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-0153604 (2014-01-13) |
등록번호 | US-9436880 (2016-09-06) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
|
인용정보 | 피인용 횟수 : 13 인용 특허 : 963 |
A vision system for a vehicle includes an imaging sensor having a forward field of view in a forward direction of travel of the vehicle. The imaging sensor includes an array of photosensing elements that has groupings of photosensing elements, each grouping having at least three neighboring photosen
A vision system for a vehicle includes an imaging sensor having a forward field of view in a forward direction of travel of the vehicle. The imaging sensor includes an array of photosensing elements that has groupings of photosensing elements, each grouping having at least three neighboring photosensing elements. At least one photosensing element of each grouping is a red light sensitive photosensing element and at least one other photosensing element of each grouping is a white light sensitive photosensing element. A control may process image data captured by the imaging sensor to determine a taillight of a leading vehicle present in the forward field of view and traveling ahead of and in the same direction as that of the equipped vehicle. The control may process captured image data to determine rate of approach of the equipped vehicle relative to the leading vehicle.
1. A vision system for a vehicle, said vision system comprising: an imaging sensor having a forward field of view in a forward direction of travel of a vehicle equipped with said vision system;wherein said imaging sensor comprises a lens and a CMOS imaging array comprising a two-dimensional array of
1. A vision system for a vehicle, said vision system comprising: an imaging sensor having a forward field of view in a forward direction of travel of a vehicle equipped with said vision system;wherein said imaging sensor comprises a lens and a CMOS imaging array comprising a two-dimensional array of photosensing elements;wherein said two-dimensional array of photosensing elements comprises at least 262,144 photosensing elements arranged in a matrix array of rows and columns;wherein said matrix array comprises at least 512 rows of photosensing elements;wherein said imaging sensor captures frames of image data within said forward field of view of said imaging sensor;wherein said array of photosensing elements comprises groupings of photosensing elements, each grouping having at least three neighboring photosensing elements;wherein at least one photosensing element of each grouping comprises a red light sensitive photosensing element and at least one other photosensing element of each grouping comprises a white light sensitive photosensing element;a control, wherein said control comprises an image processor that processes captured image data to determine a taillight of a leading vehicle present in said forward field of view and traveling ahead of the equipped vehicle in the same direction as that of the equipped vehicle;wherein said control, at least in part responsive to processing by said image processor of captured image data, determines distance between the leading vehicle and the equipped vehicle based, at least in part, on size of the determined taillight in captured frames of image data;wherein said control, at least in part responsive to processing by said image processor of captured image data, determines an angle between the equipped vehicle and the leading vehicle;wherein said control, at least in part responsive to processing by said image processor of captured image data, determines a lateral position of the leading vehicle relative to the equipped vehicle;wherein said control, at least in part responsive to the determined distance to the leading vehicle and the determined angle between the equipped vehicle and the leading vehicle and the determined lateral position of the leading vehicle relative to the equipped vehicle, determines the leading vehicle to be closest to the equipped vehicle as compared to other vehicles present in said forward field of view of said imaging sensor; andwherein said control, at least in part responsive to said determination of the leading vehicle being closest to the equipped vehicle, is operable to at least in part control a braking system of the equipped vehicle. 2. The vision system of claim 1, wherein said control analyzes red light sensitive photosensing elements in determining the taillight of the leading vehicle. 3. The vision system of claim 1, wherein said control processes captured image data to determine at least one of (i) intensity of a light source present in said forward field of view and (ii) spectral characteristic of a light source present in said forward field of view. 4. The vision system of claim 1, wherein said control, at least in part responsive to processing by said image processor of captured image data, determines that a light source present in said forward field of view is a taillight of the leading vehicle based, at least in part, on the intensity of the light source present in said forward field of view and its spectral characteristic being characteristic of a vehicle taillight. 5. The vision system of claim 1, wherein said control is operable to at least in part control a system of the equipped vehicle based on a determination of the leading vehicle being closest to the equipped vehicle as compared to other objects present in said forward field of view. 6. The vision system of claim 1, wherein said imaging sensor is disposed behind a windshield of the equipped vehicle and wherein said imaging sensor views through the windshield of the equipped vehicle, and wherein said imaging sensor is housed in a housing that is attached at the windshield of the equipped vehicle via a bracket. 7. The vision system of claim 1, wherein said control is operable to adjust a light beam emitted by a headlamp of the equipped vehicle responsive to processing of image data captured by said imaging sensor. 8. The vision system of claim 1, wherein said control adjusts beam light emitted by a headlamp of the equipped vehicle responsive to said control (i) processing captured image data and (ii) identifying a headlamp or taillight of another vehicle present in said forward field of view. 9. The vision system of claim 8, wherein said control adjusts beam light emitted by the headlamp of the equipped vehicle by adjusting between a first beam and a second beam. 10. The vision system of claim 1, wherein said control is operable to at least in part control a system of the equipped vehicle responsive to processing by said image processor of captured image data, and wherein said controlled system comprises at least one of (i) a lighting system of the equipped vehicle, (ii) a brake system of the equipped vehicle and (iii) a driver assistance system of the equipped vehicle. 11. The vision system of claim 1, comprising another imaging sensor having a forward field of view in a forward direction of travel of the equipped vehicle, wherein said another imaging sensor is spaced from said imaging sensor, and wherein said imaging sensor and said another imaging sensor comprise imaging sensors of a stereoscopic imaging system of the equipped vehicle. 12. A vision system for a vehicle, said vision system comprising: an imaging sensor having a forward field of view in a forward direction of travel of a vehicle equipped with said vision system;wherein said imaging sensor comprises a lens and a CMOS imaging array comprising a two-dimensional array of photosensing elements;wherein said two-dimensional array of photosensing elements comprises at least 262,144 photosensing elements arranged in a matrix array of rows and columns;wherein said matrix array comprises at least 512 rows of photosensing elements;wherein said imaging sensor captures frames of image data within said forward field of view of said imaging sensor;wherein said array of photosensing elements comprises groupings of photosensing elements, each grouping having at least three neighboring photosensing elements;wherein at least one photosensing element of each grouping comprises a red light sensitive photosensing element and at least one other photosensing element of each grouping comprises a white light sensitive photosensing element;a control, wherein said control comprises an image processor that processes captured image data to determine a taillight of a leading vehicle present in said forward field of view and traveling ahead of the equipped vehicle in the same direction as that of the equipped vehicle;wherein said control, at least in part responsive to processing by said image processor of captured image data, determines distance between the leading vehicle and the equipped vehicle based, at least in part, on size of the determined taillight in captured frames of image data;wherein said imaging sensor is disposed behind a windshield of the equipped vehicle and wherein said imaging sensor views through the windshield of the equipped vehicle and wherein said imaging sensor is housed in a housing that is attached at the windshield of the equipped vehicle via a bracket;wherein said control is operable to at least in part control a system of the equipped vehicle responsive to processing by said image processor of captured image data, and wherein said controlled system comprises at least one of (i) a lighting system of the equipped vehicle, (ii) a brake system of the equipped vehicle and (iii) a driver assistance system of the equipped vehicle;wherein said control, at least in part responsive to processing by said image processor of captured image data, determines an angle between the equipped vehicle and the leading vehicle;wherein said control, at least in part responsive to processing by said image processor of captured image data, determines a lateral position of the leading vehicle relative to the equipped vehicle;wherein said control, at least in part responsive to the determined distance to the leading vehicle and the determined angle between the equipped vehicle and the leading vehicle and the determined lateral position of the leading vehicle relative to the equipped vehicle, determines the leading vehicle to be closest to the equipped vehicle as compared to other vehicles present in said forward field of view of said imaging sensor; andwherein said control, at least in part responsive to said determination of the leading vehicle being closest to the equipped vehicle, is operable to at least in part control a braking system of the equipped vehicle. 13. The vision system of claim 12, wherein said control analyzes red light sensitive photosensing elements in determining the taillight of the leading vehicle. 14. A vision system for a vehicle, said vision system comprising: an imaging sensor having a forward field of view in a forward direction of travel of a vehicle equipped with said vision system;wherein said imaging sensor comprises a lens and a CMOS imaging array comprising a two-dimensional array of photosensing elements;wherein said two-dimensional array of photosensing elements comprises at least 262,144 photosensing elements arranged in a matrix array of rows and columns;wherein said matrix array comprises at least 512 rows of photosensing elements;wherein said imaging sensor captures frames of image data within said forward field of view of said imagine sensor;wherein said array of photosensing elements comprises groupings of photosensing elements, each grouping having at least three neighboring photosensing elements;wherein at least one photosensing element of each grouping comprises a red light sensitive photosensing element and at least one other photosensing element of each grouping comprises a white light sensitive photosensing element;a control, wherein said control comprises an image processor that processes captured image data to determine a taillight of a leading vehicle present in said forward field of view and traveling ahead of the equipped vehicle in the same direction as that of the equipped vehicle;wherein said control, at least in part responsive to processing by said image processor of captured image data, determines distance between the leading vehicle and the equipped vehicle based, at least in part, on size of the determined taillight in captured frames of image data;wherein said imaging sensor is disposed behind a windshield of the equipped vehicle and wherein said imaging sensor views through the windshield of the equipped vehicle and wherein said imaging sensor is housed in a housing that is attached at the windshield of the equipped vehicle via a bracket;wherein said control is operable to at least in part control a system of the equipped vehicle responsive to processing by said image processor of captured image data, and wherein said controlled system comprises at least one of (i) a lighting system of the equipped vehicle, (ii) a brake system of the equipped vehicle and (iii) a driver assistance system of the equipped vehicle;wherein said control, at least in part responsive to processing by said image processor of captured image data, determines that a light source present in said forward field of view is a taillight of the leading vehicle based, at least in part, on the intensity of the light source present in said forward field of view and its spectral characteristic being characteristic of a vehicle taillight;wherein said control, at least in part responsive to processing by said image processor of captured image data, determines an angle between the equipped vehicle and the leading vehicle;wherein said control, at least in part responsive to processing by said image processor of captured image data, determines a lateral position of the leading vehicle relative to the equipped vehicle;wherein said control, at least in part responsive to the determined distance to the leading vehicle and the determined angle between the equipped vehicle and the leading vehicle and the determined lateral position of the leading vehicle relative to the equipped vehicle, determines the leading vehicle to be closest to the equipped vehicle as compared to other vehicles present in said forward field of view of said imaging sensor; andwherein said control, at least in part responsive to said determination of the leading vehicle being closest to the equipped vehicle, is operable to at least in part control a braking system of the equipped vehicle. 15. The vision system of claim 14, wherein said control analyzes red light sensitive photosensing elements in determining the taillight of the leading vehicle. 16. The vision system of claim 15, wherein said control, at least in part responsive to processing by said image processor of captured image data, is operable to at least in part control an accessory of the equipped vehicle based on a determination of the leading vehicle being closest to the equipped vehicle as compared to other objects present in said forward field of view. 17. The vision system of claim 15, wherein said control, at least in part responsive to processing by said image processor of captured image data, determines distance between the equipped vehicle and the leading vehicle at least in part responsive to position of the determined taillight.
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