EP3311196A1 - Maneuvering a road train comprising a motor vehicle and a trailer - Google Patents

Abstract

The invention relates to maneuvering a road train (1) comprising a motor vehicle (2) and a trailer (3), comprising the steps: reception of scanning data by a computing device (13) of the motor vehicle (2) from a distance sensor (4, 5) of the motor vehicle (2), wherein the scanning data represents a distance (d) between a rear (8) of the motor vehicle (2) and the front side (9) of the trailer (3) that faces said rear (8); determination of the position of the trailer (3) from the received scanning data by means of a computing device (13), and stipulation of the direction of travel for the motor vehicle (2) by means of the computing device (13) whilst taking the position of the trailer (13) into account, in order to simplify the maneuvering of a road train comprising a motor vehicle and comprising a trailer. The invention further relates to a driver assistance apparatus suitable for carrying out the method.

Description

 Maneuvering a trailer with a car and a trailer

The invention relates to a method for maneuvering a trailer with a motor vehicle and with a trailer. The invention also relates to a

Driver assistance device for maneuvering a trailer with a motor vehicle and a trailer, which has a distance sensor, by means of which a distance between a rear of the motor vehicle and a front side facing the rear of the trailer can be detected.

In the field of motor vehicles, a variety of sensors for detecting respective environments of the cars is used today. In addition to cameras, ultrasonic sensors or LED-based sensors, for example, can also be used here.

The use of LED-based sensors in the motor vehicle sector is described, for example, in WO 2008/154736 A1.

Driver assistance systems which provide parking assistance via the use of ultrasonic sensors are also widespread. The parking aid can provide information about a distance of the corresponding motor vehicle from obstacles in the environment, for example, parked other cars. However, parking gaps can also be detected and measured by such driver assistance systems, for example, and a parking process can be carried out autonomously or semi-autonomously.

Also Rangierhilfesysteme for teams, so for cars, to which a trailer is attached, are known. These are helpful for a driver when driving backwards in the direction of the rear of the motor vehicle. For example, in the

WO 2006/042665 A1 and US 2014/0160276 A1 discloses such shunting assistance systems for horse carriages. The trailers and the environment of the team are monitored by cameras.

The object is to simplify the maneuvering of a team with a motor vehicle and with a trailer. This object is solved by the subject matters of the independent claims. Advantageous embodiments will become apparent from the dependent claims, the description and the figures.

The invention comprises a method for maneuvering a trailer with a motor vehicle and with a trailer having a plurality of steps. The trailer is coupled with the car. A first step is thereby receiving sampling data by a computing device of the motor vehicle from a distance sensor of the motor vehicle. The scanning data can be detected or detected in particular by a distance sensor arranged at a rear of the motor vehicle. The detection of the sampling data by the distance sensor can be a further, for example, receiving the sampling data by the computing device

preceding, step of the procedure.

The scan data represents a distance between a rear of the motor vehicle and a rear facing front, a bow, of the trailer. The

Sampling data may include information about the distance to two or more times or information about the distance in two different areas of the tail. The sampling data can also be from two or more

Distance sensors of the motor vehicle are detected or be. Another step is to determine a position of the trailer from the received scan data by the computing device. The position of the trailer may include or represent a position and / or orientation of the trailer relative to the motor vehicle. From the position, a trailer angle between a longitudinal axis of the motor vehicle and a longitudinal axis of the trailer can be determined. The position or the

Trailer angle can for example be calculated from a comparison of distance values for the distance at different times or in different areas of the rear of the motor vehicle. Finally, predetermining a direction of travel or a driving trajectory for the motor vehicle takes place, taking into account the position or the trailer angle, by the computing device.

This has the advantage that the position of the trailer is reliably determined in a particularly simple manner. The known from the prior art and required in this consuming image processing of camera data is eliminated. Moreover, just with a distance sensor, in particular an active distance sensor, distance measurements are simple and yet possible with great accuracy. Thus, the trailer angle is particularly accurate at a low processing or Computational effort can be determined. Moreover, known from known parking aids ultrasonic distance sensors can be used for the process, which are already installed in many cars. Thus, the maneuvering without a great deal of technical effort in a simple way with established and anyway often already in the car existing hardware, the distance sensors of a commercial parking aid, be implemented.

It can also be done regardless of determining the position of the trailer or determining the trailer angle also check whether the of the

Sampling data represented distance from motor vehicle and trailer is less than a predetermined minimum distance. In this case, an indication can be issued and / or an automatic intervention in a driving behavior and / or braking behavior and / or steering behavior of the motor vehicle carried out. This has the advantage that it is particularly easy to collide the motor vehicle with the trailer, as can occur when the steering angle of the motor vehicle is too great, especially during a reverse drive.

In an advantageous embodiment, it is provided that receiving the

Scanning data is performed by the computing device of an optical distance sensor, in particular of an active optical distance sensor. An active distance sensor differs from a passive distance sensor in that a transmit signal is sent into an environment by the active sensor and conclusions about the surroundings of the distance sensor are drawn from a receive signal assigned to the respective transmit signal. A passive sensor, on the other hand, only detects signals from the environment that are present in it anyway. The use of an optical distance sensor, in particular an active optical

Distance sensor, allows a particularly accurate detection of a distance or a particularly accurate scanning of an environment of the distance sensor with simple means.

In this case, the optical distance sensor may comprise a light emitting diode and / or a laser diode. In the operation of the distance sensor, it may or may emit in particular a light in the visible or infrared range in order to detect a distance. For example, here light in the wavelength range between 900 and 950

Nanometers are used. In this case, the distance sensor may in particular be designed to detect objects in a near environment via the light-emitting diode and thus small distances, which are preferably less than 15 meters, and / or via the laser diode Objects in a distant environment and therefore large distances, preferably more than 15 meters to capture. This has the advantage that the respective distances are detected very precisely.

In a preferred embodiment, it may be provided that the scanning data are obtained by the optical distance sensor by a transit time method, a so-called time-of-flight method (TOF). For this purpose, the active optical

Distance sensor are operated in a pulse mode, so that, for example, by the light emitting diode and / or the laser diode, a light pulse is emitted, respectively, the time that the light or the light pulse from the distance sensor to an object and from the object back to the distance sensor needs measured becomes. This can be done several times, preferably with a frequency of more than 100 kilohertz. This has the advantage that the distance between the rear of the motor vehicle and the front of the

Trailer is detected particularly accurately and quickly. In addition, the TOF method is particularly well suited for a simultaneous or quasi-simultaneous detection of the distance in different solid angle ranges, as will be done in the next paragraph.

In the embodiment according to the invention it is provided that receiving the

Scanned data is performed by the computing device of a multi-channel distance sensor. Through a multi-channel distance sensor several distances in each spatially resolved channels can be determined. Correspondingly, the scanning data represent a distance spatially resolved at least in a horizontal direction transverse to the longitudinal axis of the motor vehicle in a plurality of channels, with a plurality of respective distances between the rear and the front side. The respective distance values are assigned to the respective channels of the distance sensor. The multi-channel distance sensor can have, for example, sixteen independent channels here. The number of channels can vary. In particular, eight or thirty-two channels are advantageous here. In the respective channels, a distance in a space segment or solid angle region of the surroundings of the distance sensor assigned to the respective channel can then be detected in each case. This has the advantage that the distance can be determined very accurately in a simple manner. Moreover, so from the change of the distance, a pivot point of the trailer can be determined, so that, for example, a driving behavior depending on a predefined by a driver or predetermined by a driver assistance device or predeterminable steering behavior of the motor vehicle can be predetermined. In a particularly advantageous manner, it is provided here that the sampling data comprise individual data which indicates the distance in respective assigned space segments

represent. In this case, the space segments in the horizontal, starting from the distance sensor, in particular an opening angle of less than 3 °. The space segments can jointly cover, for example, a horizontal angle range of 45 °, starting from the distance sensor. At sixteen

Channels of the distance sensor then occupies each space segment a horizontal angle of 2, 8 °. But it can also be provided other horizontal opening angle for the distance sensor, for example 34 ° 24 ° 18 ° or 9 °. A vertical opening angle of the distance sensor for the respective segments can here

for example, be 7.5 °. By the distance sensor so then a by horizontal and vertical opening angle specific section of the environment of the distance sensor is scanned and objects in this section detectable. This has the advantage that the distance is determined very accurately and accordingly the

Maneuvering is facilitated particularly efficient. The spatial horizontal resolution with an opening angle of less than 3 ° hi he has proven to be particularly favorable. Even with irregular or round shaped trailer front sides so the distance can be reliably and accurately detected, since the individual data can be evaluated by the computing device.

In the embodiment according to the invention, it is provided that the scanning data from the multi-channel distance sensor is also a scanning information via a lateral

Environment of the trailer included. In particular, an environment which is located perpendicular to the longitudinal axis next to the trailer is to be regarded as a lateral environment. The lateral environment may extend parallel to the longitudinal axis beyond a length of the trailer. In this case, a first checking of the scanning data is carried out by the computing device as to whether an object is in the lateral environment of the trailer or not. In the case of a positive result of the first check, that is to say when there is an object in the surroundings, the calculating device determines a position of the object located in the lateral environment. This is followed in this case then a second check by the computing device, whether the determined position in a resulting from the position of the trailer and / or from the trailer angle driving range or in a from the position of the

Trailer or / and the trailer angle resulting trajectory of the team or not. In particular, a driving range or a driving trajectory for a reversing of the combination can be taken into account. In the case of a positive result of the second check, that is, if the determined position is in the Driving range or the driving trajectory is done, there is a prevention of a collision between the vehicle and object by the computing device. The prevention of a collision can also be understood here as a reduction of a collision probability between the team and the object or be such. This has the advantage that the safe maneuvering with the team is simplified. By the computing device not only one direction can be specified, but it can also be prevented collisions during maneuvering. This would otherwise have to be taken over by a driver, so that the maneuvering is further simplified.

It can be provided in a further advantageous embodiment that preventing the collision outputting a warning signal and / or automatic intervention in a braking and / or steering system of the team, in particular the

Motor vehicle, includes. The automatic intervention in a braking and / or steering system may include an automatic intervention in a braking and / or steering behavior of the team or the motor vehicle. This has the advantage that both a manual maneuvering by the driver as well as a semi or fully automatic

Maneuvering by the computing device or other driver assistance device of the motor vehicle maneuvering is particularly simple, efficient and safe.

In a further advantageous embodiment it is provided that by the

Computing also determining a contour, namely an outer contour, the front of the trailer takes place. In particular, a calculation of an axle position of the trailer by evaluating the change in the orientation of the contour as a function of the change in the steering angle of the motor vehicle can be carried out by the computing device as a result. Thus, on the one hand the distance can be calculated very accurately and also a misinterpretation can be prevented, which

For example, threaten with complex shaped front sides with projections and indentations. By calculating the axle position of the trailer, the direction of travel for the vehicle, taking into account the position of the trailer or the trailer

Trailer angle, particularly simple and efficient default.

In a further preferred embodiment it is provided that the specification of the direction of travel includes an indication to a driver of the motor vehicle. For example, the indication may indicate a deviation from a current steering angle of the motor vehicle from an optimum or by the computing device proposed steering angle of the motor vehicle. For example, the suggested steering angle may be required to enter one of the computing device or driver assistance device parking parked or recognized parking space. This has the advantage that even without automatic intervention in a braking or steering system of the team maneuvering the team is simplified. Especially in a reverse drive contributes to such an indication to the driver to simplify the maneuvering.

In another preferred embodiment it is provided that the predetermining of the direction of travel comprises an automatic setting of a steering angle of the motor vehicle and in particular also an automatic setting of a driving speed of the motor vehicle or the vehicle. Thus, a partially or fully automatic parking or maneuvering can be realized. Thus, the maneuvering of the team is simplified again.

The invention also relates to a driver assistance device for maneuvering a trailer with a motor vehicle and a trailer. The driver assistance device has at least one distance sensor, by means of which a distance between a rear end of the motor vehicle and a rear side facing the rear of the

Trailer is detectable. In order to simplify the maneuvering of the team, the driver assistance device also has a computing device, by means of which a position of the trailer can be determined from the detected distance and a direction of travel of the motor vehicle can be predetermined taking into account the position of the trailer. The computing device may be an electrical control unit of the motor vehicle. The position of the trailer may include a trailer angle between a longitudinal axis of the motor vehicle and a longitudinal axis or represented by the trailer angle. The driver assistance device can also be an automatic driving and / or

Include power steering device by means of which a steering angle of the motor vehicle or a driving speed of the motor vehicle is automatically predetermined.

The invention also includes a motor vehicle with such

Driver assistance device.

Advantages and advantageous embodiments of the driver assistance device and the motor vehicle with such a driver assistance device correspond here to advantages and advantageous embodiments of the method for maneuvering the vehicle.

The features and feature combinations mentioned above in the description as well as the features and feature combinations mentioned below in the description of the figures and / or shown alone in the figures are not limited to the respective given combination, but also in other combinations or alone, without departing from the scope of the invention. Thus, embodiments of the invention are to be regarded as encompassed and disclosed, which are not explicitly shown and explained in the figures, however, emerge and can be produced by separated combinations of features from the embodiments explained. Embodiments and combinations of features are also to be regarded as disclosed, which thus do not have all the features of an originally formulated dependent or independent claim.

Embodiments of the invention are described below with reference to schematic

Drawings explained in more detail. Showing:

Showing:

1 shows a schematic view of an exemplary vehicle with an exemplary embodiment of a driver assistance device for maneuvering the vehicle from a bird's-eye view;

Fig. 2 is an enlarged detail of Fig. 1, and

Fig. 3 is a perspective oblique view of another exemplary

 Trailer combination.

In the figures, the same or functionally identical elements are the same

Provided with reference numerals.

In Fig. 1 is a trailer 1 with an exemplary embodiment of a

Driver assistance device 16 for maneuvering the trailer 1 from a

Bird's eye view shown schematically. The team 1 here includes a motor vehicle 2, to which a trailer 3 is attached at the rear. At the rear 8 of the motor vehicle 2 here two distance sensors 4, 5 are arranged here. Both

Distance sensors 4, 5 are in the example shown to active, multi-channel LED sensors with light emitting diodes. These sensors 4, 5 emit respective light signals 6, 7 in a reverse direction of the motor vehicle 2, in this case the y-direction. The two distance sensors are integrated in the example shown in a rear bumper of the motor vehicle 2. In the present exemplary embodiment, a distance d between a tail 8 and a tail 8 can thus be determined via a transit time measurement of the respective signals 6, 7 facing front side 9 of the trailer 3 determine. The sensors 4, 5 are here coupled to a computing device 13. Sensors 4, 5 and computing device 13 are here part of the driver assistance device 16.

In the example shown, the signals 6, 7 are also emitted by the two distance sensors 4, 5 into respective lateral surroundings 10, 11 of the trailer 3. Thus, these lateral environments 10, 1 1 are scanned by the distance sensors 4, 5. The scan data acquired by the distance sensors 4, 5 thus also represent one or more scan information about the lateral surroundings 10, 11. Objects 12, symbolized by a pedestrian in the present example, can therefore also be detected in this lateral environment 10, 11. In the case of an imminent collision, an indication, for example for warning a driver of the motor vehicle 2, can accordingly be output and / or, for example, braking

be made. It is also possible to correct a direction of travel for the motor vehicle 1 predetermined by the driver assistance device 16.

From the scanning data of the distance sensors 4, 5 can be a position of the trailer 3 in the form of a trailer angle Θ between a

Longitudinal axis L _{A of} the motor vehicle and a longitudinal axis L _{B of} the trailer 3 are determined. Accordingly, here by the computing device 13, a direction of travel for the motor vehicle 2, taking into account the position of the trailer 3, here the trailer angle Θ, predetermined. This is also a direction of travel for the team 1 can be specified. This is advantageous especially when reversing the team 1.

2, a detail of Fig. 1 is shown. Enlarged here is the area between the rear 8 of the motor vehicle 2 and the front 9 of the trailer 3 can be seen. The signals 6, 7 of the two distance sensors 4, 5 here scan respective space segments 14a to 14p and 15a to 15p. In the example shown by the two

Distance sensors 4, 5 thus each sixteen space segments 14a-p, 15a-p sampled. In the example shown, the space segments 14a-p, 15a-p each have a horizontal opening angle of 2.8 °, so that the signals 6, 7 are radiated altogether over 45 ° by the two distance sensors 4, 5. In the space area enclosed in this horizontal opening angle, the front side 9 of the trailer 3 and further objects 12 can be detected correspondingly in the present case. In the example shown, the distance sensors 4, 5 also have a vertical opening angle. This is smaller than the horizontal opening angle here. The vertical opening angle can be, for example 7.5 °, whereas the horizontal opening angle between 45 ° and 9 °, in particular 45 ° 34 ° 24 ° 18 ° and / or 9 ° amount n can.

By the signals 6, 7, the distance d between the rear 8 and the front side 9 can thus be spatially resolved in the respective space segments 14a-p, 15a-p. With the aid of software algorithms, the contour or outer contour of the trailer 3 on the front side 9 can be determined accordingly in the computing device 13. Especially when it is a trailer 3 with a non-rectangular base, as in the example shown, thus the position of the trailer 3 and here the trailer angle Θ can be determined very accurately and easily.

Due to the different distances in the different space segments 14a-p, 15a-p, the position of the trailer 3 and the trailer angle Θ can be calculated by the computing device 13. This can also be used to determine where the trailer 3 travels when reversing. This depends on one

instantaneous steering angle Φ (Fig. 1) of the motor vehicle 2 from. It can thus by the driver assistance system 16, a collision between the trailer 3 and the car

2 be prevented, in which, for example, at a too large steering angle Φ of the motor vehicle 2, in which the trailer 3 and the front side 9 of the trailer 3 to the rear 8 of the motor vehicle 2 approaches too much, an indication is issued and / or an automatic intervention in the driving and / or braking and / or

Steering behavior of the motor vehicle 2 is made.

FIG. 3 shows a further exemplary combination in a schematic oblique view. In the oblique view it can be seen that the lateral environment 10, 1 1, of the trailer 3 is also scanned by the distance sensors 4, 5. In this case, the lateral surroundings 10, 11, which are scanned by the distance sensors 4, 5, are each formed by a subset of the space segments 14a-p, 15a-p, in the present case by six respective space segments 15k-p and 14k-p. Thus, in the illustrated embodiment, by the distance sensors 4, 5 on the one hand directly the distance d (Fig. 1, Fig. 2) between the rear 8 of the motor vehicle 2 and front 9 of the trailer 3 detected and on the other hand, the lateral environments 10, 1 1 of the trailer

3 monitored. The lateral environments 10, 1 1 extend here because of the range of the distance sensors, which may be, for example, LeddarTech multi-channel LED sensors, to a range which in the y-direction (here the reverse direction) considered until (viewed from the motor vehicle 2) may extend well behind the trailer 3. For example, the Distance sensors 4, 5 a range of up to 40 meters in the

Reverse direction of the team 1 have.

Thus, without elaborate image processing, recognition of objects 12 on the left and right of the trailer 3 can be carried out and, if necessary, a braking intervention by the driver assistance device 16 prevents a collision of the trailer 3 with an object 12 in the vicinity of the vehicle 1. It should be noted that a region 17 (FIG. 1) which extends in an extension of the

Motor vehicle 2 is located directly behind the trailer 3, can not be monitored in the present case by the distance sensors 4.5, since objects 12 can not be detected by these distance sensors 4, 5 around corners. Here, for example, a camera at the rear of the trailer 3 could provide a remedy.

Claims

claims

1 . Method for maneuvering a trailer (1) with a motor vehicle (2) and a trailer (3), comprising the steps of:

 - Receiving of sampling data by a computing device (13) of the motor vehicle (2) from a distance sensor (4, 5) of the motor vehicle (2), wherein the sampling data a distance (d) between a rear (8) of the motor vehicle (2) and a representing the rear (8) facing front side (9) of the trailer (3);

 - Determining a position of the trailer (3) from the received sampling data by the computing device (13);

 - Specifying a direction of travel for the motor vehicle (2) taking into account the position of the trailer (13) by the computing device (13)

 characterized in that

 receiving the sampling data by the computing device (13) from a multi-channel distance sensor (4, 5), so that the sampling data represent a spatially resolved distance (d) in one horizontal direction and the sampling data from the multi-channel distance sensor (4, 5) also represent sampling information a lateral environment (10, 1 1) of the trailer (3) included, and by:

 - a first checking of the sampling data by the computing means (13), whether an object (12) in the lateral environment (10, 1 1) is located; in the case of a positive result of the first checking, determining by the computing device (13) a position of the object (12) in the lateral environment;

 - A second check by the computing device (13), if the determined

 Position in a position resulting from the position of the trailer (3)

 Driving range of the team (1) is located; in the case of a positive result of the second checking: preventing a collision between the vehicle (1) and the object (12) by the computing device (13).

2. The method according to claim 1,

 characterized in that

receiving the sampling data by the computing device (13) from an optical distance sensor (4, 5) takes place, in particular of an active optical Distance sensor (4, 5).

Method according to claim 2,

 characterized in that

 the optical distance sensor (4, 5) comprises a light-emitting diode and / or a laser diode, which in particular emits light in the visible or infrared range.

Method according to claim 3,

 characterized in that

 the scan data through the optical distance sensor (4, 5) by a

 Runtime method can be obtained.

5. The method according to claim 1,

 characterized in that

 the sampling data comprise individual data representing the distance (d) in respective assigned space segments (14a-14p, 15a-15p), wherein in particular the space segments (14a-14p, 15a-15p) in the horizontal starting from the distance sensor (4, 5 ) have an opening angle of less than 3 °.

6. The method according to claim 1,

 characterized in that

 preventing the collision comprises outputting a warning signal and / or an automatic intervention in a braking and / or steering system of the motor vehicle (2).

7. The method according to any one of claims 1 or 5,

 marked by

 determining a contour of the front side (9) of the trailer (3) through the

Calculating means (13) and in particular calculating an axle position of the trailer (3) by evaluating the change in the orientation of the contour as a function of the change in a steering angle (Φ) of the motor vehicle (2).

8. The method according to any one of the preceding claims,

 characterized in that

 the presetting of the direction of travel includes an indication to a driver of the motor vehicle (2).

9. The method according to any one of the preceding claims,

 characterized in that

 the setting of the direction of travel comprises an automatic adjustment of the steering angle (Φ) of the motor vehicle (2) and in particular also an automatic setting of a driving speed of the motor vehicle (2).

10. The method according to any one of the preceding claims,

 characterized in that

 the position of the trailer (3) a trailer angle (Θ) between a

Longitudinal axis (L _A ) of the motor vehicle (2) and a longitudinal axis (L _B ) of the trailer (3) comprises or represented by the trailer angle (Θ).

1 1. Driver assistance device (16) for maneuvering a vehicle (1) with a motor vehicle (2) and a trailer (3), with at least one distance sensor (4, 5), by means of which a distance (d) between a rear end (8) of the motor vehicle ( 2) and one of the rear (8) facing the front side (9) of the trailer (3) can be detected, and a computing device (13), by means of which a position of the

 Trailer (3) from the detected distance (d) can be determined and a direction of travel for the motor vehicle (2), taking into account the position of the trailer (3) can be specified;

 characterized the.

 the computing device (13) is adapted to distance data from a

 processing multichannel distance sensor (4, 5), wherein the sampling data represent a spatially resolved in a horizontal direction distance (d) and the sampling data from the multi-channel distance sensor (4, 5) and a

 Scanning information about a lateral environment (10, 1 1) of the trailer (3), and wherein the computing means (13) is adapted to carry out the following steps in the processing of the scan data:

- a first checking of the sampling data by the computing means (13), whether an object (12) in the lateral environment (10, 1 1) is located; in a positive Result of the first check: determining a position of the object (12) located in the lateral environment by the computing device (13);

 - A second check by the computing device (13), whether the determined position in a from the position of the trailer (3) resulting driving range of the team (1) is located; in the case of a positive result of the second checking: preventing a collision between the vehicle (1) and the object (12) by the computing device (13).

12. motor vehicle (2) with a driver assistance device (16) according to claim 1 1.