DUAL-MODE VEHICLE REAR VISION SYSTEM
First Claim
1. A dual-mode rear vision system for an automotive vehicle comprising:
- an electro-optical imaging device operable in a short range mode to image a backup region immediately rearward of the vehicle and alternatively operable in a long range mode to image a collision threat region rearward of the backup region, the imaging device assuming the short range mode when the vehicle is in a reverse travel mode and assuming the long range mode when the vehicle is in a non-reverse travel mode; and
at least one electronic control module operable when the vehicle is in the reverse travel mode to analyze imagery from the imaging device and detect a backup hazard, and operable when the vehicle is in the non-reverse travel mode to analyze imagery from the imaging device and detect a collision threat, and operable to direct a function change in at least one vehicle system based on detection of at least one of the collision threat and the backup hazard.
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Accused Products
Abstract
A dual-mode rear vision system for an automotive vehicle includes an electro-optical imaging device operable in a short range mode to image a backup region immediately rearward of the vehicle and operable in a long range mode to image a collision threat region rearward of the backup region. The imaging device assumes the short range mode when the vehicle is in a reverse travel mode and assumes the long range mode when the vehicle is in a non-reverse travel mode. An electronic control module (ECM) analyzes imagery from the imaging device to detect backup hazards when in the reverse travel mode, and to detect rear collision threats when in the non-reverse travel mode. The ECM activates an occupant protection system if a collision threat is detected, and generates a driver alert and/or a braking intervention if a backup hazard is detected.
27 Citations
20 Claims
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1. A dual-mode rear vision system for an automotive vehicle comprising:
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an electro-optical imaging device operable in a short range mode to image a backup region immediately rearward of the vehicle and alternatively operable in a long range mode to image a collision threat region rearward of the backup region, the imaging device assuming the short range mode when the vehicle is in a reverse travel mode and assuming the long range mode when the vehicle is in a non-reverse travel mode; and at least one electronic control module operable when the vehicle is in the reverse travel mode to analyze imagery from the imaging device and detect a backup hazard, and operable when the vehicle is in the non-reverse travel mode to analyze imagery from the imaging device and detect a collision threat, and operable to direct a function change in at least one vehicle system based on detection of at least one of the collision threat and the backup hazard. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A dual-mode imaging system for a vehicle comprising:
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an electro-optical imaging device mountable for movement relative to the vehicle between a backup position wherein the imaging device is oriented to image a backup region rearward of the vehicle and a rear collision mitigation position wherein the imaging device is oriented to image a collision threat region rearward of the backup region when a vehicle powertrain is in a non-reverse travel mode; a drive unit moving the imaging device to the backup position when the vehicle powertrain is in a reverse travel mode and moving the imaging device to the rear collision mitigation position when the vehicle powertrain is in a non-reverse travel mode; and at least one electronic control module operable when the vehicle powertrain is in the reverse travel mode to analyze imagery received from the imaging device to detect a backup hazard and to cause generation of a driver alert in response thereto, and further operable when the vehicle powertrain is in the non-reverse travel mode to analyze imagery received from the imaging device to detect a collision threat and to direct a function change in at least one occupant protection system in response thereto. - View Dependent Claims (13)
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14. A method of operating a rear vision system for a vehicle comprising the following steps:
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detecting a status of a vehicle powertrain as being either a reverse travel mode or a non-reverse travel mode; upon detection of the reverse travel mode, placing an electro-optical imaging device in a short range mode wherein the imaging device images a region rearward of the vehicle; upon detection of the non-reverse travel mode, placing the imaging device in a long range mode wherein the imaging device images a collision threat region rearward of the backup region; when the imaging device is in the short range mode, operating at least one electronic control module to analyze imagery from the imaging device and detect a backup hazard; when the imaging device is in the long range mode, operating the at least one electronic control module to analyze imagery from the imaging device and detect a collision threat; and causing a function change in at least one vehicle system based upon detection of at least one of the collision threat and the backup hazard. - View Dependent Claims (15, 16, 17, 18, 19, 20)
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Specification