EP2240800A1

EP2240800A1 - Device and method for determining the position of another traffic participant

Info

Publication number: EP2240800A1
Application number: EP08872210A
Authority: EP
Inventors: Thomas Heger; Kathleen Tischler
Original assignee: Robert Bosch GmbH
Current assignee: Robert Bosch GmbH
Priority date: 2008-02-04
Filing date: 2008-11-11
Publication date: 2010-10-20
Also published as: US8612150B2; US20110046882A1; DE102008007347A1; WO2009097917A1

Abstract

The invention relates to a device and method for determining the position of another traffic participant having the steps: Determining the position of a traffic participant by means of a position detecting device; estimating a distance of the traffic participant from the other traffic participant by means of a distance sensor; and determining the position of the other traffic participant based on the determined position of the traffic participant, the estimated distance, and a street map, wherein the other traffic participant is assumed to be present in a street area prescribed by the street map.

Description

description

title

Device and method for determining the position of another road user

STATE OF THE ART

The present invention relates to a method for determining the position of another road user. In addition, the present invention relates to an apparatus for carrying out the method according to the invention.

Driver assistance systems make it easier for the driver of a motor vehicle to recognize, among other things, dangerous situations. An estimation of a hazard due to oncoming, laterally appearing overtaking other vehicles requires a reliable determination of the distance to the respective other vehicle.

From DE 102 19 788 Cl it is known to determine the distance to other vehicles by means of two cameras and a triangulation. The accuracy in determining a distance by means of triangulation decreases hyperbolic with increasing distance.

DISCLOSURE OF THE INVENTION

The inventive method with the features of claim 1 is used to determine the position of another road user. For this purpose, the following steps are carried out: The position of a road user is determined by means of a position detection device. A distance of the road user to the other road user is estimated by means of a distance sensor. The position of the other road user is determined based on the position of the road user, the estimated distance and a road map, the other road user being assumed to be on a road area predetermined by the road map.

The information from the road map is used to match the information from the distance estimate. As a result, the accuracy in the distance determination can be increased. For the purpose of this application, the road sector is not to be understood as limiting itself to an ordinary road. Rather, a road area includes the usual places where a moving or stationary road user, especially a motor vehicle, is to be expected.

According to the invention, a device for determining the position includes a position detection device for determining the position of a road user; a distance sensor for estimating a distance of the road user to another road user; and an evaluation device for determining the position of the other traffic participant based on the position of the road user, the estimated distance and a road map, wherein the other road user is assumed to be located on a road area.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention will be explained below with reference to preferred embodiments and attached figures. In the figures show:

1 is a graph showing the resolution limit of a camera-based triangulation system;

Fig. 2 shows an embodiment of a device for determining the position of another road user and

3 shows an exemplary traffic situation to illustrate the embodiment.

EMBODIMENTS OF THE INVENTION

Optical camera-based methods for determining a distance record a traffic situation from two different directions. In a simple configuration, two cameras 1, 2 are provided for this purpose (FIG. 1). The two cameras 1, 2 record two different images of a road user. The distance of the traffic participant to the cameras causes the relative shift of his image in the two different images. According to the principles of triangulation, the distance can be determined from the displacement. The farther the road user is away from the cameras, the lower the relative shift in the images. In an approximation, the distance is inversely proportional to the distance in the images. From this it can be deduced that an error in the determination of the distance increases with increasing distance.

The cameras have a limited spatial resolution. This may be due inter alia by the screening of a CCD sensor. The distance to two road users can no longer be distinguished if they experience the same shift in the respective images in the screening of the sensor. In Fig. 1, the regions 3 are shown for distances 4 for illustration, which can not distinguish a stereoscopic camera system.

An apparatus for determining the position of another road user according to an embodiment is shown in FIG. 2 as a block diagram. The device comprises two cameras 10, 11, a triangulation evaluation device 12, a position detection device 13, a data memory 14 with stored road maps and an evaluation device 15.

The two cameras 10, 11 and the triangulation evaluation device 12 estimate the distance to another road user. The embodiment may use more than two cameras to increase the resolution. Individual embodiments use a single camera that takes pictures from two different directions in parallel or with a time delay.

Instead of cameras, other than optical distance sensors can be used. This includes, inter alia, radar sensors that can enable distance determination by transit time measurement and also angle-resolved distance measurement.

The triangulation evaluation device 12 can determine not only the distance but also the direction or only the direction to another road user. The angle-resolved measurement can also be determined by triangulation.

The position detection device 13 may be a navigation device of a vehicle. The navigation device can determine the position of the vehicle using the GPS signal of the Global Positioning System.

Other position detection devices record the distance traveled and direction changes. For this purpose, for example, acceleration sensors are used. Other position detection devices determine the position of the vehicle based on way markings that are mounted in the environment. One embodiment compensates the particular position of the vehicle with road maps for plausibility.

The road maps stored in the data memory 14 contain information about locations and the position that lie along or on a road. Furthermore, they can have information about hard lanes, driveways, exits, parking lots, pedestrian paths, cycle paths, etc. The map material should contain location information about all places on which motor vehicles or other road users can be located.

The map material may include additional information indicating a probability of occurrence of a vehicle at the respective locations. Thus, on a trafficable road, e.g. Highway, with high probability to expect a motor vehicle, on a hard shoulder or a walkway with low probability.

The evaluation device 15 determines from the estimated distance and / or the estimated direction to the other road user and the own position a possible position of the other road user.

The evaluation device 15 determines based on the stored road maps the place that comes closest to the possible position of the other road user and at the same time is on a road. Finding such locations may use a maximum likelihood estimation, a minimum value search of a distance vector, etc. The location found is output as a specific position of the other road user.

The evaluation device 15 can be set to take into account only certain places where a vehicle is to be expected. For example, the setting can be made automatically based on the traffic situation. When driving on the motorway, no sidewalks, cycle paths, unpaved roads are to be considered, but only the currently used lane and the associated edge strip.

Another embodiment first determines the type of the other road user. Based on the type of road user only certain places are considered. The choice of location can be limited in a motor vehicle on passable roads, hard shoulder, driveways, etc. Another embodiment takes into account the speed of the other road user. Standing vehicles are to be expected initially only in the area before traffic lights, parking lots and hard shoulder, accordingly these places can be excluded from the selection to be considered.

FIG. 3 shows an exemplary traffic situation. The vehicle 20 is located on a road 21. Another vehicle 22 is located in a side street 23.

The region 24 indicates the uncertainty with which the position of the other vehicle 22 is determined solely on the basis of a triangulation measurement. The additional adjustment by the map material in the data memory 14 can reduce the uncertainty to the area 25.

Claims

claims

A method of determining the position of another road user (22), comprising the steps of:

Determining the position of a road user (20) by means of a position detection device; Estimating a distance of the road user (20) to the other road user (22) by means of a distance sensor (10, 11, 12); and

Determining the position of the other road user based on the determined position of the road user, the estimated distance and a road map, wherein the other road user is assumed to be on a road area predetermined by the road map.

2. The method of claim 1, wherein the distance to the other road user is estimated by means of a triangulation method.

3. The method of claim 1 or 2, wherein a direction of the road user is estimated to the other road user and the position of the other road user is also determined taking into account the estimated direction.

4. The method according to any one of the preceding claims, wherein the position of the traffic participants is determined by means of a navigation system, a satellite-based navigation system and / or a tracking system.

5. The method of claim 1, wherein determining the position of the other traffic participant includes determining a location in the road map whose distance from the road user has the least deviation from the estimated distance.

6. The method of claim 1, wherein determining the position of the other traffic participant includes determining a location on a road recorded in the road map, whose distance and direction to the road user the least deviation from the estimated distance and the estimated direction.

Method according to one of the preceding claims 5 or 6, wherein as a road area in the road map a trafficable road, a hard shoulder, a parking lot, a driveway, an exit, a bike path and / or a sidewalk is selected.

8. The method of claim 7, wherein a type of the other road user (22) is determined and the road is selected depending on the type of the other road user (22).

9. A position determining apparatus comprising: position detecting means (13) for determining the position of a road user (20); a distance sensor (10, 11, 12) for estimating a distance of the road user (20) to another road user (22); and an evaluation device (15) for determining the position of the other road user (22) based on the position of the road user (20), the estimated distance and a road map, the other road user being assumed to be on a road area.

10. The device according to claim 9, characterized in that the device for carrying out the method according to one of claims 1 to 8 is configured.