Object detecting system and method

Abstract

An object detecting system for detecting information about objects on vehicle seats utilizes a camera having a single view point, which is effective for conducting a rationalized setting for the viewing field of the camera. According to the setting for the viewing field of a camera in an object detecting system which is installed in a vehicle, an object on a front passenger seat is all covered by the viewing field of the camera while an object on a driver seat is completely covered by the viewing field of the camera.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

These and other features, aspects, and advantages of the present invention will become apparent from the following description, appended claims, and the accompanying exemplary embodiments shown in the drawings, which are briefly described below.

FIG. 1 is an illustration showing an object detecting system according to an embodiment which is installed in a vehicle.

FIG. 2 is a plan view of a viewing field of a camera of the embodiment.

FIG. 3 is a view taken along a line A-A in a direction of arrows in FIG. 2.

FIG. 4 is an illustration showing components of a vehicle according to an embodiment.

Claims

1. An object detecting system for detecting information about objects on vehicle seats, comprising: a camera for taking images from a single view point in a cabin of a vehicle toward a rear side of the vehicle; anda processing mechanism for deriving information about the objects on the vehicle seats based on images taken by the camera,wherein the viewing field of the camera covers an area defined between a first sight line extending from the single view point toward the rear side of the vehicle through a front-passenger-side shoulder area of an occupant sitting in the driver seat and a second sight line extending from the single view point toward the rear side of the vehicle through a door-side shoulder area of an occupant sitting in the front passenger seat.

2. The object detecting system as claimed in claim 1, wherein a sight line passing through the center of the viewing field of the camera substantially coincides with an area about a driver-side shoulder portion of the occupant sitting in the front passenger seat.

3. The object detecting system as claimed in claim 1, wherein the viewing angle of the viewing field of the camera when seen from above is set to be lower than about 110 degrees.

4. The object detecting system as claimed in claim 1, wherein the processing mechanism detects respective halves of the object on the driver seat and the object on the front passenger seat based on the images obtained by the camera having the viewing field defined between the first sight line and the second sight line and thereby determines at least one of the presence, the size, the position, and the attitude of each object.

5. The object detecting system as claimed in claim 1, wherein each object on the vehicle seats is identified at least based on distances from the camera to the surface of the object or the three-dimensional profile of the object.

6. An operation device control system, comprising: an object detecting system;an operation device which is operated based on the information about the object on the vehicle seat derived by a processing mechanism of the object detecting system; andan actuation control mechanism for controlling the actuation of the operation device,wherein the object detecting system includes: a camera for taking images from a single view point in a cabin of a vehicle toward a rear side of the vehicle; andthe processing mechanism for deriving information about the objects on the vehicle seats based on images taken by the camera,wherein the viewing field of the camera covers an area defined between a first sight line extending from the single view point toward the rear side of the vehicle through a front-passenger-side shoulder area of an occupant sitting in the driver seat and a second sight line extending from the single view point toward the rear side of the vehicle through a door-side shoulder area of an occupant sitting in the front passenger seat.

7. The operation device control system as claimed in claim 6, wherein a sight line passing through the center of the viewing field of the camera substantially coincides with an area about a driver-side shoulder portion of the occupant sitting in the front passenger seat.

8. The operation device control system as claimed in claim 6, wherein the viewing angle of the viewing field of the camera when seen from above is set to be lower than about 110 degrees.

9. The operation device control system as claimed in claim 6, wherein the processing mechanism detects respective halves of the object on the driver seat and the object on the front passenger seat based on the images obtained by the camera having the viewing field defined between the first sight line and the second sight line and thereby determines at least one of the presence, the size, the position, and the attitude of each object.

10. The operation device control system as claimed in claim 6, wherein each object on the vehicle seats is identified at least based on distances from the camera to the surface of the object or the three-dimensional profile of the object.

11. A vehicle, comprising: an engine/running system;an electrical system;an actuation control device for conducting the actuation control of the engine/running system and the electrical system; andan object detecting mechanism for detecting information about objects on vehicle seats,wherein the object detecting mechanism comprises an object detecting system that includes: a camera for taking images from a single view point in a cabin of a vehicle toward a rear side of the vehicle; andthe processing mechanism for deriving information about the objects on the vehicle seats based on images taken by the camera,wherein the viewing field of the camera covers an area defined between a first sight line extending from the single view point toward the rear side of the vehicle through a front-passenger-side shoulder area of an occupant sitting in the driver seat and a second sight line extending from the single view point toward the rear side of the vehicle through a door-side shoulder area of an occupant sitting in the front passenger seat.

12. The vehicle as claimed in claim 11, wherein a sight line passing through the center of the viewing field of the camera substantially coincides with an area about a driver-side shoulder portion of the occupant sitting in the front passenger seat.

13. The vehicle as claimed in claim 11, wherein the viewing angle of the viewing field of the camera when seen from above is set to be lower than about 110 degrees.

14. The vehicle as claimed in claim 11, wherein the processing mechanism detects respective halves of the object on the driver seat and the object on the front passenger seat based on the images obtained by the camera having the viewing field defined between the first sight line and the second sight line and thereby determines at least one of the presence, the size, the position, and the attitude of each object.

15. The vehicle as claimed in claim 11, wherein each object on the vehicle seats is identified at least based on distances from the camera to the surface of the object or the three-dimensional profile of the object.

16. An object detecting method for detecting information about objects on vehicle seats, comprising: positioning a camera in a vehicle;setting a viewing field of the camera to cover an area defined between a first sight line extending from a single view point toward a rear side of the vehicle through a front-passenger-side shoulder area of an occupant sitting in a driver seat and a second sight line extending from the single view point toward the rear side of the vehicle through a door-side shoulder area of an occupant sitting in a front passenger seat so that a larger part of the viewing field is allocated to an object on the front passenger seat than an object on the driver seat; andtaking images with the camera from the single view point in a cabin of a vehicle toward a rear side of the vehicle.

17. The object detecting method as claimed in claim 16, wherein, as regards the setting of the camera, a sight line passing through the center of the viewing field of the camera substantially coincides with an area about a driver-side shoulder of the occupant sitting in the front passenger seat.

18. The object detecting method as claimed in claim 16, wherein, as regards the setting of the camera, the viewing angle of the viewing field of the camera when seen from above is set to be lower than about 110 degrees.

19. The object detecting method as claimed in claim 16, wherein respective halves of the object on the driver seat and the object on the front passenger seat are detected based on the images obtained by the camera having the viewing field defined between the first sight line and the second sight line and at least one of the presence, the size, the position, and the attitude of each object is determined based on the detected halves.

20. The object detecting method as claimed in claim 16, wherein each object on the vehicle seats is identified at least based on distances from the camera to the surface of the object or the three-dimensional profile of the object.