by said display screen approximates a panoramic view as would be viewed from a single virtual camera located exterior the equipped vehicle. 10. The driver assist system of claim 1, wherein said video processor module communicates with other vehicle systems via a CAN vehicle bus of the equipped vehicle. 11. The driver assist system of claim 1, wherein image data captured by a forward-facing camera viewing through a windshield of the equipped vehicle is provided to said video processor module. 12. The driver assist system of claim 11, wherein image data captured by said forward-facing camera is processed at said video processor module for an automatic headlamp controller of the equipped vehicle. 13. The driver assist system of claim 11, wherein image data captured by said forward-facing camera is processed at said video processor module for a lane departure warning system of the equipped vehicle. 14. A driver assist system suitable for use in a vehicle, said driver assist system comprising: a plurality of video sensors disposed at a vehicle equipped with said vehicular driver assist system;said plurality of video sensors comprising at least four vehicular cameras;said at least four vehicular cameras comprising a first vehicular camera disposed at a driver-side exterior mirror assembly of the equipped vehicle;said at least four vehicular cameras comprising a second vehicular camera disposed at a passenger-side exterior mirror assembly of the equipped vehicle;said at least four vehicular cameras comprising a third vehicular camera disposed at a rear portion of the equipped vehicle;said at least four vehicular cameras comprising a fourth vehicular camera disposed at a front portion of the equipped vehicle;wherein said first vehicular camera has a first field of view exterior of the equipped vehicle and is operable to capture first image data;wherein said second vehicular camera has a second field of view exterior of the equipped vehicle and is operable to capture second image data;wherein said third vehicular camera has a third field of view exterior of the equipped vehicle and is operable to capture third image data;wherein said fourth vehicular camera has a fourth field of view exterior of the equipped vehicle and is operable to capture fourth image data;wherein said first vehicular camera comprises a CMOS imaging sensor and wherein said second vehicular camera comprises a CMOS imaging sensor and wherein said third vehicular camera comprises a CMOS imaging sensor and wherein said fourth vehicular camera comprises a CMOS imaging sensor;a plurality of radar sensors disposed at the equipped vehicle;wherein said radar sensors are operable to capture radar data;a video processor module;wherein said video processor module receives first image data captured by said first vehicular camera;wherein said video processor module receives second image data captured by said second vehicular camera;wherein said video processor module receives third image data captured by said third vehicular camera;wherein said video processor module receives fourth image data captured by said fourth vehicular camera;wherein said video processor module receives radar data captured by said radar sensors;wherein said video processor module communicates with other vehicle systems via a vehicle bus of the equipped vehicle;wherein received image data is processed at said video processor module to generate a synthesized image;wherein said synthesized image is output from said video processor module for display by a single display screen of a display device of the equipped vehicle that is viewable by a driver of the equipped vehicle when normally operating the equipped vehicle;wherein said synthesized image displayed by said display screen approximates a substantially seamless view as would be viewed from a single virtual camera located exterior the equipped vehicle;wherein image data captured by a forward-facing camera viewing through a windshield of the equipped vehicle is provided to said video processor module; andwherein image data captured by said forward-facing camera is processed at said video processor module for an automatic headlamp controller of the equipped vehicle. 15. The driver assist system of claim 14, wherein image data captured by said forward-facing camera is processed at said video processor module for a lane departure warning system of the equipped vehicle. 16. The driver assist system of claim 15, wherein received image data is fused with received radar data at said video processor module and wherein, responsive at least in part to fusing of image data and radar data at said video processor module, a driver assistance system of the equipped vehicle is controlled. 17. The driver assist system of claim 16, wherein an object external to the equipped vehicle is detected, at least in part, via processing of image data at said video processor module, and wherein position of the object external the equipped vehicle is detected via processing of image data at said video processor module. 18. The driver assist system of claim 14, wherein said video processor module receives first image data captured by said first vehicular camera at a first interface, and wherein said video processor module receives second image data captured by said second vehicular camera at a second interface, and wherein said video processor module receives third image data captured by said third vehicular camera at a third interface, and wherein said video processor module receives fourth image data captured by said fourth vehicular camera at a fourth interface, and wherein said video processor module comprises a non-video sensor interface configured for communication with a radar sensor of said plurality of radar sensors of the equipped vehicle. 19. The driver assist system of claim 18, wherein objects external to the equipped vehicle are tracked based at least in part on processing of captured image data and captured radar data at said video processor module. 20. A driver assist system suitable for use in a vehicle, said driver assist system comprising: a plurality of video sensors disposed at a vehicle equipped with said vehicular driver assist system;said plurality of video sensors comprising at least four vehicular cameras;said at least four vehicular cameras comprising a first vehicular camera disposed at a driver-side exterior mirror assembly of the equipped vehicle;said at least four vehicular cameras comprising a second vehicular camera disposed at a passenger-side exterior mirror assembly of the equipped vehicle;said at least four vehicular cameras comprising a third vehicular camera disposed at a rear portion of the equipped vehicle;said at least four vehicular cameras comprising a fourth vehicular camera disposed at a front portion of the equipped vehicle;wherein said first vehicular camera has a first field of view exterior of the equipped vehicle and is operable to capture first image data;wherein said second vehicular camera has a second field of view exterior of the equipped vehicle and is operable to capture second image data;wherein said third vehicular camera has a third field of view exterior of the equipped vehicle and is operable to capture third image data;wherein said fourth vehicular camera has a fourth field of view exterior of the equipped vehicle and is operable to capture fourth image data;wherein said first vehicular camera comprises a CMOS imaging sensor and wherein said second vehicular camera comprises a CMOS imaging sensor and wherein said third vehicular camera comprises a CMOS imaging sensor and wherein said fourth vehicular camera comprises a CMOS imaging sensor;a plurality of non-video sensors disposed at the equipped vehicle;wherein said non-video sensors are operable to capture sensor data;a video processor module;wherein said video processor module receives first image data captured by said first vehicular camera;wherein said video processor module receives second image data captured by said second vehicular camera;wherein said video processor module receives third image data captured by said third vehicular camera;wherein said video processor module receives fourth image data captured by said fourth vehicular camera;wherein said video processor module receives sensor data captured by said non-video sensors;wherein said video processor module communicates with other vehicle systems via a vehicle bus of the equipped vehicle;wherein received image data is processed at said video processor module to generate a synthesized image;wherein said synthesized image is output from said video processor module for display by a single display screen of a display device of the equipped vehicle that is viewable by a driver of the equipped vehicle when normally operating the equipped vehicle;wherein said synthesized image displayed by said display screen approximates a substantially seamless view as would be viewed from a single virtual camera located exterior the equipped vehicle;wherein image data captured by a forward-facing camera viewing through a windshield of the equipped vehicle is provided to said video processor module;wherein image data captured by said forward-facing camera is processed at said video processor module for an automatic headlamp controller of the equipped vehicle;wherein image data captured by said forward-facing camera is processed at said video processor module for a lane departure warning system of the equipped vehicle; andwherein objects external to the equipped vehicle are tracked based at least in part on processing of captured image data and captured sensor data at said video processor module. 21. The driver assist system of claim 20, wherein an object external to the equipped vehicle is detected, at least in part, via processing of image data at said video processor module. 22. The driver assist system of claim 21, wherein position of the object external the equipped vehicle is detected via processing of image data at said video processor module. 23. The driver assist system of claim 20, wherein received image data is fused with received sensor data at said video processor module and wherein, responsive at least in part to fusing of image data and sensor data at said video processor module, a driver assistance system of the equipped vehicle is controlled. 24. The driver assist system of claim 20, wherein said plurality of non-video sensors comprises a radar sensor and at least one non-video sensor selected from the group consisting of a near-infrared sensor, a far-infrared sensor, a thermal sensor and a sonar sensor. 25. The driver assist system of claim 24, wherein said video processor module receives first image data captured by said first vehicular camera at a first interface, and wherein said video processor module receives second image data captured by said second vehicular camera at a second interface, and wherein said video processor module receives third image data captured by said third vehicular camera at a third interface, and wherein said video processor module receives fourth image data captured by said fourth vehicular camera at a fourth interface, and wherein said video processor module comprises a non-video sensor interface configured for communication with said radar sensor of said plurality of non-video sensors of the equipped vehicle. 26. The driver assist system of claim 25, wherein said video processor module communicates with other vehicle systems via a CAN vehicle bus of the equipped vehicle. 27. The driver assist system of claim 26, wherein said synthesized image displayed by said display screen approximates a panoramic view as would be viewed from a single virtual camera located exterior the equipped vehicle.
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