DE102005008876A1 - Parking place`s target position finding method for e.g. passenger car, involves recognizing possible target positions for vehicle, based on correlation between stored image information and present image information in new environment - Google Patents

Abstract

The method involves acquiring image of an environment with a recognized target position using a camera and storing the image information in the environment. The stored information is compared with a present image information in the environment. The possible target positions for the vehicle are recognized, based on the correlation between the stored image information and a present image information in a new environment.

Description

The The invention relates to a method for automatically locating Target positions that drive from a vehicle in an environment are according to the preamble of claim 1.

Of the Applicants are known methods for finding parking positions by a pattern recognition in the sense that free areas are measured and that it is decided whether the recognized free space is sufficient are big, to realize a parking operation.

From the DE 102 61 176 A1 It is known that in a parking assistant a display is realized such that the instantaneous position of the vehicle is displayed in a plan view and the achievable after "traversing" a trajectory target position. The target position is changeable by a steering wheel rotation.

From the DE 102 560 021 A1 It is known that in a parking assistant, a display is realized such that a parking space icon is displayed on a screen depending on environmental data, ie in a detected environment. If the driver determines a match between an existing parking space and a representation of the parking space symbol, a parking operation can be initiated. The check whether it is actually a parking space, so the driver is left.

Out JP-A-2002-172989 is a display and route guidance of a parking assistant known, with difficult systemic environment detection from the driver The parking position is specified by means of markings on the display can be. Can not find a parking space automatically by the system will be marked by the user on the screen and then started.

Of the The present invention is based on the problem of finding to improve a target position.

These The object is achieved according to the present invention according to claim 1, by the vehicle has a picture-recognizing device and a Device for storing recognized image information as well a device for comparing current image information with stored image information, with a recognized or predetermined target position by means of the picture-recognizing device the environment is captured, with the recognized image information be saved to this environment, with the future Searching for destination locations with the stored image information current image information to be compared by means of a Correlation between the stored image information and the Current image information in a new environment possible target positions to recognize.

Advantageous can therefore be from a recognized or an initial default or learned target position for learning the future by understanding the environment and for later Comparison is saved. Similarly, a previously recognized target position also be given if the driver at the earlier approach to a target position this has manually specified.

in the In connection with the invention is thereby under a target position For example, a parking position relative to a target object, a Parking position or a position relative to an open space or the open space self-understood. For the purposes of the invention are under a picture-recognizing Device such as a 2D camera, 3D camera, laser scanner or any other imaging sensors understood. In addition to the Image information thus acquired is in the context of the invention also geometric properties from the vehicle environment or from Objects used. The geometric properties can be like the image information stored in the form of data in a memory be. In the vehicles mentioned in connection with the invention For example, they can be cars, trucks, autonomous transport vehicles (ATF) or any other vehicles.

The For example, target position detection may be based on a correlation based. If target locations are too difficult in environments where recognize that a correlation is too costly or not sufficient Accurate results can be found in a more difficult environment a target position also recognized based on previous experience become.

at the embodiment of the method according to claim 2 are in the Determining the correlation of the stored environment information, in particular the image information in excerpts with the current image information compared, wherein the individual image sections and different extents may affect the environment around the recognized parking position.

The environment may be involved in this procedure So be segmented. In order to recognize a target position, the closer environment is particularly important. For this reason, it is possible, for example, to determine a correlation and thus a target position even if a corresponding match was found only in a closer environment.

Drive in Vehicle, for example, backwards in vertical Direction of travel on a building wall, is the one possible Description of the target position in that the vehicle then located in front of the wall. For example, if the vehicle is at the earlier recognized target position in the middle of the wall, affects the position in the nearer Environment but a situation where the vehicle is facing a Wand should drive, but in the immediate vicinity of a Corner of the building is on the wall (so far for the image capture visible) then stops, can still through a corresponding restriction the correlation of the image area to be evaluated is determined so that the target position can be recognized. Above all, in the In connection with the invention, however, target positions in their geometric Relationships regarding recognized or rediscovered 2D / 3D environment features precise determined.

The restriction The image sections can be used in the evaluation and determination of the Correlation done. But this restriction can already be when storing the corresponding image data, what the Another advantage is that the amount of data to be stored are kept small can. This is particularly important if ent speaking many environmental images are stored by recognized target positions should.

at the embodiment according to claim 3, the cutouts in the bounded in a vertical direction and pointing in a horizontal direction different expansions.

The Determination of the target position becomes essential by the environment laterally of the vehicle. By limiting in height will be beneficial again the amount of data to be processed or stored reduced. Advantageously, the height of the image section depends on the height of the Be defined vehicle.

at the embodiment according to claim 4 in the correlation, the The edges and outlines of the recognized objects are taken into account, with the design of surfaces unconsidered remains.

Advantageous is considered, that for the Determining a target position primarily the obstacles one Role-play. These obstacles, however, become significant for the Approach to a target position and the target position through the outline defined and not by the color or other design the surface for example, with certain patterns.

By this limitation the evaluation of certain characteristics in the pictures becomes achieved advantageous that the processed and stored Data volume can be kept low. Furthermore, it is achieved that the correlation is improved by the factors in which possibly no correlation can be found, but for the rating the target position are irrelevant in determining the correlation be hidden. This concerns, for example, the color designs or patterns of surfaces.

at The embodiment according to claim 5, certain image patterns in advance storable in association with target positions.

This concerns for example certain signs and / or markings, such as. Ground markings indicating a target position. When such signs again in an environment to be evaluated be recognized, it can be concluded that there is a target position is present. For in any case, these particular image patterns will also be the surface design saved and rated. This also applies if - as in Case of claim 4 - this surfaces related information at the recognized target positions during operation not saved or evaluated.

It These may be general signs used in public Space related to parking spaces of motor vehicles use Find.

As well It can also be special signs or other markings act with a specific design, which are carried by the driver and which can be placed before arriving at a destination location. Advantageous In this case, the system is designed to be specific Markings can be detected after their positioning.

This procedure can be combined with another procedure for the automatic search of a target position by evaluating and evaluating the environment. The driver can then suppress or abort the automatic search and manually switch to the corresponding operating mode. If no destination position could be found automatically, a change to the corresponding operating mode can take place in which the driver is then advantageously requested to carry out a corresponding positioning of the at least one marking or drive yourself.

To the positioning of the mark is then detected this position and evaluated. The determination of a target position may be for example such take place that the target position is set so that the position the at least one mark the center of the vehicle in terms whose width represents the rear end of the vehicle.

there the at least one defined marking can be assigned to the Vehicle with regard to the position and the vehicle longitudinal direction in the target position.

The Target position is displayed to the driver interactively on a display or by brands in the environment as a learning example. The associated Environment is then saved.

To For example, if you use only one marker, you can use it have a structure. This will make it possible, not just the position to determine the mark but also their orientation. For example then the target position can then be set defined so that the vehicle longitudinal direction runs in the target position in the direction of the structure of the marker or also perpendicular to the mark.

at Using multiple markers may be due to the position of this Markings to each other the vehicle longitudinal direction in the target position be determined.

Farther The at least one defined mark can be attached to a tripod become. It may be in the mark but also, for example to act a staff held by a person. in this connection The rod can also be provided with reflectors, so this in picture scenes is particularly easy to recognize. It is also possible, Reflectors to attach to the clothing of persons. The one by one Person displayed positions can then take pictures be recognized very well.

Advantageous is achieved in that the attachment of the marker largely independent of Properties or mounting options in the environment possible becomes.

Claims (5)

A method for automatically locating target positions to be approached by a vehicle in an environment, characterized in that the vehicle has a picture-recognizing device and a device for storing recognized image information and a device for comparing current image information with stored image information, wherein a detected or predetermined target position by means of the image recognizing device, the environment is detected, wherein the detected image information are stored to this environment, wherein the future search of target positions, the stored image information is compared with current image information, by means of a correlation between the stored image information and the current image information recognize possible target positions in a new environment. Method according to claim 1, characterized in that in determining the correlation, the stored image information be compared in sections with the current image information, wherein the individual image sections have different dimensions the environment around the detected target position. Method according to claim 2, characterized in that that the cutouts are bounded in the vertical direction and have different extensions in the lateral direction. Method according to one of the preceding claims, characterized characterized in that in the correlation the edges and outlines taken into account the recognized objects and the design of surfaces is disregarded. Method according to one of the preceding claims, characterized characterized in that certain image patterns in advance in association with Target positions are storable.