Vehicle vision system using image data transmission and power supply via a coaxial cable
First Claim
1. A vehicular vision system, said vehicular vision system comprising:
- a plurality of imaging sensors disposed at a vehicle and having respective exterior fields of view, each of said imaging sensors capturing respective image data;
a control disposed at the vehicle, the control comprising a data processor;
wherein said imaging sensors are connected to said control via respective ones of a plurality of single core coaxial cables;
wherein each of said single core coaxial cables commonly carries (i) image data from the respective imaging sensor to the control for processing at the data processor and (ii) power to the respective imaging sensor;
wherein each of said imaging sensors is capable of communicating via an ETHERNET communication protocol;
wherein, when initially powering up said vehicular vision system, each of said imaging sensors is in a respective initial mode;
wherein, while each of said imaging sensors is in the respective initial mode, the ETHERNET communication protocol is transmitted by said control to each of said imaging sensors and each of said imaging sensors receives the ETHERNET communication protocol;
wherein, after the ETHERNET communication protocol is transmitted by said control to each of said imaging sensors, each of said imaging sensors communicates with said control in accordance with the ETHERNET communication protocol; and
wherein each of said single core coaxial cables provides bidirectional communication between said control and the respective imaging sensor.
0 Assignments
0 Petitions
Accused Products
Abstract
A vehicular vision system includes a plurality of imaging sensors disposed at a vehicle and having respective exterior fields of view, each of the imaging sensors capturing respective image data. The imaging sensors are connected to a control via respective ones of a plurality of single core coaxial cables. Each single core coaxial cable commonly carries (i) image data from the respective imaging sensor to the control for processing and (ii) power to the respective imaging sensor. Each imaging sensor is capable of communicating via a particular communication protocol. While each of the imaging sensors is in a respective initial mode and after the communication protocol is transmitted by the control to each of the imaging sensors, each of the imaging sensors communicates with the control in accordance with the communication protocol. Each of the single core coaxial cables provides bidirectional communication between the control and the respective imaging sensor.
328 Citations
24 Claims
-
1. A vehicular vision system, said vehicular vision system comprising:
-
a plurality of imaging sensors disposed at a vehicle and having respective exterior fields of view, each of said imaging sensors capturing respective image data; a control disposed at the vehicle, the control comprising a data processor; wherein said imaging sensors are connected to said control via respective ones of a plurality of single core coaxial cables; wherein each of said single core coaxial cables commonly carries (i) image data from the respective imaging sensor to the control for processing at the data processor and (ii) power to the respective imaging sensor; wherein each of said imaging sensors is capable of communicating via an ETHERNET communication protocol; wherein, when initially powering up said vehicular vision system, each of said imaging sensors is in a respective initial mode; wherein, while each of said imaging sensors is in the respective initial mode, the ETHERNET communication protocol is transmitted by said control to each of said imaging sensors and each of said imaging sensors receives the ETHERNET communication protocol; wherein, after the ETHERNET communication protocol is transmitted by said control to each of said imaging sensors, each of said imaging sensors communicates with said control in accordance with the ETHERNET communication protocol; and wherein each of said single core coaxial cables provides bidirectional communication between said control and the respective imaging sensor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
-
-
9. A vehicular vision system, said vehicular vision system comprising:
-
a plurality of imaging sensors disposed at a vehicle and having respective exterior fields of view, each of said imaging sensors capturing respective image data; a control disposed at the vehicle, the control comprising a data processor; wherein said imaging sensors are connected to said control via respective ones of a plurality of single core coaxial cables; wherein each of said single core coaxial cables commonly carries (i) image data from the respective imaging sensor to the control for processing at the data processor and (ii) power to the respective imaging sensor; wherein each of said imaging sensors is capable of communicating via a Gigabit Multimedia Serial Link (GMSL) communication protocol; wherein, when initially powering up said vehicular vision system, each of said imaging sensors is in a respective initial mode; wherein, while each of said imaging sensors is in the respective initial mode, the GMSL communication protocol is transmitted by said control to each of said imaging sensors and each of said imaging sensors receives the GMSL communication protocol; wherein, after the GMSL communication protocol is transmitted by said control to each of said imaging sensors, each of said imaging sensors communicates with said control in accordance with the GMSL communication protocol; and wherein each of said single core coaxial cables provides bidirectional communication between said control and the respective imaging sensor. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
-
-
17. A vehicular vision system, said vehicular vision system comprising:
-
a plurality of imaging sensors disposed at a vehicle and having respective exterior fields of view, each of said imaging sensors capturing respective image data; a control disposed at the vehicle, the control comprising a data processor; wherein said imaging sensors are connected to said control via respective ones of a plurality of single core coaxial cables; wherein each of said single core coaxial cables commonly carries (i) image data from the respective imaging sensor to the control for processing at the data processor and (ii) power to the respective imaging sensor; wherein each of said imaging sensors is capable of communicating via a FPD-Link III communication protocol; wherein, when initially powering up said vehicular vision system, each of said imaging sensors is in a respective initial mode; wherein, while each of said imaging sensors is in the respective initial mode, the FPD-Link III communication protocol is transmitted by said control to each of said imaging sensors and each of said imaging sensors receives the FPD-Link III communication protocol; wherein, after the FPD-Link III communication protocol is transmitted by said control to each of said imaging sensors, each of said imaging sensors communicates with said control in accordance with the FPD-Link III communication protocol; and wherein each of said single core coaxial cables provides bidirectional communication between said control and the respective imaging sensor. - View Dependent Claims (18, 19, 20, 21, 22, 23, 24)
-
Specification