DE102013221878A1 - Driver assistance system with a camera with non-uniform angular resolution - Google Patents

Abstract

The invention relates to a driver assistance system (2) for a motor vehicle (4) comprising a camera (6) with a horizontal image angle (α) and a vertical image angle (β), a control and evaluation unit (8) and a display (10). , wherein the camera (6) has an optical system (12) with a non-uniform angular resolution in the field of view of the camera (6).

Description

The invention relates to a driver assistance system for a motor vehicle comprising a camera with a horizontal angle of view and with a vertical angle of view, a control and evaluation unit and a display.

Currently, more and more motor vehicles driver assistance systems are installed, in which a camera or multiple cameras are used to capture the immediate environment of the motor vehicle image technically and / or monitor, in particular areas of the environment or the immediate environment are detected, for a driver from the passenger compartment are only partially visible.

The cameras used for this purpose are typically digital cameras with an image sensor and simple optics, which is often given by a simple spherical lens. The image data generated with the aid of the cameras are subjected to automatic image processing in some driver assistance systems and displayed in the passenger compartment on a display to the respective driver of the motor vehicle.

To capture the largest possible area of the environment with the fewest possible cameras lenses are sometimes used in the cameras used with which an image angle in the order of about 180 ° can be realized. Since the size and resolving power of the image sensors used typically can not be chosen and adjusted as desired, however, as the image angle increases, the angular resolution of the corresponding camera generally decreases. For example, a horizontal image angle of 180 ° for a 1200 pixel image sensor in the horizontal direction requires a resolution of about 6.5 pixels per degree, except for distortions in the edge region.

Such resolving power is typically still sufficient for simple driver assistance systems that are designed exclusively for imaging the immediate surroundings of the motor vehicle and for displaying the image on a display. However, if the environment is not only to be imaged but also monitored with the aid of the camera, then such an angular resolution is insufficient in many cases. Thus, for example, changes in size of moving objects with an extension of one meter at a corresponding angular resolution only up to a distance of 10 meters can be detected by means of automatic image processing, which is typically not sufficient for environmental monitoring.

For this reason, in the case of such driver assistance systems in which a high angular resolution is required, several cameras are used to detect a desired surrounding area, and the cameras used have a lens with a correspondingly lower angle of view.

Proceeding from this, the object of the invention is to provide an advantageous driver assistance system.

This object is achieved by a driver assistance system with the features of claim 1. Preferred developments are contained in the dependent claims.

The driver assistance system is designed for a motor vehicle and is accordingly also used in such a vehicle. It comprises at least one camera with a horizontal image angle and with a vertical image angle, a control and evaluation unit and a display, wherein the camera has an optical system with a non-uniform angular resolution in the field of view of the camera. Field of view is here understood to be the area spanned by the horizontal and vertical field of view.

The camera is typically formed as a digital camera with a rectangular image sensor, as in the case of the prior art cameras described above, but instead of a simple optics with uniform or uniform angular resolution, optics with uneven or non-uniform Angular resolution used. In this way, the angular resolution is increased in areas where a high angular resolution is required, starting from a system with uniform angular resolution, and in areas where a low angular resolution is sufficient, the angular resolution is reduced accordingly. The increase in the angular resolution in the areas classified as particularly important or relevant is thus initially achieved solely by the use of special optics, for example by means of a specially shaped lens or a special lens system, and not by an adaptation of the image sensor used in the camera. Depending on the application, however, it is additionally provided to also use an adapted image sensor, wherein in some cases, for example, an image sensor with pixels of different sizes is used.

The horizontal angle of view of the camera is preferably greater than 150 ° and in particular greater than or equal to 180 °, so that with a single camera the largest possible area of the immediate environment or the environment of the vehicle can be detected. Depending on the functionality of the Driver assistance system, it is particularly intended to use only one camera. If, for example, the principle of a reversing camera is implemented with the driver assistance system, the driver assistance system merely has a camera which is integrated into the bodywork at the rear of the motor vehicle.

Furthermore, the optic is preferably designed such that an increased angular resolution is realized at least in two solid angle regions of the field of view of the camera. Such a configuration is particularly advantageous when several subareas of the immediate environment or the environment of the motor vehicle to be monitored by means of automatic image processing and accordingly in a plurality of solid angle regions of the field of view of the camera, an increased angular resolution is needed.

Advantageously, an increased angular resolution is realized in a central region of the field of view located in the solid angle region about the optical axis. In this way, for example, in the case of a camera positioned at the rear of the motor vehicle, the following traffic can also be detected and identified at a relatively large distance, that is to say in the region of a few hundred meters.

In an advantageous embodiment, the central region extends over an angular range of the horizontal image angle between 5 ° and 15 °, whereby an angular range of 10 ° has proven to be very expedient.

In addition, the optic is preferably designed such that in an edge region of the field of view, an increased angular resolution is given. In this way, for example, when a camera is positioned at the rear of the motor vehicle, the transverse traffic can be detected so that, for example, when returning to the rear of a head parking space, crossing cyclists or pedestrians are recognized in good time. In addition, the increased angular resolution in this area also allows better object recognition, which, among other curbs or hydrants when entering or leaving parking not so easily overlooked.

Conveniently, the edge region extends over an angular range of the horizontal angle of view between 5 ° and 15 °, with an angle range of 10 ° has proved to be particularly useful here.

In particular, in favor of an effective automated image processing of the camera generated by the driver assistance system image data, the optics of the camera is preferably designed such that in the angular ranges with increased angular resolution, an angular resolution with a value between 10 pixels per degree and 30 pixels per degree is realized. Since the increase in the angular resolution in individual solid angle ranges of the field of view of the camera as described above is usually achieved by reducing the angular resolution in other regions, it is not always expedient to realize the highest possible angular resolution in the regions with increased angular resolution , Instead, a value for the angular resolution, both in the areas with increased angular resolution and in the areas with reduced angular resolution, is determined depending on the application and intended use. For most applications, a value of 20 pixels per degree has proven to be advantageous for the regions with increased angular resolution.

Furthermore, a radially symmetrical configuration of the optics is expedient, in particular if this is given by a single lens. As a result, the production cost of a corresponding optics is kept relatively low. Alternatively, a non-radially symmetrical optics is used, this variant is preferably used when the optics is given by a lens system of several lenses.

In the case of a non-radially symmetrical optics, the optic is further preferably designed such that a reduced angular resolution is realized in an edge region of the vertical image angle. It is assumed that, for example, the vehicle background immediately behind the motor vehicle or the area clearly above the horizon, ie the sky, typically need not be detected with a particularly high angular resolution.

In addition, different values for the angular resolution are realized for the different solid angle ranges with increased angular resolution depending on the intended use, and in some cases the different solid angle ranges with increased angular resolution are different in size.

Corresponding cameras with a non-uniform angular resolution in the field of view of the camera are preferably used to realize a driver assistance system in the manner of a reversing camera, or to replace the classic exterior mirrors of the motor vehicle, so in particular to realize so-called electronic mirrors.

Embodiments of the invention will be explained in more detail with reference to a schematic drawing. Show:

1 in a side view of a motor vehicle with a driver assistance system with a camera,

2 in a plan view the motor vehicle with the driver assistance system with the camera,

3 in a plan view the cameras with marked angular ranges with increased resolution,

4 in a diagram the dependence of the angular resolution on the horizontal angle of view,

5 in a view looking along the optical axis of the camera, the shape of the angular regions with increased resolution in a radially symmetric optics and

6 in a view looking along the optical axis of the camera, the shape of the angular regions with increased resolution in a non-radially symmetric optics.

Corresponding parts are provided in all figures with the same reference numerals.

An example described below and in 1 such as 2 shown driver assistance system 2 is in a motor vehicle 4 built in and includes a camera 6 , a control and evaluation unit 8th and an ad 10 ,

The camera 6 is there as a digital camera 6 configured and has an unillustrated image sensor and optics 12 on, the together give the horizontal angle α on the one hand and the vertical angle of view β on the other hand. The two image angles α, β in this way span the field of view of the camera 6 on, ie the solid angle, that of the camera 6 recorded and with the help of the driver assistance system 2 is monitored. The from the camera 6 generated image data are stored in the control and evaluation unit 8th subjected to automatic image processing and finally on the display 10 in the passenger compartment of the motor vehicle 4 displayed to the respective driver.

By means of the optics 12 the camera 6 is there, as in 3 and 4 indicated a non-uniform angular resolution in the field of view of the camera 6 realized to detect and monitor classified as important areas with increased angular resolution. Shown here is the angular resolution in dependence or rather in the direction of the horizontal angle of view α. It can be seen that an increased angular resolution on the one hand in one around the optical axis 14 located central area 16 and on the other hand in a border area 18 given is. Both the central area extend 16 as well as the border area 18 in each case over an angular range of 10 ° and in these angular ranges with increased resolution, an angular resolution of 20 pixels per degree is realized. In contrast, the angular resolution in the other areas is only 5 pixels per degree.

The increased angular resolution in the central area 16 serves mainly for the detection and identification of subsequent road users at a greater distance, ie in the distance range between 100 and 500 meters, with the help of automatic image processing in the control and evaluation 8th the distance to subsequent road users is determined and as a value over the display 10 is displayed by a fade into the image data. The increased angular resolution in the edge area 18 However, it is primarily intended to detect cross traffic, so that, for example, when reversing out of a head parking gap crossing pedestrians, cyclists or other vehicles are detected in good time. This allows the increased angular resolution in the edge region 18 also a recognition of himself on the motor vehicle 4 moving objects by means of automatic image processing in the control and evaluation 8th so that the respective driver is alerted by a warning tone to cross traffic.

The optics 12 is given according to an embodiment by a single specially shaped lens which is designed radially symmetrical. As a result, are also the central area 16 and the border area 18 formed radially symmetrically, as in 5 outlined.

Alternatively, the optics 12 designed as a lens system of several lenses, wherein the lens system has no radial symmetry. The central area 16 and the border area 18 such a non-radially symmetric optics 12 are in 6 outlined as an example. In this variant, then an alignment of the optics 12 when installing the driver assistance system 2 in the motor vehicle 4 necessary.

The invention is not limited to the embodiment described above. Rather, other variants of the invention can be derived therefrom by the person skilled in the art without departing from the subject matter of the invention. In particular, all the individual features described in connection with the exemplary embodiment can also be combined with each other in other ways, without departing from the subject matter of the invention.

LIST OF REFERENCE NUMBERS

2

Driver assistance system

4

motor vehicle

6

camera

8th

Control and evaluation unit

10

display

12

optics

14

optical axis

16

Central area

18

border area

α

horizontal angle of view

β

vertical angle of view

Claims (14)

Driver assistance system ( 2 ) for a motor vehicle ( 4 ) comprising a camera ( 6 ) with a horizontal angle of view (α) and with a vertical angle of view (β), a control and evaluation unit ( 8th ) as well as an advertisement ( 10 ), the camera ( 6 ) an optic ( 12 ) with a non-uniform angular resolution in a field of view of the camera formed by the horizontal image angle (α) and the vertical image angle (β) ( 6 ) having. Driver assistance system ( 2 ) according to claim 1, wherein the horizontal angle of view (α) is greater than 150 ° and in particular greater than 180 °. Driver assistance system ( 2 ) according to claim 1 or 2, wherein the optics ( 12 ) is designed such that at least in two solid angle regions of the field of view, an increased angular resolution is realized. Driver assistance system ( 2 ) according to one of claims 1 to 3, wherein the optics ( 12 ) is designed such that in one in the solid angle range around the optical axis ( 14 ) central area ( 16 ) of the field of view, an increased angular resolution is realized. Driver assistance system ( 2 ) according to claim 4, wherein the central area ( 16 ) over an angular range of the horizontal image angle (α) of the size between 5 ° and 15 °, in particular over an angular range of the size 10 °, extends. Driver assistance system ( 2 ) according to one of claims 1 to 5, wherein the optics ( 12 ) is designed such that in an edge region ( 18 ) of the field of view, an increased angular resolution is realized. Driver assistance system ( 2 ) according to claim 6, wherein the edge region ( 18 ) over an angular range of the horizontal image angle (α) of the size between 5 ° and 15 °, in particular over an angular range of the size 10 °, extends. Driver assistance system ( 2 ) according to one of claims 1 to 7, wherein the increased angular resolution has a value between 10 pixels per 1 ° and 30 pixels per 1 °, in particular a value of 20 pixels per 1 °. Driver assistance system ( 2 ) according to one of claims 1 to 8, wherein the optics ( 12 ) is designed radially symmetrical. Driver assistance system ( 2 ) according to one of claims 1 to 8, wherein the optics ( 12 ) is designed non-radially symmetrical. Driver assistance system ( 2 ) according to claim 10, wherein the optics ( 12 ) is designed such that in a peripheral region of the vertical image angle (β) a reduced angular resolution is realized. Driver assistance system ( 2 ) according to claim 10 or 11, wherein the optics ( 12 ) is designed such that in an edge region ( 18 ) of the horizontal image angle (α) an increased angular resolution is realized and that in a solid angle around the optical axis ( 14 ) central area ( 16 ) of the field of view, an increased angular resolution is realized, wherein the solid angle with increased angular resolution in the edge region ( 18 ) is greater than that in the central area ( 16 ). Driver assistance system ( 2 ) according to one of claims 1 to 12, wherein the camera ( 6 ) acts as a rear view camera. Driver assistance system ( 2 ) according to one of claims 1 to 12, wherein the camera ( 6 ) acts as an exterior mirror replacement.

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