WO2016062679A1 - Method for assisting a driver of a motor vehicle when parking in a parking space, driver assistance system and a motor vehicle - Google Patents

Abstract

The invention relates to a method for assisting a driver of a motor vehicle (1) when parking in a parking space (13) by means of a driver assistance system (2), with which, while the driver of the motor vehicle (1) moves relative to the parking space (13), a surrounding area (9) of the motor vehicle (1) is detected by means of a sensor device (10) of the driver assistance system (2) , a control device (3) of the driver assistance system (2) checks whether a predetermined activation criterion for starting an at least semi-automatic parking procedure into the parking space (13) is fulfilled, and the assistance of the driver during parking into the parking space (13) ensues after fulfillment of the predetermined activation criterion, wherein the predetermined activation criterion comprises the fact that the motor vehicle (1) moves backwards towards the parking space (13) and at least one object (11, 12) delimiting the parking space (13) is detected by means of the sensor device (10).

Description

 A method for assisting a driver of a motor vehicle when parking parking space, driver assistance system and motor vehicle

The present invention relates to a method for assisting a driver of a motor vehicle when parking in a parking space by means of a driver assistance system in which, while the driver moves the motor vehicle relative to the parking space, a surrounding area of the motor vehicle is detected by means of a sensor device of the driver assistance system, by a control device the driver assistance system is checked whether a predetermined activation criterion for starting an at least semi-autonomous parking operation is met in the parking space, and assisting the driver when parking in the parking space after fulfillment of the predetermined

Activation criterion takes place. The invention also relates to a driver assistance system and a motor vehicle.

A method for assisting a driver of a motor vehicle when parking or so-called parking aid systems are known in various embodiments from the prior art. For example, driver assistance systems are known which can detect parking spaces or free parking spaces with the aid of corresponding sensor devices and can assist the driver during the parking process. In this case, the driver can be supported both when parked parallel and when Querparken. In addition, driver assistance systems are known which the motor vehicle at a

Maneuver parking procedure semi-autonomously. This takes over

Driver assistance system, the steering of the motor vehicle and the driver presses the accelerator pedal and the brake. Furthermore, driver assistance systems are already known which enable autonomous maneuvering of the motor vehicle.

Furthermore, parking systems are described in the prior art in which a parking space is measured and the driver is supported when parking. For example, DE 10 2009 040 373 A1 describes a method for carrying out an at least semi-autonomous parking operation of a vehicle. This is before the

Introducing the parking operation on two opposite sides in each case by an object directly limited parking space by a sensor device of the

Parking assistance system detected. During the parking process, a parking path is determined as a function of the detected parking space, wherein, after the parking procedure has been initiated, a distance of the vehicle from the objects is detected by the sensor device and after the fulfillment of a predetermined correction criterion relating to at least one of the distances, the parking path is corrected.

In addition, EP 2 289 768 A2 describes a method for assisting a driver of a motor vehicle when parking in a transverse parking space by means of a driver assistance device. In this case, ambient conditions of the motor vehicle are detected by a sensor device and a parking path to be traveled by the motor vehicle, at least semi-autonomously, is determined as a function of the ambient conditions. The motor vehicle is hereby parked forward in the parking space. Furthermore, provision may be made for a predetermined activation criterion to be taken into account for starting the at least semi-autonomous parking.

It is an object of the present invention to provide a solution as a driver of a motor vehicle when parking in a parking space can be supported in a simple manner.

This object is achieved by a method by a

Driver assistance system and solved by a motor vehicle with the features according to the respective independent claims. Advantageous embodiments of the invention are the subject of the dependent claims, the description and the figures.

An inventive method is used to assist a driver of a

Motor vehicle when parking in a parking space by means of a driver assistance system. While the driver moves the motor vehicle relative to the parking space, a surrounding area of the motor vehicle is detected by means of a sensor device. In addition, it is checked by a control device of the driver assistance system, whether a predetermined activation criterion for starting an at least semi-autonomous parking operation is met in the parking space, and assisting the driver when parking in the parking space takes place after fulfillment of the predetermined

Activation criterion. In this case, the predetermined activation criterion comprises that the motor vehicle moves backwards in the direction of the parking space and that at least one object bounding the parking space is detected by means of the sensor device.

With the method according to the invention, the driver can be assisted in parking back into a parking space. It is not necessary here that the parking space is first measured. If the predetermined activation criterion is met, can the at least semi-autonomous parking operation is started in the parking space. In the semi-autonomous parking process, for example, the driver is assigned to accelerate and brake. A turning and thus a turning of the steerable wheels of the motor vehicle is automatically and thus driver independent by means of

Driver assistance system performed. Alternatively, the steering is performed by the driver and the driver assistance system informs the driver how to drive the vehicle. In an autonomous or completely automatic parking process, the driver assistance system can additionally in a drive train of the

Engage motor vehicle and / or a brake system of the motor vehicle.

In order to check whether the predetermined activation criterion is met, it is checked whether the driver moves the motor vehicle backwards in the direction of the parking space. Furthermore, it is checked whether at least one object which limits the parking space, by means of

Sensor device is detected. The sensor device can be arranged in a rear region of the motor vehicle. With the sensor device, at least one object can be detected that is located substantially behind the motor vehicle. As the at least one object, for example, a vehicle can be detected, which limits the parking space. It is also conceivable that only a part of the motor vehicle is detected as the object. For example, at least a part of a body of a vehicle can be detected. In particular, a corner of a vehicle can be detected. As the object also other objects can be detected, which the

Limit parking space. For example, a curb or a wall can be detected. Alternatively, a corresponding road mark can be detected.

Preferably, a distance to the at least one object is detected by means of the sensor device and the predetermined activation criterion comprises that the detected distance falls below a predetermined threshold value. For this purpose, the sensor device can comprise one or more distance sensors, for example ultrasound sensors,

Radar sensors, laser sensors or cameras. With these sensors, the distance between the motor vehicle and the object can be detected. If the distance falls below a predetermined threshold, the predetermined

Activation criterion met and the at least semi-autonomous parking operation can be started. Thus, the driver can be offered assistance in parking in the parking space as soon as he moves the vehicle in the parking space. In a further refinement, when the predetermined activation criterion is met, an information signal is output to the driver by means of the control device. This information signal can be displayed for example on a display device of the motor vehicle. Alternatively or additionally, the

Information signal are output by means of an acoustic output device of the motor vehicle. Thus, the driver can be informed acoustically about the possibility of activating the driver assistance system. Furthermore, it is conceivable that the information signal is haptically, for example via corresponding actuators in the steering wheel, output to the driver. Thus, the driver can be informed that assistance in the reverse parking in the parking space by means of the driver assistance system is possible.

Furthermore, it is advantageous if the assistance of the driver when parking in the parking space is additionally effected as a function of an activation signal provided by an operator input of the driver. The driver can be informed, for example, first by the information signal that he is through the

Driver assistance system when Rückwärteinparken in the parking space can be supported. If the driver wants to take advantage of the assistance provided by the driver assistance system, he can use the semi-autonomous parking procedure by a

release appropriate operator input. This operator input, the driver, for example, at an operating device of the motor vehicle, such as a control or a touchscreen, make. Thus, the driver can control the at least semi-autonomous parking operation accordingly.

In a further embodiment, the at least semi-autonomous parking operation in the parking space is started automatically when the predetermined activation criterion is met. After the fulfillment of the activation criterion, the assistance of the driver can be initiated automatically, that is, independently of an operator input of the driver. It can also be provided that the driver can interrupt or stop the at least semi-autonomous parking operation by means of a corresponding operator action, for example a steering intervention or the actuation of the brake. Thus, the driver can be reliably assisted in the reverse parking in the parking space.

In a further embodiment, a driving trajectory is determined by means of the control device, along which the motor vehicle is moved in the at least semi-autonomous parking operation. The driving trajectory describes in particular one Einparkbahn, along which the motor vehicle when Rückwärteinparken in the

Parking space is moved. To determine the driving trajectory, a distance between the motor vehicle and the at least one object can be determined. In particular, the relative position of the motor vehicle to the at least one object can be determined. Furthermore, the dimensions of the motor vehicle can be taken into account, which are stored for example in a memory of the control device. The

Driving trajectory is determined in particular so that the motor vehicle is moved without collision in the parking space. Thus, the driver can be reliably assisted in reverse parking.

Furthermore, it is advantageous if a relative position between the motor vehicle and the at least one object when moving the motor vehicle in the parking space is detected continuously and the driving trajectory is adjusted in dependence on the detected relative position. When moving the motor vehicle into the parking space, the parking space or the objects which delimit the parking space can be detected more accurately by means of the sensor device. This information can be used continuously to adjust or correct the driving trajectory accordingly. Thus, a continuous improvement of an environment model of the motor vehicle can be made possible.

For moving the motor vehicle along the driving trajectory, an intervention in a steering of the motor vehicle is preferably carried out by means of the control device. Thus, the lateral control of the motor vehicle by the control device of the

Driver assistance system are enabled. In this case, it can also be provided that the driver operates the accelerator pedal and / or the brake. Thus, the driver can be assisted in steering the motor vehicle during the reverse Einparkens in the parking space. In this way, it can be prevented, in particular, that the motor vehicle collides with an parking object delimiting the parking space during reverse parking.

For moving the motor vehicle along the travel trajectory, an intervention in a brake system and / or a drive train of the motor vehicle is preferably carried out by means of the control device. Thus, a solution can be provided in which the motor vehicle is completely guided during reverse parking in the parking space. This means that the motor vehicle can additionally be guided longitudinally. In this case, it is provided in particular that the control over the movement of the motor vehicle remains with the driver. For this purpose, the driver, for example, a corresponding Abbruch signal, in consequence of which the movement of the motor vehicle is stopped, provide. The abort signal can be output as a result of an operator input, which the driver inputs to an operating device of the motor vehicle.

It is preferred to stop the movement of the motor vehicle along the

Fahrtrajektorie an abort signal provided by an operator input of the driver at a motor vehicle external communication device. The movement of the motor vehicle along the driving trajectory can therefore be stopped as a result of the abort signal. The termination signal may be from the motor vehicle external

Communication device are transmitted to the control device. To

Receiving the Abbruchsignals, the control device, the brake system of the

Drive motor vehicle. This proves to be particularly advantageous if the width of the parking space is very narrow and getting off the driver after parking the motor vehicle in the parking space is no longer possible, but a software-controlled or at least semi-autonomous parking is still possible. In this case, the driver can, for example, leave the motor vehicle before parking in the parking space and control the parking operation by means of a communication device external to the vehicle. It can also be provided that only when the motor vehicle is moved into the parking space is it recognized that the parking space is too narrow. In this case, a further driving maneuver may be provided, in which the motor vehicle is moved out of the parking space again. If the motor vehicle is outside the parking space, the motor vehicle can be stopped. Here, the driver can get out of the vehicle or leave the vehicle. Connecting the motor vehicle can be moved back into the parking space. Here, the movement of the motor vehicle by an operator input to a motor vehicle external

Communication device to be stopped. Such a motor vehicle external

Communication device may be, for example, a smartphone or the like. Thus, the driver outside the motor vehicle by providing the

Stop signal by means of the smartphone to stop the motor vehicle. If the

Communication device is a smartphone, for example, a corresponding application or app can be brought to the expiration and the termination signal is transmitted to the control device of the motor vehicle.

In one embodiment, an outer contour of the at least one object is detected by means of the sensor device and stored in a memory unit of the control unit. For example, information about the external dimensions of the object can be stored to at least semi-autonomously the motor vehicle Taxes. For example, to avoid possible collisions, an area which is arranged behind the motor vehicle and during the movement of the

Motor vehicle currently no longer can be detected, are stored accordingly. Thus, a collision between the motor vehicle and the at least one object that limits the parking space can be reliably prevented.

Furthermore, it is advantageous if the sensor device is controlled by the control device upon detection of the surrounding area in such a way that a

Detection range of the sensor device starting from a predetermined

Reference range is extended. The detection area can also be called

Detection area are called. The detection area describes the area around the sensor device in which an object can be detected or in which a distance to the object can be determined. When performing the method or while assisting the driver when parking this detection range can be extended. For example, a transmission power of the sensor device can be increased. Thus, objects in the surrounding area of the motor vehicle can be detected faster and more reliably.

The parking space in which the motor vehicle is moved is preferably designed for transverse parking or oblique parking. The parking space may be formed, for example, as a transverse parking space. A transverse parking space can be understood, in particular, as such a parking space whose main extension direction is substantially perpendicular to a main extension direction of a roadway which adjoins the parking space. An oblique parking space or a parking space for oblique parking may be such a parking space whose main extension direction has a predetermined angle to a main extension direction of a roadway adjacent to the parking space.

A driver assistance system according to the invention comprises a control device which is designed to carry out a method according to the invention. The

Control device, for example, by an electronic control unit of the

Motor vehicle (Electronic Control Unit, ECU) are provided.

A motor vehicle according to the invention comprises an inventive

Driver assistance system. The motor vehicle is designed in particular as a passenger car. The preferred embodiments presented with reference to the process according to the invention

Embodiments and their advantages apply correspondingly to the driver assistance system according to the invention and to the motor vehicle according to the invention.

Further features of the invention will become apparent from the claims, the figures and the description of the figures. All 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 only in the respective combination indicated, but also in others

Combinations or used alone.

The invention will now be described with reference to a preferred embodiment and with reference to the accompanying drawings.

Showing:

1 is a schematic representation of a motor vehicle according to a

 Embodiment of the present invention; and

Fig. 2 to 4, the arrangement of the motor vehicle to objects that a parking space

 limit, when performing a method according to the invention at different times.

1 shows a motor vehicle 1 according to an embodiment of the present invention

Invention. The motor vehicle 1 is in the present embodiment as

Passenger cars trained. The motor vehicle 1 comprises a

Driver assistance system 2. The driver assistance system 2 in turn comprises a

Control device, which may be formed, for example, an electronic control unit of the motor vehicle 1. Furthermore, the driver assistance system 2 comprises a

Sensor device 10.

In the present embodiment, the sensor device 10 comprises four

Distance sensors 4, 5, 6, 7. The four distance sensors 4, 5, 6, 7 are arranged in a rear region of the motor vehicle 1. The distance sensors are in particular designed to detect an object 11, 12 in a surrounding area 9 of the motor vehicle 1. Furthermore, the distance sensors 4, 5, 6, 7 are designed to have a Distance to an object 1 1, 12 in the surrounding area 9 of the motor vehicle 1 to determine. The distance sensors 4, 5, 6, 7 may be designed, for example, as radar sensors, laser scanners, cameras or the like. Preferred are the

Distance sensors 4, 5, 6, 7 formed as ultrasonic sensors. With the

Distance sensors 4, 5, 6, 7, the surrounding area 9 behind the motor vehicle 1 and at least partially a lateral surrounding area 9 of the motor vehicle 1 are detected.

In order to use the distance sensors 4, 5, 6, 7 to detect the object 11, 12 in the surrounding area 9 of the motor vehicle 1 or to determine the distance to the object 11, 12, it is possible to use the distance sensors 4, 5, 6, 7 a signal will be sent out. This signal can be reflected by the object 11, 12 and received again by the distance sensors 4, 5, 6, 7. Based on the duration of the signal, the distance to the object 1 1, 12 can be determined.

The driver assistance system 2 can also determine the current position of the motor vehicle 1. For this example, the signals of a satellite-based

Positioning system are taken into account. Furthermore, the current position of the motor vehicle 1 can be determined by means of odometry. For this purpose, for example, the wheel revolutions of at least one wheel of the motor vehicle 1 and / or a steering angle of the motor vehicle 1 can be determined. Based on the current position of the motor vehicle 1 and / or the distance between the motor vehicle 1 and the object 1 1, 12, the relative position of the motor vehicle 1 with respect to the object 1 1, 12 can be determined.

In addition, the control device 3 is designed to calculate a driving trajectory of the motor vehicle 1. Such a driving trajectory can for example describe a collision-free movement of the motor vehicle past the object 11, 12. For this purpose, the outer dimensions of the motor vehicle 1 can be taken into account, which are stored for example in a memory unit of the control device. By means of the driver assistance system 2, the motor vehicle 1 can be moved semi-autonomously along the travel trajectory.

Furthermore, the driver assistance system 2 comprises an output device 8. The output device 8 is connected to the control device 3 for data communication

connected. The output device 8 may comprise, for example, a corresponding screen or a display on which the driver of the motor vehicle 1 an information can be displayed. Furthermore, the output device 8 can be designed to output an acoustic signal, for example via a corresponding loudspeaker.

The driver assistance system 2 is to support the driver when parking the motor vehicle 1 in a parking space 13. 2 shows an exemplary embodiment in which the motor vehicle 1 is to be parked backwards into a parking space 13. The parking space 13 is presently limited by the two objects 1 1, 12. The objects 1 1, 12 are presently formed by parked vehicles. Furthermore, the respective detection areas A, B, C, D of the distance sensors 4, 5, 6, 7 are shown in FIG. 2. Of the

Distance sensor 4 has a detection area A, the distance sensor 5 has a detection area B, the distance sensor 6 has a detection area C, and the distance sensor 7 has a detection area D. It can be detected with the two average distance sensors 5 and 6, the area behind the motor vehicle 1. With the outer distance sensors 4, 7, at least in regions, a side region of the motor vehicle 1 can be detected.

The driver assistance system 2, which supports the driver when parking in the parking space 13 should be activated only if a predetermined activation criterion is met. In the present case, the driver of the motor vehicle 1 moves the motor vehicle in the direction of the parking space 13. In this case, the motor vehicle 1 is moved without the assistance of the driver assistance system 2. When moving backwards the motor vehicle 1 in the direction of the parking space 13 detect in the example shown in FIG

Distance sensor 5, the first object 1 1 and the distance sensor 7, the second object 12. The predetermined activation criterion can be met, for example, when the distance between the motor vehicle 1 and one of the objects 1 1, 12 a

falls below predetermined threshold.

If the predetermined activation criterion is met, this can also be communicated to the driver on the output device in the form of a corresponding information signal. This can, for example, via a corresponding display on a

Screen, an audible signal and / or a haptic signal. If the activation criterion is met, an at least semi-autonomous parking process in the parking space 13 can be started.

The at least semi-autonomous parking of the motor vehicle 1 can take place automatically if the predetermined activation criterion is met. In this case, by the control device 3, a corresponding control signal to the steering of

Motor vehicle 1 output and the motor vehicle 1 is moved along the Fahrtrajektorie or Einparkbahn in the parking space 13. This takes over

Driver assistance system 2, the intervention in the steering. The driver assistance system 2 thus assumes the transverse guidance of the motor vehicle 1. The driver continues to press the accelerator pedal and the brake.

Alternatively or in addition, it may be provided that the at least semi-autonomous parking operation is not started automatically. Here it is conceivable, for example, that in addition an operator input must be performed by the driver. The

Operator input can be lied to a corresponding control device of the motor vehicle 1. Thus, the driver can release the at least semi-autonomous parking operation of the motor vehicle 1 in the parking space 13 by an activation signal accordingly.

Fig. 3 shows the arrangement of FIG. 2 at a later time of

Steering angle takes place. This change in the steering angle results in an optimized orientation of the motor vehicle 1 to the objects 1 1, 12 and the parked vehicles. During the movement of the motor vehicle 1 into the parking space 13, the distance of the motor vehicle 1 with respect to the objects 11, 12 can be detected continuously. Depending on the detected distance between the motor vehicle 1 and the objects 1 1, 12, the driving trajectory or the parking track can be adjusted accordingly.

Fig. 4 shows the arrangement of FIG. 3 at a later time. The motor vehicle 1 is now close to the end of the at least semi-autonomous parking operation. As a parameter, the ratio of the distance between the motor vehicle 1 and the object 1 1 left to the left of the motor vehicle 1 and the distance between the motor vehicle 1 and the object 12 to the right of the motor vehicle 1 can be entered. If the width of the parking space 13 is too narrow or falls below a predetermined threshold value, a further driving maneuver can be added to the at least semi-autonomous parking procedure. In this further driving maneuver, the motor vehicle 1 is moved out of the parking space 13 again. The motor vehicle 1 is thus moved forward. Subsequently, the driver from the motor vehicle 1

get out. Subsequently, the motor vehicle can be moved autonomously into the parking space 13 without the driver. The movement of the motor vehicle 1 in the

Reversing into the parking space 13, for example, by a Motor vehicle external communication device, such as a smartphone, are stopped by the driver.

Claims

claims 1 . Method for assisting a driver of a motor vehicle (1) when parking in a parking space (13) by means of a driver assistance system (2) in which, while the driver moves the motor vehicle (1) relative to the parking space (13), by means of a sensor device (10 ) of the driver assistance system (2)  Umbebungsbereich (9) of the motor vehicle (1) is detected by a  Control device (3) of the driver assistance system (2) is checked whether a predetermined activation criterion for starting an at least semi-autonomous parking operation in the parking space (13) is met, and assisting the driver when parking in the parking space (13) after the fulfillment of the predetermined  Activation criterion occurs,  characterized in that  the predetermined activation criterion comprises that the motor vehicle (1) moves backwards in the direction of the parking space (13) and that at least one object (11, 12) delimiting the parking space (13) is detected by means of the sensor device (10). 2. The method according to claim 1,  characterized in that  by means of the sensor device (10) a distance to the at least one object (1 1, 12) is detected and the predetermined activation criterion comprises that the detected distance falls below a predetermined threshold value. 3. The method according to claim 1 or 2,  characterized in that  when the predetermined activation criterion is met, an information signal is output to the driver by means of the control device (3). 4. The method according to any one of the preceding claims,  characterized in that the assistance of the driver when parking in the parking space (13) additionally takes place in dependence on an activation signal provided by an operating input of the driver. 5. The method according to any one of claims 1 to 3,  characterized in that  the at least semi-autonomous parking operation in the parking space (13) is started automatically upon the fulfillment of the predetermined activation criterion. 6. The method according to any one of the preceding claims,  characterized in that  by means of the control device (3), a driving trajectory is determined, along which the motor vehicle (1) is moved in the at least semi-autonomous parking operation. 7. The method according to claim 6,  characterized in that  a relative position between the motor vehicle (1) and the at least one object (1 1, 12) when moving the motor vehicle (1) into the parking space (13) continues to be detected and the driving trajectory is adjusted as a function of the detected relative position. 8. The method according to claim 6 or 7,  characterized in that  for moving the motor vehicle (1) along the driving trajectory an engagement in a steering of the motor vehicle (1) by means of the control device (3) is performed. 9. The method according to any one of claims 6 to 8,  characterized in that  for moving the motor vehicle (1) along the driving trajectory an intervention in a brake system and / or a drive train of the motor vehicle (1) by means of the control device (3) is performed. 10. The method according to any one of claims 6 to 9,  characterized in that for stopping the movement of the motor vehicle along the driving trajectory, an abort signal is provided by the operating input of the driver at a communication device external of the motor vehicle. 1 1. Method according to one of the preceding claims,  characterized in that  by means of the sensor device (10) detects an outer contour of the at least one object (1 1, 12) and stored in a memory unit of the control device (3). 12. The method according to any one of the preceding claims,  characterized in that  the sensor device (10) is controlled by the control device (3) upon detection of the surrounding area (9) in such a way that a detection area (A, B, C, D) of the sensor device (10) emanates from a predetermined one  Reference range is extended. 13. The method according to any one of the preceding claims,  characterized in that  the parking space (13), in which the motor vehicle (1) is moved, is designed for transverse parking or oblique parking. 14. Driver assistance system (2) with a control device (3), which is designed for carrying out a method according to one of the preceding claims. 15. Motor vehicle (1) with a driver assistance system (2) according to claim 14.