Vehicle vision system utilizing multiple cameras and ethernet links
First Claim
1. A vehicular vision system, said vehicular vision system comprising:
- a plurality of cameras disposed at a vehicle equipped with said vision system;
wherein said plurality of cameras comprises at least a first camera, a second camera, a third camera and a fourth camera;
each of said first camera, said second camera, said third camera and said fourth camera having a respective field of view exterior of the equipped vehicle;
each of said first camera, said second camera, said third camera and said fourth camera being operable to capture frames of image data;
an electronic control unit (ECU);
wherein image data captured by said first camera is provided to the ECU via a first ETHERNET link from said first camera to the ECU;
wherein image data captured by said second camera is provided to the ECU via a second ETHERNET link from said second camera to the ECU;
wherein image data captured by said third camera is provided to the ECU via a third ETHERNET link from said third camera to the ECU;
wherein image data captured by said fourth camera is provided to the ECU via a fourth ETHERNET link from said fourth camera to the ECU;
wherein at least one control signal is provided from the ECU to said first camera via said first ETHERNET link;
wherein at least one control signal is provided from the ECU to said second camera via said second ETHERNET link;
wherein at least one control signal is provided from the ECU to said third camera via said third ETHERNET link;
wherein at least one control signal is provided from the ECU to said fourth camera via said fourth ETHERNET link;
wherein first camera calibration data is provided from said first camera to the ECU via said first ETHERNET link;
wherein second camera calibration data is provided from said second camera to the ECU via said second ETHERNET link;
wherein third camera calibration data is provided from said third camera to the ECU via said third ETHERNET link;
wherein fourth camera calibration data is provided from said fourth camera to the ECU via said fourth ETHERNET link;
wherein said first camera is disposed at a front portion of the equipped vehicle, and wherein said second camera is disposed at a driver-side side portion of the equipped vehicle, and wherein said third camera is disposed at a passenger-side side portion of the equipped vehicle, and wherein said fourth camera is disposed at a rear portion of the equipped vehicle;
wherein image data captured by at least one of said first camera, said second camera, said third camera and said fourth camera is processed at the ECU to detect an object present exterior of the equipped vehicle;
wherein the object present exterior of the equipped vehicle is exterior a side of the equipped vehicle;
wherein the object present exterior the side of the equipped vehicle comprises a vehicle that is approaching the equipped vehicle; and
wherein the vehicle that is approaching the equipped vehicle is traveling in a traffic lane adjacent to a traffic lane in which the equipped vehicle is traveling.
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Accused Products
Abstract
A vehicular vision system includes a plurality of cameras disposed at the vehicle and having respective fields of view exterior of the vehicle and being operable to capture frames of image data. Image data captured by each of the cameras is provided to an ECU via an ETHERNET link from the respective camera to the ECU. At least one control signal for controlling operation of each camera is provided from the ECU to the respective camera via the respective ETHERNET link. Image data captured by at least one of the cameras is processed at the ECU to detect an object present exterior of the equipped vehicle, wherein the object is a vehicle that is approaching the equipped vehicle and that is traveling in a traffic lane adjacent to a traffic lane in which the equipped vehicle is traveling.
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Citations
20 Claims
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1. A vehicular vision system, said vehicular vision system comprising:
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a plurality of cameras disposed at a vehicle equipped with said vision system; wherein said plurality of cameras comprises at least a first camera, a second camera, a third camera and a fourth camera; each of said first camera, said second camera, said third camera and said fourth camera having a respective field of view exterior of the equipped vehicle; each of said first camera, said second camera, said third camera and said fourth camera being operable to capture frames of image data; an electronic control unit (ECU); wherein image data captured by said first camera is provided to the ECU via a first ETHERNET link from said first camera to the ECU; wherein image data captured by said second camera is provided to the ECU via a second ETHERNET link from said second camera to the ECU; wherein image data captured by said third camera is provided to the ECU via a third ETHERNET link from said third camera to the ECU; wherein image data captured by said fourth camera is provided to the ECU via a fourth ETHERNET link from said fourth camera to the ECU; wherein at least one control signal is provided from the ECU to said first camera via said first ETHERNET link; wherein at least one control signal is provided from the ECU to said second camera via said second ETHERNET link; wherein at least one control signal is provided from the ECU to said third camera via said third ETHERNET link; wherein at least one control signal is provided from the ECU to said fourth camera via said fourth ETHERNET link; wherein first camera calibration data is provided from said first camera to the ECU via said first ETHERNET link; wherein second camera calibration data is provided from said second camera to the ECU via said second ETHERNET link; wherein third camera calibration data is provided from said third camera to the ECU via said third ETHERNET link; wherein fourth camera calibration data is provided from said fourth camera to the ECU via said fourth ETHERNET link; wherein said first camera is disposed at a front portion of the equipped vehicle, and wherein said second camera is disposed at a driver-side side portion of the equipped vehicle, and wherein said third camera is disposed at a passenger-side side portion of the equipped vehicle, and wherein said fourth camera is disposed at a rear portion of the equipped vehicle; wherein image data captured by at least one of said first camera, said second camera, said third camera and said fourth camera is processed at the ECU to detect an object present exterior of the equipped vehicle; wherein the object present exterior of the equipped vehicle is exterior a side of the equipped vehicle; wherein the object present exterior the side of the equipped vehicle comprises a vehicle that is approaching the equipped vehicle; and wherein the vehicle that is approaching the equipped vehicle is traveling in a traffic lane adjacent to a traffic lane in which the equipped vehicle is traveling. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A vehicular vision system, said vehicular vision system comprising:
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a plurality of cameras disposed at a vehicle equipped with said vision system; wherein said plurality of cameras comprises at least a first camera, a second camera, a third camera and a fourth camera; each of said first camera, said second camera, said third camera and said fourth camera having a respective field of view exterior of the equipped vehicle; each of said first camera, said second camera, said third camera and said fourth camera being operable to capture frames of image data; wherein said first camera, said second camera, said third camera and said fourth camera are part of a surround view system of the equipped vehicle; an electronic control unit (ECU); wherein image data captured by said first camera is provided to the ECU via a first ETHERNET link from said first camera to the ECU; wherein image data captured by said second camera is provided to the ECU via a second ETHERNET link from said second camera to the ECU; wherein image data captured by said third camera is provided to the ECU via a third ETHERNET link from said third camera to the ECU; wherein image data captured by said fourth camera is provided to the ECU via a fourth ETHERNET link from said fourth camera to the ECU; wherein at least one control signal is provided from the ECU to said first camera via said first ETHERNET link; wherein at least one control signal is provided from the ECU to said second camera via said second ETHERNET link; wherein at least one control signal is provided from the ECU to said third camera via said third ETHERNET link; wherein at least one control signal is provided from the ECU to said fourth camera via said fourth ETHERNET link; wherein first camera calibration data is provided from said first camera to the ECU via said first ETHERNET link; wherein second camera calibration data is provided from said second camera to the ECU via said second ETHERNET link; wherein third camera calibration data is provided from said third camera to the ECU via said third ETHERNET link; wherein fourth camera calibration data is provided from said fourth camera to the ECU via said fourth ETHERNET link; wherein, upon powering said first camera, said first ETHERNET link is initialized to establish communication with said first camera; wherein, upon powering said second camera, said second ETHERNET link is initialized to establish communication with said second camera; wherein, upon powering said third camera, said third ETHERNET link is initialized to establish communication with said third camera; wherein, upon powering said fourth camera, said fourth ETHERNET link is initialized to establish communication with said fourth camera; wherein said first camera is disposed at a front portion of the equipped vehicle, and wherein said second camera is disposed at a driver-side side portion of the equipped vehicle, and wherein said third camera is disposed at a passenger-side side portion of the equipped vehicle, and wherein said fourth camera is disposed at a rear portion of the equipped vehicle; wherein image data captured by at least one of said first camera, said second camera, said third camera and said fourth camera is processed at the ECU to detect an object present exterior of the equipped vehicle; wherein the object present exterior of the equipped vehicle is exterior a side of the equipped vehicle; wherein the object present exterior the side of the equipped vehicle comprises a vehicle that is approaching the equipped vehicle; and wherein the vehicle that is approaching the equipped vehicle traveling in a traffic lane adjacent to a traffic lane in which the equipped vehicle is traveling. - View Dependent Claims (14, 15, 16)
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17. A vehicular vision system, said vehicular vision system comprising:
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a plurality of cameras disposed at a vehicle equipped with said vision system; wherein said plurality of cameras comprises at least a first camera, a second camera, a third camera and a fourth camera; wherein said first camera comprises a first megapixel imaging array having at least one million photosensing elements arranged in columns and rows of photosensing elements; wherein said second camera comprises a second megapixel imaging array having at least one million photosensing elements arranged in columns and rows of photosensing elements; wherein said third camera comprises a third megapixel imaging array having at least one million photosensing elements arranged in columns and rows of photosensing elements; wherein said fourth camera comprises a fourth megapixel imaging array having at least one million photosensing elements arranged in columns and rows of photosensing elements; each of said first camera, said second camera, said third camera and said fourth camera having a respective field of view exterior of the equipped vehicle; each of said first camera, said second camera, said third camera and said fourth camera being operable to capture frames of image data; wherein said first camera, said second camera, said third camera and said fourth camera are part of a surround view system of the equipped vehicle; an electronic control unit (ECU); wherein image data captured by said first camera is provided to the ECU via a first ETHERNET link from said first camera to the ECU; wherein image data captured by said second camera is provided to the ECU via a second ETHERNET link from said second camera to the ECU; wherein image data captured by said third camera is provided to the ECU via a third ETHERNET link from said third camera to the ECU; wherein image data captured by said fourth camera is provided to the ECU via a fourth ETHERNET link from said fourth camera to the ECU; wherein at least one control signal is provided from the ECU to said first camera via said first ETHERNET link; wherein at least one control signal is provided from the ECU to said second camera via said second ETHERNET link; wherein at least one control signal is provided from the ECU to said third camera via said third ETHERNET link; wherein at least one control signal is provided from the ECU to said fourth camera via said fourth ETHERNET link; wherein first camera calibration data is provided from said first camera to the ECU via said first ETHERNET link; wherein second camera calibration data is provided from said second camera to the ECU via said second ETHERNET link; wherein third camera calibration data is provided from said third camera to the ECU via said third ETHERNET link; wherein fourth camera calibration data is provided from said fourth camera to the ECU via said fourth ETHERNET link; wherein said first camera is disposed at a front portion of the equipped vehicle, and wherein said second camera is disposed at a driver-side side portion of the equipped vehicle, and wherein said third camera is disposed at a passenger-side side portion of the equipped vehicle, and wherein said fourth camera is disposed at a rear portion of the equipped vehicle; wherein image data captured by at least one of said first camera, said second camera, said third camera and said fourth camera is processed at the ECU to detect an object present exterior of the equipped vehicle; wherein the object present exterior of the equipped vehicle is exterior a side of the equipped vehicle; wherein the object present exterior the side of the equipped vehicle comprises a vehicle that is approaching the equipped vehicle; wherein the vehicle that is approaching the equipped vehicle traveling in a traffic lane adjacent to a traffic lane in which the equipped vehicle is traveling; and wherein image data captured by at least one of said first camera, said second camera, said third camera and said fourth camera is processed at the ECU, and wherein, responsive at least in part to said processing, the ECU outputs images for display at a display device of the equipped vehicle for viewing by a driver of the equipped vehicle. - View Dependent Claims (18, 19, 20)
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Specification