[미국특허]
Obstacle detection system with ultrasonic sensors located at either side of a bumper, having own beam axes at an angle deflected in a horizontal direction from a surface-normal direction of the bumper
원문보기
An obstacle detection system includes ultrasonic sensors and a controller. The ultrasonic sensors include first and second ultrasonic sensors. Each of them is located at either side of a vehicle bumper so that its own beam axis has an angle deflected in a horizontal direction from a surface-normal d
An obstacle detection system includes ultrasonic sensors and a controller. The ultrasonic sensors include first and second ultrasonic sensors. Each of them is located at either side of a vehicle bumper so that its own beam axis has an angle deflected in a horizontal direction from a surface-normal direction of the bumper and is directed towards an intermediate portion of the bumper.
대표청구항▼
1. An obstacle detection system, comprising: ultrasonic sensors arranged at different positions in a horizontal direction of a bumper fixed to a vehicle, respectively, each of the ultrasonic sensors having an input and output surface and being configured: to emit ultrasonic waves along a beam axis f
1. An obstacle detection system, comprising: ultrasonic sensors arranged at different positions in a horizontal direction of a bumper fixed to a vehicle, respectively, each of the ultrasonic sensors having an input and output surface and being configured: to emit ultrasonic waves along a beam axis from the input and output surface in accordance with an output electric signal; and also to receive incoming ultrasonic waves through the input and output surface to convert the incoming ultrasonic waves into an input electric signal; anda controller configured: to supply the output electric signal to each of the ultrasonic sensors; and also to judge whether or not at least one obstacle is present in a maximum detection area based on at least input electric signals from the ultrasonic sensors, said maximum detection area being covered with the ultrasonic sensors, whereinthe ultrasonic sensors comprise first and second ultrasonic sensors each of which is located at either side of the bumper so that its own beam axis has an angle deflected in a horizontal direction from a surface-normal direction of the bumper and is directed towards an intermediate portion of the bumper, andthe controller is configured to judge whether or not at least one obstacle is present in the maximum detection area based on first and second self-signals and first and second mutual signals, the first self-signal corresponding to an input electric signal obtained when the first ultrasonic sensor receives ultrasonic waves emitted from the first ultrasonic sensor,the second self-signal corresponding to an input electric signal obtained when the second ultrasonic sensor receives ultrasonic waves emitted from the second ultrasonic sensor,the first mutual signal corresponding to an input electric signal obtained when the second ultrasonic sensor receives ultrasonic waves emitted from the first ultrasonic sensor, andthe second mutual signal corresponding to an input electric signal obtained when the first ultrasonic sensor receives ultrasonic waves emitted from the second ultrasonic sensor. 2. The obstacle detection system of claim 1, wherein individual detection areas of the first and second ultrasonic sensors are overlapped. 3. The obstacle detection system of claim 2, wherein each of the first and second ultrasonic sensors comprises a bezel, a top face of the bezel being the input and output surface, the input and output surface being inclined at said angle with respect to a bottom face of the bezel mounted on a surface of the bumper. 4. The obstacle detection system of claim 3, wherein said input and output surface has a first inclination angle with respect to a vehicle width direction, while the bottom face of a corresponding bezel has a second inclination angle with respect to the vehicle width direction,the input and output surface having an inclination angle of the sum of the first and second inclination angles with respect to the bottom face of the corresponding bezel. 5. The obstacle detection system of claim 2, wherein each of the first and second ultrasonic sensors comprises a bezel of which top face is its own input and output surface that is parallel with a bottom face of the bezel mounted on a surface of the bumper, andwherein each beam axis of the first and second ultrasonic sensors is inclined at said angle with respect to a normal line to a corresponding input and output surface. 6. The obstacle detection system of claim 2, wherein the controller is configured to judge that at least one obstacle is present in a blind spot between the vehicle and the maximum detection area, if a judgment that at least one obstacle is present, a minimum distance apart, in the maximum detection area is obtained and the judgment is then changed to another judgment that the at least one obstacle is not present in the maximum detection area. 7. The obstacle detection system of claim 2, wherein a mutual detection area corresponding to the first and second mutual signals is narrower than each of the individual detection areas corresponding to the first and second self-signals. 8. The obstacle detection system of claim 1, wherein each of the first and second ultrasonic sensors comprises a bezel, a top face of the bezel being the input and output surface, the input and output surface being inclined at said angle with respect to a bottom face of the bezel mounted on a surface of the bumper. 9. The obstacle detection system of claim 8, wherein said input and output surface has a first inclination angle with respect to a vehicle width direction, while the bottom face of a corresponding bezel has a second inclination angle with respect to the vehicle width direction,the input and output surface having an inclination angle of the sum of the first and second inclination angles with respect to the bottom face of the corresponding bezel. 10. The obstacle detection system of claim 1, wherein each of the first and second ultrasonic sensors comprises a bezel of which top face is its own input and output surface that is parallel with a bottom face of the bezel mounted on a surface of the bumper, andwherein each beam axis of the first and second ultrasonic sensors is inclined at said angle with respect to a normal line to a corresponding input and output surface. 11. The obstacle detection system of claim 1, wherein the bumper is a front bumper or a rear bumper,wherein the ultrasonic sensors comprise two or three ultrasonic sensors, andwherein each horizontal beam angle of the first and second ultrasonic sensors is set so that each of the first and second ultrasonic sensors has an individual detection area of which detection width is the sum of a vehicle width and a predetermined margin width. 12. The obstacle detection system of claim 1, wherein the ultrasonic sensors comprise two or three ultrasonic sensors, andwherein each horizontal beam angle of the ultrasonic sensors is overlapped with other one or two horizontal beam angles. 13. The obstacle detection system of claim 1, wherein each vertical beam angle of the first and second ultrasonic sensors is set so that each individual detection area of the first and second ultrasonic sensors is located above a road surface. 14. The obstacle detection system of claim 1, wherein the controller is configured to judge that at least one obstacle is present in a blind spot between the vehicle and the maximum detection area, if a judgment that at least one obstacle is present, a minimum distance apart, in the maximum detection area is obtained and the judgment is then changed to another judgment that the at least one obstacle is not present in the maximum detection area. 15. The obstacle detection system of claim 1, wherein a mutual detection area corresponding to the first and second mutual signals is narrower than each of the individual detection areas corresponding to the first and second self-signals.
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이 특허에 인용된 특허 (2)
Adachi Kenichi,JPX ; Azuma Naoya,JPX, Obstacle detection system for a vehicle.
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