WO2009062596A1

WO2009062596A1 - Method and device for controlling the headlights of a vehicle

Info

Publication number: WO2009062596A1
Application number: PCT/EP2008/009094
Authority: WO
Inventors: Stefan Hahn
Original assignee: Daimler Ag
Priority date: 2007-11-13
Filing date: 2008-10-28
Publication date: 2009-05-22
Also published as: DE102007054048A1

Abstract

The invention relates to a method and to a device for controlling the headlights of a vehicle (F). Image information of at least one object, containing a relative speed (vR) of the object in relation to the vehicle (F), is detected. The at least one object is associated with a specific type of object based on the relative speed (VR) thereof. In accordance with the object type, an angular range (W) of one or more light beams (L1, L2), corresponding to the at least one object, is partially or completely recessed.

Description

Method and device for a driving light control of a

vehicle

The invention relates to a method and a device, a driving light control of a vehicle, wherein image information of an object, comprising a relative speed of the object to the vehicle, are detected.

Novel headlamps allow a selective illumination of an area in front of a vehicle in order to avoid dazzling other road users and / or to illuminate objects that pose a danger.

From DE 10 2004 032 095 Al a headlamp for vehicles with a light source is known. The light source is a reflector and a light guide unit, which has at least one electronically pivotable between at least two mirror settings mirror surface assigned. The mirror surface is part of a macro-mirror arrangement with at least one macro mirror, such that the light flux emitted by the light source in a guided past the light guide unit first Lichtführungsweg for generating a static background light distribution and a generated by pivoting the macro mirror second Lichtführungsweg to generate a dynamic additional light distribution becomes. The static basic light distribution and the dynamic additional light distribution form the resulting total light distribution.

Furthermore, from DE 10 2004 042 092 Al a method for driving a light generating device for motor vehicles is known, wherein recessed in dependence on the relative movement between the Lichtbϋndel emitting motor vehicle and an oncoming and / or preceding vehicle corresponding to the oncoming motor vehicle portion of the light beam becomes. In this case, the light generating device is driven in such a way that only those partial areas of the entire light distribution are cut out, which are arranged above a predetermined basic light distribution.

Furthermore, a method and a device for avoiding and / or minimizing conflict situations in road traffic are known from DE 197 41 631 A1. The device comprises a device for detecting an image of an environment of a motor vehicle, sensors for detecting vehicle state data and an evaluation device to which data about the surroundings and vehicle state data can be supplied. In this case, the evaluation device is connected to a plurality of optionally actuatable actuators and the device is assigned a seat occupancy recognition device, the detected seat occupancy of the evaluation unit can be supplied, the seat occupancy-dependent control signals generated for the actuators.

The invention has for its object to provide an improved method and an improved device for a driving light control of a vehicle. With regard to the method, the object is achieved by the features specified in claim 1. With regard to the device, the object is achieved by the features specified in claim 9.

Advantageous embodiments of the invention are the subject of the dependent claims.

In the method according to the invention and the device according to the invention, image information of at least one object, comprising a relative speed of the object to the vehicle, is detected for driving light control of a vehicle. In this case, the at least one object is assigned to a specific object type on the basis of its relative velocity (V _R ), whereby depending on the object type, an angle range of one or more light cones corresponding to the at least one object is partially or completely recessed.

In this case, the image information of the object is detected by means of at least one imaging sensor and fed to an evaluation unit, by means of which the assignment to an object type is carried out. By means of the invention, it is advantageously possible to control one or more light cones in such a way that an angular range corresponding to the object is partially or completely exactly recessed.

The imaging sensor can be designed as a radar sensor, camera and / or laser sensor. This results in the advantage that the imaging sensor at the same time for other applications, such. B. a distance monitoring and / or a night vision device is or can already existing applications that use the imaging sensor, be extended so that they are used as inventive device for carrying out the method according to the invention.

In addition, one or more objects are partially or completely illuminated depending on the object type. Whether an angle range corresponding to the objects is partially or completely recessed or whether the object is partially or completely illuminated depends on the result of the assignment of an object type to an object by means of the evaluation unit, based on its relative speed (V _R ). A distinction is made as object type, for example, between vehicles, pedestrians, cyclists, animals and obstacles. The lighting of a vehicle environment depending on the object type of detected objects leads to an increase in security and to support a driver as it quickly recognizes other road users and obstacles.

Based on the relative speed, the evaluation unit differentiates between the vehicle oncoming, moving in the same direction or motionless objects. Thus, in the case of an object approaching the vehicle and / or an object moving at a high relative speed in the same direction as the vehicle, an angle range of the light cone corresponding to the object is cut out by means of one or more illumination devices. Thus, it is possible for the driver to drive, for example, permanently with a high-beam corresponding light setting, because of the automatic adjustment of the illumination characteristic of the light cone dazzling of oncoming persons, such as z. As of pedestrians, cyclists and / or drivers, as well as in the same direction in front of people, such. B. other drivers, is avoided.

Furthermore, by means of the illumination device, an object moving at a low forward speed in the same direction as the vehicle, in particular a pedestrian and / or a cyclist, and / or a motionless object, in particular an obstacle, are illuminated. The illumination of the obstacles allows the driver of the vehicle to recognize early dangerous situations and to take measures to avert the danger. Furthermore, it may be in motionless obstacles, for example, objects of the transport infrastructure, such. As traffic signs, boundary posts, traffic islands or traffic lights. Again, an early minimization of hazards, for example, caused by collisions of the vehicle with these obstacles, possible. Furthermore, by means of a targeted illumination of z. B. signposting early improved readability for the driver can be achieved.

The illumination device comprises at least one headlamp, the headlamp being designed with conventional headlight lamps, in particular halogen lamps and / or gas discharge lamps, or as headlamps with light-emitting diodes as the light source. The headlights are still running with one or more arrangements, by means of the arrangements a

Illumination characteristic of the light cone is controllable. In the arrangements, it may, for. B. automatically adjustable aperture, an automatic

Headlamp leveling, a device for adjusting the angle of the light cone and / or headlamps with Light emitting diodes act as lighting means to a control device which activates and / or deactivates the individual light emitting diodes for a variation of the light cone. In this case, already existing arrangements, such as an automatic headlamp leveling and / or a cornering light can be advantageously used or extended so that the inventive method feasible and the device according to the invention are simple and inexpensive to produce.

In summary, it is possible with the inventive method and apparatus according to the invention, by means of an accurate detection and determination of the object type of detected objects on the basis of their relative speed to own vehicle driving light of the vehicle to control so that an increase in safety for occupants of the vehicle and other road users achieved becomes.

Embodiments of the invention are explained in more detail below with reference to drawings.

Showing:

Fig. 1 shows schematically a vehicle with a

Driving light control in a preceding vehicle, and

Fig. 2 shows schematically a vehicle with a

Driving light control in a pedestrian moving in the same direction.

Corresponding parts are provided in all figures with the same reference numerals. FIG. 1 illustrates a vehicle F with a driving light control in a preceding vehicle vF. In this case, the vehicle F moves at a speed vi behind a vehicle vF ahead in the same direction with a high forward speed V ₂ . On the vehicle F are one or more imaging sensors 1, z. As radar sensors, cameras and / or laser sensors, arranged, by means of which objects, here the preceding vehicle VF, and their relative speed v _R are detected to the vehicle F in a detection area E.

The high forward speed v ₂ and the consequent high relative speed v _{R of} the preceding vehicle vF to the vehicle F are fed to an evaluation unit 2 arranged in the vehicle F. The evaluation unit 2 determines from the supplied data, whether it is the vehicle F oncoming, in the same direction preceding or motionless objects. Furthermore, the evaluation unit 2 determines from the supplied data, in particular from an outer shape of the object, whether it is a vehicle, a pedestrian, a cyclist, an animal or an obstacle. The obstacle may be structural objects, such. B. houses, objects of a transport infrastructure, such. As traffic signs, traffic lights, traffic islands or boundary posts or objects such. B. larger stones, boulders or the like.

Depending on the direction of movement, the relative speed v _R and the classification of the object, the evaluation unit 2 controls one or more illumination devices 3 in such a way that an angle range W of one or more light beams Li, L ₂ corresponding to the objects is partial or complete recessed or the object is partially or completely illuminated.

For this purpose, the illumination device 3 comprises at least one headlamp not shown in detail with arrangements by means of which an illumination characteristic of the light cone Li, L _{2 is} controllable. The arrangements are, for example, in headlamps with conventional headlamps, z. As halogen lamps and / or gas discharge lamps, as automatically adjustable apertures, as automatic headlamp leveling and / or as devices for automatic adjustment of an angle of the light cone Li, L ₂ executed.

In headlamps that comprise light-emitting diodes as illuminants, the evaluation unit 2 may be connected to a control unit, not shown, which directly activates and / or deactivates individual light-emitting diodes in order to achieve a variation of an illumination characteristic of the light cones Li, L ₂ .

If the vehicle v ahead of the vehicle F is located in the detection area E of the imaging sensors 1 arranged on the vehicle F, the imaging sensors 1 acquire image information of the object, here the preceding vehicle vF, and its relative velocity v _R to the vehicle F and guide them ascertained data to the evaluation unit 2. With this data, the latter performs a determination of the object type by means of which the object is classified as the preceding vehicle vF.

The evaluation unit 2 further controls the lighting devices 3 of the vehicle F, which adjust the light cone Li, L ₂ such that one to the preceding vehicle vF corresponding

Angular range W from the light cones Li, L _{2 is} recessed.

Thus, a glare of a non-illustrated

Driver of the vehicle in front vF avoided.

In a non-illustrated, the vehicle F oncoming object, z. As a vehicle, a pedestrian P and / or a cyclist, the light cone Li, L _{2 are} also set such that an angle range corresponding to the object on the basis of the evaluation unit 2 carried out determination of the object type and the relative speed v _{R of} the respective object W is omitted to exclude glare.

In one embodiment of the invention, it is possible that not all of the corresponding to the object angle range W, but only a part of this is recessed. Determines the evaluation unit 2 in an approaching the vehicle F object when determining the object type, for example, a pedestrian or a cyclist, the evaluation unit 2 controls the lighting devices 3 of the vehicle F such that these from the light cones Li, L ₂ only to a Head of pedestrian or cyclist corresponding angle range W save, but below the head the pedestrian or the cyclist and his bike light. Thus, dazzling of an oncoming traffic participant is avoided, but at the same time a better visibility of the road user for the driver of the vehicle F is achieved.

Figure 2 shows the vehicle F moving at the speed Vi. It continues to move Pedestrian P with a low forward speed V ₃ in the same direction as the vehicle F.

The imaging sensors 1 determine the image information of the pedestrian P and a low relative speed v _R to the vehicle F and lead them to the evaluation unit 2 of the vehicle F. This determines from these data that the detected object is a pedestrian P moving in the same direction relative to the vehicle F with a low relative speed v _R. The evaluation unit 2 controls the lighting devices 3 in such a way that the pedestrian P is completely illuminated by means of the light cone L ₂ and the driver of the vehicle F is faster and better recognizable.

In motionless pedestrians P or non-illustrated motionless obstacles such. B. objects of the transport infrastructure, controls the evaluation unit 2, the lighting devices 3 in the same way, so that the pedestrian and / or the obstacle are illuminated by the light cone Li, L ₂ . This allows the vehicle driver of the vehicle F to recognize dangerous situations at an early stage and to initiate measures for averting the danger, such as evasion or braking of the vehicle F.

If the evaluation unit 2 determines a stationary obstacle located on or next to a roadway, in particular an animal not shown in detail, the evaluation unit 2 can alternatively control the lighting devices 3 in such a way that an angular range W corresponding to the animal is obtained from the light cones Li L ₂ is omitted to avoid dazzling the animal. Because animals, especially game, motionless in a beam of light Li, L ₂ persist, a collision of the vehicle F with the animal can be avoided by this recess, since the driver of the vehicle F is pointed on the one hand by the recess of the angular range W from the light cones Li, L ₂ on the obstacle and the obstacle, here in particular the animal, does not remain motionless in the light cone Li, L ₂ and can leave the roadway.

Reference sign list

1 imaging sensor

2 evaluation unit

3 lighting device

E detection range

F vehicle

Li light cone

L ₂ light cone

P pedestrian

Vi speed

V ₂ high forward speed

V ₃ low forward speed vF preceding vehicle v _R relative speed

W angle range

Claims

claims

1. A method for a driving light control of a vehicle (F), wherein image information of at least one object, comprising a relative speed (v _R ) of the at least one object to the vehicle (F), are detected, characterized in that the at least one object due to its relative speed (v _R ) is assigned to a specific object type, wherein depending on the object type, an angle range (W) of one or more light cones (Li, L ₂ ) corresponding to the at least one object is partially or completely recessed.

2. The method according to claim 1, characterized in that one or more objects are partially or completely illuminated depending on the object type.

3. The method according to claim 1 or 2, characterized in that it is distinguished as an object type between vehicles, pedestrians, cyclists, animals and obstacles.

4. The method according to any one of claims 1 to 3, characterized in that on the basis of the relative speed (v _R ) between the vehicle (F) oncoming, differing in the same direction and / or motionless objects is distinguished.

5. The method according to claim 4, characterized in that at one of the vehicle (F) oncoming object a corresponding to the object or parts of the object angle range (W) of the light cone (Li, L ₂ ) is recessed.

6. The method according to claim 4 or 5, characterized in that to those with high relative speed (v _R ) in the same direction as the vehicle (F) moving objects, in particular preceding vehicles (vF), corresponding angular ranges (W) of the light cone (Li, L ₂ ) are omitted.

7. The method according to any one of claims 4 to 6, characterized in that at low relative speed (v _R ) in the same direction as the vehicle (F) moving objects, especially pedestrians P or cyclists, are illuminated.

8. The method according to any one of claims 4 to 7, characterized in that a motionless object, in particular an obstacle, is illuminated.

9. Device for a driving light control of a vehicle (F), comprising at least one imaging sensor (1), by means of which at least one object and its relative speed (v _R ) to the vehicle (F) detectable is, comprising an evaluation unit (2) for the evaluation of image information, characterized in that by means of the evaluation unit (2) the at least one object on the basis of its relative speed (v _R ) is assigned to a specific object type, based on the object type a partial or complete recess of a to the at least one object corresponding angular range (W) of one or more light cone (Li, L ₂ ) is feasible.

10. The device according to claim 9, characterized in that, depending on the object type, a partial or complete illumination of at least one object is feasible.

11. The device according to claim 9 or 10, characterized in that the at least one imaging sensor (1) is designed as a radar sensor, camera and / or laser sensor.

12. Device according to one of claims 9 to 11, characterized in that the evaluation unit (2) is designed such that are distinguishable as object type vehicles, pedestrians, cyclists, animals and obstacles.

13. Device according to one of claims 9 to 12, characterized in that the evaluation unit (2) is designed such that on the basis of the relative speed (v _R ) the vehicle (F) oncoming, in the same direction moving and / or motionless objects distinguishable are.

14. Device according to one of claims 9 to 13, characterized in that one or more lighting devices (3) are present, by means of which a partial or complete recess of an object corresponding to an angular range (W) of the light cone (Li, L ₂ ) executable is.

15. The device according to claim 14, characterized in that by means of one or more illumination device (s) (3) is a partial or complete illumination of an object executable.

16. The apparatus according to claim 14 or 15, characterized in that the

Lighting device (3) comprises at least one headlamp with one or more arrangements for controlling an illumination characteristic of the light cone (Li, L ₂ ).

17. The apparatus of claim 16, characterized in that the headlamp comprises lighting means, which are designed as headlamps, in particular halogen lamps and / or gas discharge lamps, and / or as light-emitting diodes.