WO2011042002A1 - Method for the transverse guidance of a motor vehicle - Google Patents

Abstract

The invention relates to a method for the transverse guidance of a motor vehicle (1), wherein an actual value (Y_actual) of a variable representing the transverse position of the vehicle (1) in the lane (2) of the vehicle is identified by means of an environmental sensor device (10) and is compared to a desired value (Y_desired) that can be set within predetermined limits, and according to the deviation of the actual value (Y_actual) from the set desired value (Y_desired), actuators (51, 61) of the vehicle (1) are controlled in such a way that the actual value (Y_actual) of the variable representing the transverse position of the vehicle (1) approaches the set desired value (Y_desired). According to the invention, if a lane change request is present, the set desired value (Y_desired) is changed in such a way that the associated transverse position of said desired value (Y_desired) moves in the direction of the requested lane change.

Description

 Method for the transverse guidance of a motor vehicle

The invention relates to a method for the transverse guidance of a motor vehicle according to the preamble of patent claim 1 and to a driver assistance system of a motor vehicle for carrying out the method according to the preamble of patent claim 11.

Lane keeping systems of vehicles warn or assist the driver when there is a risk of the vehicle leaving the lane. So there are systems (Lane Departure Warning), which only warn the driver when the system detects a tendency to leave the lane. The warning can be acoustic, visual or haptic. Further developed systems (lane keeping support) generate a correction yawing moment if a tendency to leave the lane is detected by sensors, thereby preventing an agreement of the vehicle, for example, from the road. The correction yaw moment can be generated, for example, by means of a superposition steering system or via a wheel-specific braking process. Such a correction yaw moment can also be generated via a wheel or axle-specific drive torque setting.

Lane keeping systems can be implemented as part of a general driver assistance system, which also includes a cruise control system ACC (Adaptive Cruise Control), as well as being designed as a subsystem of a system for autonomous vehicle guidance. The systems mentioned work on the basis of

 Environment sensors, such as camera systems that provide data from the environment, for example, data of a lane detection or an object (for example, a preceding or following vehicle). With such systems, the driver should be relieved and at the same time increased road safety, so as to reduce the risk of accidents. Condition for this is that the

CONFIRMATION COPY Drivers are not patronized by such systems and are also easy to use. In particular, the operation must be unambiguous or the control strategy of such systems for the driver comprehensible and therefore understandable.

Thus, from the generic DE 102 10 548 AI a transverse guidance system for a motor vehicle is known in which by means of a sensor device, the actual position of the vehicle relative to the limits of the traveled lane is detected. Furthermore, a lateral deviation of the setpoint value from the lane center of the lane is manually entered by means of a predefinition device for the desired value of the transverse position. In this known transverse guidance system, therefore, the setpoint value for the transverse position of the vehicle does not have to correspond to the lane center of the roadway, but can deviate within certain limits to both sides of the lane center, whereby this deviation can be set manually by the driver according to his wishes or the traffic situation. This is contrary to the desire of many drivers, for example, when driving in a column on highways to move laterally offset to stop by the vehicle ahead.

A disadvantage of this transverse guide system, however, is that the driver could be overwhelmed in critical traffic situations when tracking or adjusting the setpoint to such a situation.

The object of the invention is therefore to provide a method for the transverse guidance of a vehicle of the aforementioned type, in which the traffic safety in the case of an intended lane change is improved, but avoids the disadvantages of the prior art. It is another object of the invention to provide a driver assistance system of a vehicle for carrying out the method according to the invention. The first object is achieved by a method having the features of patent claim 1.

According to the invention, in the case of the generic method for the transverse guidance of a motor vehicle, when the lane change request is present, the set desired value is changed such that the associated transverse position of this setpoint shifts in the direction of the requested lane change.

With such an automatic shift of the track deposit or the desired value of the transverse position of the vehicle, the driver is relieved of a manual setting and it is mainly an accidentally wrong setting prevented, which could lead to traffic safety critical situations. In particular, the inventive automatic adjustment of the shift of the track deposit offers the possibility of the size of the displacement of current traffic conditions. to make dependent. Due to the better overview of the driver, in particular by the adapted to the traffic situation shift the track deposit, the changing of the lane, especially at high relative speeds, eg. On highways significantly safer. Even in the case of autonomous vehicle guidance, when the driver does not undertake a driving task, the on-board sensor system can better detect those vehicles which are approaching the vehicle from the rear or the front or ahead of the vehicle and the additional information thus obtained Use adaptation of the driving strategy.

According to an advantageous development of the invention, the surroundings sensor device is designed as a lane detection sensor system for detecting lane detection data, the setpoint value being changed as a function of the lane width and / or the course of the lane. This will be the size adapted to the shift to changing lanes, for example. When the lanes narrow in the area of a construction site, which increased safety is guaranteed even in such traffic conditions when changing the lane.

It is particularly advantageous if the

 Environment sensor device is designed as obj ekterkennungssensorik for detecting object and / or object position data, wherein the desired value is changed in dependence on a leading and / or following vehicle. Thus, the shift of the transverse position of the vehicle can be adapted not only to the course of the lanes, but also to the transverse position, so the transverse position of the surrounding vehicles, so that a better view for the driver and for onboard sensors both forward and backward is possible.

A further improvement of the method according to the invention results from the fact that, based on electronic map data and position data of a GPS system, the total number of available lanes and the actual position of the vehicle is determined and the setpoint is changed in dependence thereon. Preferably, the setpoint is thereby changed, taking into account corridors for rescue and / or emergency vehicles, in particular if such rescue vehicles are detected.

This makes it possible to move the track shelf of the vehicle so that corridors for escape routes are kept free. For example, when the vehicle is approaching a jam end and the information about the total lane lane number and information on which lane the vehicle is currently located is provided, the shift is set in the direction that the prescribed corridor for a detected one of Rear approaching emergency vehicle remains free. Preferably, the method according to the invention can be developed so that on the basis of a car-to-car communication (C2X communication) mission and / or rescue vehicles are detected.

According to one embodiment of the invention, a lane change request is detected by an operation of a direction indicator, in particular a flasher of the vehicle. Furthermore, it is also possible for such a lane change request by a detection and evaluation of the

To detect steering angle. The evaluation of the steering angle can also be performed in addition to detecting the state of the flasher. Advantageously, according to an embodiment of the invention, the transverse guidance of the vehicle is also performed by an autonomous system for vehicle guidance.

The second-mentioned object is achieved by a method having the features of patent claim 11.

Hereafter, such a driver assistance system of a vehicle comprises the following components:

 a sensor system, in particular a camera system, which comprises components for the detection, tracking and classification of a plurality of marked and unmarked lane delimitations and / or components for object detection and its classification, as environment sensor device,

 - A control unit for the evaluation of the

Environment sensor device to be supplied with collected data,

a flasher detector and / or a steering angle detector, wherein the flasher detector generates a status signal which is supplied to the control unit as a function of the operating state of a flasher of the vehicle, and / or the steering angle detector generates a steering angle indicative status signal which is fed to the control unit, - A superposition steering and / or a braking system with wheel-individual braking torque setting, the control unit depending on the data of the environment sensor device and the state signal of the flasher detector determines a deviation of the target value for the transverse position of the vehicle and in dependence of the deviation of the actual value of the transverse position of the vehicle from the target value generates a control signal for the superposition steering and / or the brake system. The invention will be described below with reference to FIGS

Drawings explained in more detail. Show it:

1 is a schematic representation of a driving situation on a two-lane road to explain the method according to the invention,

Fig. 2 is a schematic representation of a further driving situation on a three-lane road to explain the method according to the invention, and

Fig. 3 is a schematic block diagram of an assistance system of a vehicle for carrying out the method according to the invention. In the following, the method according to the invention for transverse guidance will be explained with reference to driving situations of a vehicle according to FIGS. 1 and 2, the vehicle being equipped with an assistance system according to FIG. 3 for longitudinal and transverse guidance.

This assistance system according to FIG. 3 comprises lane tracking and object detection and operates by means of a camera 10. The image data of the surroundings of the vehicle 1 according to FIG. 1 are transmitted by the camera 10 to a control unit 20, this control unit 20 components for detection , Tracking and classification of several marked and unmarked lane delimitations as well as components for object detection and object tracking.

Furthermore, the assistance system according to FIG. 3 comprises a flasher detector 31 which monitors the operating state of a flasher 30 and a steering angle detector 40.

According to FIG. 1, the vehicle 1 travels in the direction of the arrow F on the right-hand traffic lane 2 of a two-lane highway, a preceding vehicle 5 driving in front of the vehicle 1 and a following vehicle 6 following the vehicle 1. The assistance system is in a mode of lane tracking and a follow-up control, in which the vehicle is controlled both transversely and longitudinally.

In the case of lane tracking, the assistance system sets a target value Y _so i of a size which corresponds to the transverse position of the vehicle 1 in its lane 2 and compares this target value Y _so ii with an actual value Yi _St , that is the transverse position, detected from the image data of the camera 10 corresponds to the vehicle 1 corresponding size. If the actual value Yi _{st differs} by a predetermined value from the desired value Y _so ii, a control of the vehicle 1 by means of an actuator to this actual value Yi _st - As actuator, a steering divider 51 a superposition steering 50 and / or brake cylinder 61 of

 Brake system 60 of the vehicle can be used, as shown in Figure 3. With the steering divider 51 or by individual brakes by means of the brake cylinder 61 of the brake system 61, a correction yaw moment is generated. The setpoint may be, for example, the lane center of the lane 2.

If the driver of the vehicle 1 of FIG. 1 wishes to overtake the vehicle 5 traveling in front of him, he first sets the flasher 30 to the left to indicate the intended lane change. This is performed by the assistance system according to FIG. 3 as a lane change request by evaluation of the flashing signal. encoder detector 31 detected. Instead of the flasher detector 31, a steering angle detector 40 can also be used in such a way that when a specific steering angle is detected, a lane change request is assumed. It is advantageous to use both the flasher detector 31 and the steering angle detector 40 for the safe detection of a lane change request by the driver.

If such a lane change request is detected by the control unit 20, the setpoint value Y is _thus displaced by a predetermined value ΔΥ in the direction of the requested lane change, as in the direction of the left lane 3, so that now a new setpoint value with Y is set _so ii + ΔΥ results, as shown in Figure 1.

The driver can now move out of his lane 2 in the direction of the lane 3 and watch the traffic, for example, if a vehicle comes to meet, or if he is on a highway, a follower vehicle aufges. The assistance system now adjusts to the new setpoint Y _so ii + ΔΥ. If a lane change without danger is possible, the driver performs this, otherwise he steers the vehicle 1 back into the lane 2, which is detected by the assistance system via the flasher detector 31 and / or the steering angle detector 41, so that in succession the setpoint is reset to a setpoint corresponding to the lane-tracking mode.

If the vehicle 1 is also equipped with a longitudinal control or follow-up control with object tracking, the

Setpoint also be adapted to the preceding vehicle 5, ie when the vehicle 5 eccentrically the lane 2 moves in the direction of the left lane 3, a larger value .DELTA.Υ is set, as if this vehicle 5 would also move in the lane center of the lane 2. A further driving situation is shown in FIG. 2, in which a vehicle 1, likewise equipped with an assistance system according to FIG. 3, moves on a middle lane 2 of a three-lane roadway of a motorway in the direction of the arrow F. In front of the vehicle 1 drives a vehicle in front 5, a follower vehicle 6 is located on a right lane 4 of the highway. The vehicle 1 has overtaken the following vehicle 6 on the left lane 4, with the preceding vehicle 5 traveling faster than the vehicle 1.

If the lane change request is detected, the controller 20 of the assistance system of Figure 3 due to corresponding signals of the flasher detector 31 and / or the steering angle detector 40, is moved by the control unit 20 of the aktu- rush target value Y _so ii n the direction of the right-hand lane 4 by a value ΔΥ , so that a new setpoint Y is set _so n-AY, which now represents the basis for the transverse control. If the vehicle 1 additionally has a follow-up control, the value ΔΥ of the shift is also determined as a function of the preceding vehicle 5. Of the

Driver of the vehicle 1 will thus shuffle something on the right lane 4 in order to check both the situation on the right lane 4 forward and backward If the driver recognizes that the right lane 4 is free, so the follower vehicle 6 is not on the height of the vehicle 1 ascends, he will perform the lane change, otherwise shear into the lane 2 again. Due to the signals of the flasher detector 31 and / or the Lenkwinkelde- detector 40, the controller 20, the setpoint also reset.

The situation may also arise, according to which the vehicle 1 according to FIG. 2 approaches a jam end, which is symbolized, for example, by the vehicle 5. If the assistance system of Figure 3 is also equipped with a GPS system with electronic card and / or access to a C2X network has, is the information about the total track number and the information on which lane the vehicle is currently located before. If an approaching emergency vehicle is detected by the camera or via the C2X communication, the displacement of the setpoint value Y is _thus the transverse position of the

Vehicle 1 is set so that the prescribed corridor for the rescue vehicle remains free, d. H. the new setpoint is, as far as the traffic situation allows, as far as possible in the direction of the right lane 4 shifted. In addition, the driver can be visually and / or acoustically informed about this situation.

The displacement of the target value Y _as described above by a value ii ΔΥ can also be executed with a vehicle 1 to advertising, which is equipped with a system for autonomous vehicle guidance. Instead of a lane change request by the driver, a lane change request is generated by this autonomous system. In such a case, the vehicle also shears in the direction of the requested lane in order to better enable the camera system to check the traffic situation and, based on this additional information, to decide whether a lane change is possible.

reference numeral

1 motor vehicle

 2 lanes

 3 left lane

 4 right lane

 5 vehicle ahead

 6 follower vehicle

10 environment sensor device

20 control unit

30 Direction indicator, flasher 31 Flasher detector

40 steering angle detector

50. Superimposed steering

 51 steering divider

60 actuator, braking system

 61 Actuator, brake cylinder

Claims

Method for the transverse guidance of a motor vehicle (1), in which an actual value (Yist) of a variable representing the transverse position of the vehicle (1) in its traffic lane (2) is determined by means of an environmental sensor device (10) and with a setpoint value which can be set within predetermined limits ( Ysoii) and depending on the deviation of the actual value (Yist) from the set target value (Ysoii) actuators (51, 61) of the vehicle (1) are controlled such that the actual value (Yist) of the transverse position of the vehicle (1) representing magnitude approaches the set target value (Ysoii), characterized in that in the presence of a lane change request the set target value (YSoii) is changed such that the associated transverse position of this setpoint (Ysoii) shifts in the direction of the requested lane change. A method according to claim 1, characterized in that the environment sensor device (10) is designed as a lane detection sensor for detecting lane detection data, wherein the desired value (Ysoii) is changed depending on the lane width and / or the course of the lane. A method according to claim 1 or 2, characterized in that the environment sensor device (10) as Obj ekterkennungssensorik for detecting object and / or object position data, the setpoint (Ysoii) in response to a Vorraus- and / or follower vehicle (5,6) changed becomes. Method according to one of the preceding claims, characterized in that on the basis of electronic map data and Positi onsdaten a GPS system determines the total number of available lanes (2) and the actual position (YiSt of the vehicle and in dependence thereon the target value A method according to claim 4, characterized in that the desired value (Ysoii) is changed taking into account corridors for rescue and / or emergency vehicles A method according to claim 4 or 5, characterized in that upon detection of an insert A vehicle according to claim 5 or 6, characterized in that on the basis of a car-to-car and / or rescue vehicle as a follower vehicle the setpoint value (Ysoii) is changed such that a corridor for the emergency and / or rescue vehicle is created. Communication (C2X communication) emergency and / or emergency vehicles are detected Claims, characterized in that a lane change request is detected by an operation of a direction indicator (30), in particular a flasher of the vehicle. Method according to one of the preceding claims, characterized in that a lane change request is detected by detecting and evaluating the steering angle. 0. The method according to any one of claims 1 to 7, characterized in that the transverse guidance of the vehicle is performed by an autonomous system for vehicle guidance.

1. Driver assistance system of a vehicle for carrying out the method according to one of the preceding claims, characterized in that

 a sensor system, in particular a camera system comprising components for the detection, tracking and classification of a plurality of marked and unmarked lane delimitations and / or components for object detection and its classification, is provided as an environment sensor device (10),

 a control device (20) is provided, to which the data detected by the surroundings sensor device (10) are fed for evaluation,

 a flasher detector (31) and / or a steering angle detector (40) is provided, wherein the flasher detector (31) generates a status signal in response to the operating state of a flasher (30) of the vehicle (1) which is fed to the control unit (20), and / or the steering angle detector (40) generates a steering angle indicative status signal which is supplied to the controller (20),

 - A superposition steering (50) and / or a braking system (60) with wheel-individual braking torque setting, and

- The controller (20) depending on the data of

 Environment sensor device (10) and the state signal of the flasher detector determines a deviation of the desired value for the transverse position of the vehicle (1), and

- The control unit (20) in response to the deviation of the actual value (Yi _st ) of the transverse position of the vehicle from the desired value (Y _so ii) generates a control signal for the superposition steering and / or the brake system.