DE102011118708B4 - Method for operating a motor vehicle and a motor vehicle equipped therewith - Google Patents

Abstract

Method for operating a motor vehicle (10) by determining at least one position value characterizing a position of the motor vehicle (10) by means of at least one operating component of the motor vehicle (10), determining at least one probability value based on the at least one position value and one determined for the at least one position value Quality, determining a superordinate position value based on the quality determined for the at least one position value, determining a superordinate probability value for the superordinate position value based on the at least one probability value, providing the superordinate probability value and the superordinate position value for at least one motor vehicle control device; - Operating the at least one motor vehicle control unit (22) as a function of the superordinate probability value and the parent position value, characterized in that - the at least one probability value indicates a probability of residence of the motor vehicle (10) on a lane (12) of a roadway having at least two lanes (12), and that - at least one lighting device is operated as the motor vehicle control device (22), wherein a light distribution the at least one illumination device is adapted as a function of the higher-order probability value and the higher-order position value.

Description

The present invention relates to a method for operating a motor vehicle. Moreover, the present invention relates to a motor vehicle.

Modern motor vehicles comprise a plurality of motor vehicle control devices, which are associated, for example, with a navigation system or with a driver assistance system of the motor vehicle. Many of these motor vehicle control units are activated as a function of information relating to the position of the motor vehicle. This position information is usually determined using a satellite navigation system, such as GPS. However, measuring tolerances of up to 20 meters can occur. With the aid of a map matching, in which the measured position is adjusted by means of a digital map, the position determination of a motor vehicle can be improved. In this case, information about the speed of the motor vehicle is taken into account. In addition, it is considered that the motor vehicle can only move on predetermined roads. However, the vehicle control units usually require more accurate information regarding the position of the motor vehicle.

The US 2011/0098922 A1 describes a system for predicting a path for a vehicle. In this case, position data of a satellite navigation system are compared with the data of vehicle sensors and determines the position of the vehicle. Based on the position of the vehicle, driver assistance systems such as a cornering assistant, an adaptive headlight, a cruise control, a lane departure warning assistant or the like can be operated.

Furthermore, the describes DE 10 2008 053 531 A1 an evaluation module for evaluating data of a digital map for a vehicle. The evaluation is based on a card's own quality information and measurement data of an environmental sensor of the vehicle.

Finally, that describes US 2011/0118979 A1 a device for estimating the position of a vehicle. For estimating the position of the vehicle, data of a satellite navigation system and data are detected by means of dead reckoning. In addition, a map comparison can be used.

It is an object of the present invention to show a way how the motor vehicle control devices of a motor vehicle can be operated more precisely and effectively.

This object is achieved by a method according to claim 1 and a motor vehicle according to claim 9. Advantageous developments of the present invention are specified in the subclaims.

The inventive method for operating a motor vehicle comprises determining at least one position value characterizing a position of the motor vehicle by means of at least one operating component of the motor vehicle, determining at least one probability value based on the at least one position value and a quality determined for the at least one position value, wherein the at least one probability value indicating a probability of residence of the motor vehicle on a lane of a lane having at least two lanes, determining a higher position value based on the quality determined for the at least one position value, determining a higher likelihood value for the higher position value based on the at least one likelihood value, providing the higher likelihood value and the higher-level position value for at least one motor vehicle control unit and operating the at least one motor vehicle control device as a function of the higher-order probability value and the higher-order position value.

In the method according to the invention, at least one position value is initially determined, which contains information relating to the position of the motor vehicle on a roadway. In particular, this position value includes information on which lane the motor vehicle is on a lane with several lanes. The number of lanes of a lane on which the motor vehicle is currently located is known or can be determined. Furthermore, a quality of the at least one position value is determined. The quality provides information about how exactly or how reliably the position of the motor vehicle is detected by the respective position value. The quality can also include information about the measurement inaccuracy or a measurement error of the position value. The quality can be determined as a function of the respective operating component and / or the ambient or measuring conditions. Depending on the at least one position value and the quality or quality determined for the position value, a probability value is determined which reflects the probability with which the motor vehicle is located on one of the lanes of the roadway. In this case, a probability value is preferably determined for each lane of the roadway.

In addition, a superordinate position value is determined on the basis of the quality determined for the position value. This higher-order position value reflects information about the actual or final position of the motor vehicle. This is used to determine a superordinate probability value for the higher-level position value. The higher-order probability value and the higher-order position value are designed so that they can be further processed by the motor vehicle control units. The higher-order probability value and the higher-order position value are provided for all motor vehicle control devices present in the motor vehicle. Likewise, information about the number of lanes of a roadway can be provided to the vehicle control units. In this way, the individual motor vehicle control units can be operated as a function of the higher-order probability value and the higher-order position value. Thus, the position of the vehicle with respect to lanes of a roadway can be determined with high accuracy, and the individual vehicle control devices can be operated particularly precisely and effectively in response to this information.

At least one illumination device is operated as the motor vehicle control device, with a light distribution of the at least one illumination device being adapted as a function of the higher-order probability value and the higher-order position value. Depending on the lane on which the motor vehicle is currently with the greatest probability, the light distribution of a lighting device of the motor vehicle, for example, at least one headlight, can be adjusted individually. For example, separate light cones of the headlights can be adjusted for the different lanes of a motorway. Thus, only the areas relevant to the driver can be illuminated without the oncoming traffic being dazzled. If an illumination device or the headlight of the motor vehicle has a plurality of segments or a plurality of illuminants, these can be switched on or off or dimmed in accordance with the higher probability value and the higher-order position value. Thus, the light distribution in front of the vehicle depending on the situation can be set very precisely and thus the safety of the driver and the other road users are increased.

In a preferred embodiment, the at least one position value is determined on the basis of a satellite navigation system, a digital map, a vehicle dynamics sensor and / or an environmental sensor of the motor vehicle. In order to be able to determine the position of the motor vehicle with respect to the traffic lane in a particularly exact manner, an adjustment of the determined data of at least two of the above-mentioned operating components can take place. This is expressly to the patent DE 10 2010 033 729 B4 refer to a method for determining the position of a vehicle on a roadway is described. Accordingly, the position of the motor vehicle can first be determined on the basis of the signal of a satellite navigation system. Subsequently, this signal can be adjusted using a digital card. In addition, the data of a vehicle dynamics sensor of the motor vehicle can be taken into account. For example, speed, acceleration, yaw rate, or the like may be considered. Furthermore, the data of at least one environmental sensor of the motor vehicle can be used. This environment sensor can be designed, for example, to detect a corresponding lane marking of the roadway. Furthermore, corresponding objects in the environment of the motor vehicle can be detected with the environment sensor, which objects are also stored on a digital map, for example. It is also conceivable that information from other vehicles or objects are transmitted to the motor vehicle, based on which the position of the motor vehicle can be determined. Based on at least one position value, which is determined with at least one of the above-mentioned operating components of the motor vehicle, the position of the motor vehicle can be determined with lane accuracy.

In a further preferred embodiment, in addition to the one position value at the same time, at least one further position value is determined and the higher-order position value additionally determined on the basis of the quality determined for the one and one for the at least one further position value. Two independent position values can be determined, for example, by two separate operating components. The at least two position values can also be determined by different methods. The determination of the position values takes place at the same time. The higher-level position value is determined by the accumulation of the individual position values. This can preferably be done by means of a fusion of the individual position values taking into account their respective quality. In this way, the position of the motor vehicle with respect to a lane can be determined more accurately.

At least one further probability value is determined on the basis of the at least one further position value and the quality determined for the at least one further position value, and the superordinate probability value is additionally determined on the basis of the one and the at least one further probability value certainly. Depending on the quality or quality of the respective position values, a probability value is determined for each position value, which represents the probability of the vehicle being staying on a lane of the roadway. Based on the individual probability values, the superordinate probability value for the higher-level position value is determined. Thus, the residence probability of the motor vehicle can be determined more reliably.

In one embodiment of the invention, a navigation system is operated as the motor vehicle control unit, wherein the position of the motor vehicle is displayed on a digital map of the navigation system as a function of the superordinate probability value and the superordinate position value. Thus, the motor vehicle can be displayed on a digital map, for example, a display element of the motor vehicle, track. The information regarding the likelihood of the vehicle being located on a lane and the position of the motor vehicle can also be used for the so-called "ExitView", which is used to give the driver precise information on which lane he should place himself. This display can be used, for example, at motorway intersections or exits. In this way, a more realistic representation and thus easier orientation for the driver and also improved driving instruction of the navigation system can be achieved.

In addition, it is advantageous if, as a motor vehicle control unit, a proximity control and / or a traffic jam assistant is operated as a function of the higher-order probability value and the higher-order position value. With the help of the higher-order probability value and the higher-order position value, the position of the vehicle relative to the traffic lane can be predicted with particular accuracy and thus the position of the vehicle with respect to corresponding objects in the environment of the motor vehicle or the other road users can be determined particularly accurately. The components of the adaptive cruise control can be operated depending on the traffic lane. Thus, for example, the information can be used that next to the left lane of the highway is a guardrail and that reflections in the radar sensor of the Abstandsregeltempomats can occur. With this information, the adaptive cruise control can be operated particularly accurately. Thus, it can be avoided that the adaptive cruise control or the traffic jam assistant is activated incorrectly or too late as a result of incorrectly detected target objects. In the event of a traffic jam assistant, the driver can also be informed about the momentary omission of a traffic lane. Thus, the driver can be supported by the above-mentioned driver assistance systems particularly effective.

In a further embodiment, a system for traffic sign recognition and / or a traffic light assistant is operated as the motor vehicle control device as a function of the higher-order probability value and the higher-order position value. In this way, only those traffic signs can be displayed that apply to the lane on which the motor vehicle is currently located. Likewise, traffic light signals can be displayed which relate to the current traffic lane on which the motor vehicle is currently located. Thus, the driver can only reach the information that is of interest to him. He is therefore less distracted. This allows the driver a particularly comfortable and safe control of the motor vehicle.

Furthermore, as the motor vehicle control unit, an intersection assistant and / or a curve assistant depending on the higher probability value and the higher-level position value. With the help of the highly precise position of the motor vehicle, a crossing assistant, who was the driver, for example, against possible collisions, can also be controlled particularly precisely. Likewise, a curve assistant, which warns the driver, for example, of an excessive speed before and / or during cornering, can be operated particularly accurately as a function of the lane. Thus, the safety in traffic can be significantly increased.

The motor vehicle according to the invention comprises at least one motor vehicle control device, at least one operating component for determining at least one position value characterizing a position of the motor vehicle, a computing device for determining at least one probability value based on the at least one position value and a quality determined for the at least one position value, wherein the at least one probability value is one Indicating the probability of arrival of the motor vehicle on a lane of a lane having at least two lanes, for determining a higher position value based on the quality determined for the at least one position value and for determining a higher probability value for the higher position value based on the at least one likelihood value, and a memory device for providing the lane the parent probability value and the parent position value for that too at least one motor vehicle control unit, wherein the motor vehicle control unit is operable in dependence on the higher-order probability value and the higher-order position value.

The higher-order probability value and the higher-order position value are provided, for example, via a data bus of the motor vehicle for all motor vehicle control devices. Thus, all vehicle control units that require information about the exact position of the motor vehicle, access them. This also applies in particular to motor vehicle control unit, which were not explicitly mentioned here or which will be developed in the future.

The developments described in connection with the method according to the invention can be transferred in the same way to the motor vehicle according to the invention.

The present invention will now be explained in more detail with reference to the accompanying drawings. The single figure shows a schematic representation of a motor vehicle in a plan view.

The exemplary embodiments described below represent preferred embodiments of the present invention.

The figure shows a schematic representation of a motor vehicle 10 in a top view. In the present case is the motor vehicle 10 on a roadway that includes several lanes. In the present embodiment, there is only one lane 12 shown. The car 10 includes at least two operating components 14 , The operating components 14 are designed to determine at least two independent position values, which is a position of the motor vehicle 10 characterize.

One of the operating components 14 of the motor vehicle 10 For example, it may be designed as a receiver associated with a satellite navigation system. Thus, the operating component 14 receive a corresponding signal from a satellite navigation system, such as GPS. Likewise, one of the operating components 14 be a corresponding memory element on which a digital map or road map is deposited.

Furthermore, one of the operating components 14 as driving dynamics sensor of the motor vehicle 10 be educated. Such a vehicle dynamics sensor may be, for example, a speed sensor, an acceleration sensor, yaw rate sensor or the like, with which the speed, the acceleration and / or a yaw rate of the motor vehicle 10 can be determined. Likewise, one of the operating components 14 as environmental sensor of the motor vehicle 10 be educated. Such an environment sensor may be, for example, a camera, a radar sensor or the like, with which an object in the environment of the motor vehicle 10 can be detected. Likewise, the environment sensor may be configured to a lane marking 16 the lane 12 capture. Furthermore, one of the operating components 14 Receive information regarding the position of the motor vehicle from another vehicle or object.

The operating component 14 is with a computing device 18 connected. The computing device 18 is designed to be that of the operating component 14 to receive determined position values. For each of the position values, a quality or a quality is determined. It is thus determined how exactly or with what quality the respective position value, the actual position of the motor vehicle 10 reproduces. The quality also provides information about the quality and reliability of the position of the motor vehicle 10 with the respective operating component 14 was determined. The computing device calculates in dependence on the received position values and the respective quality of the position values 18 a probability value for each of the position values, each representing, with what probability the motor vehicle 10 on a lane 12 the roadway is located.

Furthermore, a higher-level position value is determined based on the position values. For this purpose, the computing device performs 18 a corresponding data fusion or an accumulation of the individual position values. In this case, each of the position values can also be assigned a corresponding quality. On the basis of the respective probability values, a higher probability value for the higher-order position value with the computing device is generated 18 certainly. Thus, it can be very accurately determined on which of the lanes 12 the road is the motor vehicle 10 located. One result could be that the motor vehicle 10 with a probability of 95% in the left lane 12 the highway is located.

The number of lanes 12 a roadway, for example, stored in a digital map. To determine the position of the motor vehicle 10 Now, the data of a satellite navigation system and a digital map can be used. These data may additionally be provided with corresponding position values associated with an environmental sensor or a motion sensor of the motor vehicle 10 be reconciled.

The superordinate probability value and the superordinate position value, which are determined by means of the computing device 18 are determined, are sent to a storage device 20 of the motor vehicle 10 transfer. The storage device 20 is also with at least one motor vehicle control unit 22 connected or coupled. in the present example, the storage device 20 with three vehicle control units 22 coupled. The storage device 20 distributes the higher-order probability value and the higher-order position value to the motor vehicle control devices 22 , The operating components are preferred 14 , the computing device 18 , the storage device 20 and the vehicle control unit 22 with a data bus 24 of the motor vehicle 10 connected. The data bus 24 of the motor vehicle 10 may be, for example, the CAN bus.

One of the vehicle control units 22 For example, a navigation system of the motor vehicle 10 be assigned. Thus, depending on the superordinate probability value and the higher-order position value, the position of the motor vehicle 10 be displayed particularly accurately on a digital map of the navigation system. Likewise, one of the vehicle control units 22 a lighting device of the motor vehicle 10 be assigned. Thus, the light distribution of the illumination device can be adjusted exactly as a function of the higher-order probability value and the higher-order position value. Furthermore, one of the vehicle control units 22 a driver assistance system of the motor vehicle 10 be assigned. Such a driver assistance system may be, for example, an adaptive cruise control, a congestion assistant, a traffic sign recognition system, a traffic light assistant, an intersection assistant, a curve assistant or the like. The driver assistance systems of the motor vehicle 10 can be controlled very precisely on the basis of the higher probability value and the higher position value.

Claims (9)

Method for operating a motor vehicle ( 10 ) by determining at least one position of the motor vehicle ( 10 ) characterizing position value by means of at least one operating component of the motor vehicle ( 10 Determining at least one probability value based on the at least one position value and a quality determined for the at least one position value, determining a superordinate position value based on the quality determined for the at least one position value, determining a superordinate probability value for the superordinate position value on the basis of the at least one Probability value, providing the superordinate probability value and the higher-order position value for at least one motor vehicle control device ( 22 ), and - operating the at least one motor vehicle control device ( 22 ) as a function of the higher-order probability value and the higher-order position value, characterized in that - the at least one probability value represents a probability of residence of the motor vehicle ( 10 ) on a lane ( 12 ) a roadway with at least two lanes ( 12 ), and that - as the motor vehicle control unit ( 22 ) at least one illumination device is operated, wherein a light distribution of the at least one illumination device is adjusted as a function of the higher-order probability value and the higher-order position value. A method according to claim 1, characterized in that the at least one position value based on a satellite navigation system, a digital map, a vehicle dynamics sensor and / or an environmental sensor of the motor vehicle ( 10 ) is determined. A method according to claim 1 or 2, characterized in that in addition to the one position value at the same time at least one further position value is determined and the higher-order position value is additionally determined on the basis of one and one for the at least one further position value determined quality. Method according to claim 3, characterized in that at least one further probability value is determined on the basis of the at least one further position value and the quality determined for the at least one further position value, and the superordinate probability value is additionally determined on the basis of the one and the at least one further probability value. Method according to one of the preceding claims, characterized in that as the motor vehicle control unit ( 22 ) a navigation system is operated, wherein the position of the motor vehicle ( 10 ) is displayed on a digital map of the navigation system as a function of the higher-level probability value and the higher-level position value. Method according to one of the preceding claims, characterized in that as motor vehicle control unit ( 22 ) is operated a Abstandsregeltempomat and / or a congestion assistant in dependence on the parent probability value and the parent position value. Method according to one of the preceding claims, characterized in that as the motor vehicle control unit ( 22 ) a system for traffic sign recognition and / or a traffic light assistant is operated as a function of the higher-order probability value and the higher-order position value. Method according to one of the preceding claims, characterized in that as the motor vehicle control unit ( 22 ), a crossing assistant and / or a curve assistant is operated as a function of the higher-order probability value and the higher-order position value. Motor vehicle ( 10 ) with - at least one motor vehicle control unit ( 22 ), - at least one operating component ( 14 ) for determining at least one, a position of the motor vehicle ( 10 ) characterizing position value, - a computing device ( 18 ) for determining at least one probability value on the basis of the at least one position value and a quality determined for the at least one position value for determining a superordinate position value on the basis of the quality determined for the at least one position value and for determining a superordinate probability value for the superordinate position value on the basis of the at least one probability value, and a memory device ( 20 ) for providing the higher-order probability value and the higher-order position value for the at least one motor vehicle control device ( 22 ), wherein the motor vehicle control unit ( 22 ) is operable in dependence on the higher-order probability value and the higher-order position value, characterized in that - the at least one probability value represents a probability of residence of the motor vehicle ( 10 ) on a lane ( 12 ) a roadway with at least two lanes ( 12 ), and that - as the motor vehicle control unit ( 22 ) at least one illumination device can be operated, wherein the light distribution of the at least one illumination device can be adapted as a function of the higher-order probability value and the higher-order position value.

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