DE102016002230A1 - Method for operating a motor vehicle and motor vehicle - Google Patents

Abstract

Method for operating a motor vehicle (1), comprising the steps:
Detecting environment data describing the environment of the motor vehicle (1) by an environment detection device (3) of the motor vehicle (1),
Detecting a first and a second road user in the surroundings data by a control device (2) of the motor vehicle (1),
Determining a first road user information describing a position and / or a movement of the first road user and a second road user information describing a position and / or a movement of the second road user from the surroundings data by the control device (2) of the motor vehicle. (1),
Determining a collision probability for a future collision of the first road user with the second road user in dependence on the first and second road user information by the control device,
- Controlling a warning device for outputting a warning signal (13) to the first and / or the second road user by the control device (2) upon fulfillment of a dependent of the collision probability warning condition.

Description

The invention relates to a method for operating a motor vehicle and a motor vehicle.

For modern motor vehicles, a large number of driver assistance systems are known, which capture environmental data and evaluate it in order to assist a driver in collision avoidance. A driver assistance system detects, for example, other road users, especially pedestrians or cyclists. A possible collision with these road users can be avoided, for example, by the driver assistance system actively intervening in a vehicle movement or the driver is warned.

Driver assistance systems detect pedestrians or cyclists through on-board sensing or through communication with a communication device carried by the pedestrian or cyclist, such as a mobile phone. If pedestrians or cyclists are also to be recognized who do not carry a corresponding communication device, the possibilities of the driver assistance system are therefore limited by the vehicle's own sensors.

The invention is therefore based on the object of specifying a method for operating a motor vehicle, which enables an improved, in particular with regard to the detection of road users warning of drivers and other road users from dangerous situations.

• – Erfassen von das Umfeld des Kraftfahrzeugs beschreibenden Umfelddaten durch eine Umfelderfassungseinrichtung des Kraftfahrzeugs,
• – Erkennen eines ersten und eines zweiten Verkehrsteilnehmers in den Umfelddaten durch eine Steuerungseinrichtung des Kraftfahrzeugs,
• – Ermitteln einer eine Position und/oder eine Bewegung des ersten Verkehrsteilnehmers beschreibenden ersten Verkehrsteilnehmerinformation und einer eine Position und/oder eine Bewegung des zweiten Verkehrsteilnehmers beschreibenden zweiten Verkehrsteilnehmerinformation aus den Umfelddaten durch die Steuerungseinrichtung,
• – Ermitteln einer Kollisionswahrscheinlichkeit für eine zukünftige Kollision des ersten Verkehrsteilnehmers mit dem zweiten Verkehrsteilnehmer in Abhängigkeit der ersten und zweiten Verkehrsteilnehmerinformation durch die Steuerungseinrichtung,
• – Ansteuerung einer Warneinrichtung zur Ausgabe eines Warnsignals an den ersten und/oder den zweiten Verkehrsteilnehmer durch die Steuerungseinrichtung bei Erfüllung einer von der Kollisionswahrscheinlichkeit abhängigen Warnbedingung.

The object is achieved according to the invention by a method of the type mentioned at the outset, which comprises the following steps:

• Detecting environment data describing the environment of the motor vehicle by an environment detection device of the motor vehicle,
• Detecting a first and a second road user in the environment data by a control device of the motor vehicle,
• Determining first traffic participant information describing a position and / or a movement of the first road user and second traffic participant information describing a position and / or a movement of the second road user from the environmental data by the control device,
• Determining a collision probability for a future collision of the first road user with the second road user in dependence on the first and second road user information by the control device,
• - Control of a warning device for outputting a warning signal to the first and / or the second road user by the control device upon fulfillment of a dependent of the collision probability warning condition.

According to the invention, it is proposed to detect by means of a motor vehicle positions and / or movements of other road users and to calculate a collision probability for a collision of these road users with each other. By driving a warning device, eg. As a horn, a flasher or a device for sending a warning information via Car2Car communication, a warning signal can be given to at least one of these road users. Thus, the sensors of a motor vehicle can be used to provide warnings for other road users.

According to the invention, it can be provided that the surroundings detection device comprises a sensor device and / or a communication device. The sensor device of the surroundings detection device can be, for example, an ultrasound-based device, a radar-based device and / or a camera-based device. Additionally or alternatively, the surroundings of the motor vehicle descriptive environment data can be detected by a communication device of Umfeldfassungseinrichtung by, for example via Car2Car or Car2X communication devices corresponding data are transmitted from road users in the environment of the motor vehicle to the motor vehicle. To calculate the collision probability for a future collision of the first road user with the second road user can be provided in the invention that the control device of the motor vehicle forecasts trajectories of the first and the second road user. Upon fulfillment of the warning condition, the control device can actuate the warning device in such a way that a warning signal for warning the first and / or the second road user is output by the warning device. A necessary condition for meeting the warning condition may be that the collision probability exceeds a predetermined limit. The limit value can be fixed, but also adaptable depending on the environment data.

In the context of the method according to the invention, a lighting device for illuminating the vehicle surroundings and / or a public address device for sonicating the vehicle surroundings and / or a communication device for vehicle-to-vehicle communication can be used as a warning device. According to the invention, the warning signal may be an acoustic and / or optical warning signal, for example, a horn signal or a light signal act. The communication device can be controlled in such a way that the warning signal is transmitted to a further communication device assigned to the first and / or the second road user. In particular, upon receipt of the warning signal, the further communication device can actuate a further warning device for the optical and / or acoustic warning of the road user on the road side and / or drive vehicle-side vehicle systems for carrying out driver interventions.

It can be provided that a classification of the first and the second road user is performed by the control device in dependence on the first and the second road user information, the fulfillment of the warning condition depends on whether the first and / or the second road user as a motor vehicle, pedestrian or Cyclist is classified. In the context of the method according to the invention, fulfillment of the warning condition may in particular presuppose that the first road user is a motor vehicle and the second road user is a pedestrian or vice versa.

In the context of the invention, it may be provided that from the environment data and / or from predetermined map data a roadway section information describing a roadway section currently being traveled and / or in the future is determined, wherein the fulfillment of the warning condition is dependent on the roadway section information. In order to determine the roadway section information, the map data can be evaluated as a function of an ego position of the motor vehicle, which can be determined, for example, by means of a satellite-based location determining system on the vehicle side. The fulfillment of the warning condition may depend on whether the lane section information describes a lane section having a ground-level lane crossing for pedestrians and / or cyclists. The ground-level roadway transition can either be detected by the surroundings detection device of the motor vehicle or detected in predetermined map data as a function of the determined Ego position. In the context of the method according to the invention, the warning condition can thus depend on whether the motor vehicle is in the vicinity of a ground-level roadway crossing. The warning function can thus be limited to particularly relevant driving situations in order to avoid unnecessary warning. The ground-level roadway crossing may be, for example, a pedestrian crossing or a traffic light system.

A further variant of the invention can provide that a first relative position of the first traffic participant and / or a second relative position of the second traffic participant relative to the ground-level roadway transition is determined from the environmental data and the fulfillment of the warning condition of the first relative position and / or of the second relative position depends. By determining the first relative position of the first road user and / or the second relative position of the second road user, it is possible within the scope of the method according to the invention to determine whether the first road user and / or the second road user are in a respective predeterminable area around the ground level roadway crossing The fulfillment of the warning condition may depend on whether the first and / or the second road user are within the respective area. Accordingly, according to the invention, the issuing of a warning signal by the warning device of the motor vehicle can be omitted if the first and / or the second road user are not in the area around the ground-level roadway crossing.

In particular, the fulfillment of the warning condition may depend on whether the first or the second road user is on a lane of the roadway, which runs parallel to a lane on which the motor vehicle is located. In particular, it may be a counter-lane of the roadway. In the other road user, who may be a pedestrian in particular, can be recognized, for example, whether this is located on or next to the ground-level roadway crossing.

Depending on the relative positions of the first and the second road user relative to the ground-level roadway transition, it can be decided in the context of the method according to the invention which type of warning signal is to be output. For example, only one optical warning signal of the motor vehicle can be output if one of the two road users, in particular the pedestrian, is on the ground-level roadway crossing and the other of the two road users, in particular the motor vehicle, moves towards the ground-level roadway crossing and has a certain predefinable minimum distance to ground level crossing does not fall below. An acoustic warning signal can be issued, for example, only when it falls below the predetermined minimum distance. According to the invention, the type of warning signal can also depend on the calculated collision probability.

According to the invention, it may be provided that the fulfillment of the warning condition additionally of an EGO position of the motor vehicle with respect to the ground-level roadway transition is dependent. For example, it may be specified that the warning condition is met only when the motor vehicle is located immediately in front of the ground-level roadway crossing. If, for example, the motor vehicle is at a turning, an output of a warning signal can be omitted until the motor vehicle has traveled around the turn and is located directly in front of the ground-level roadway crossing. This avoids that the attention of other road users is distracted from the ground level crossing by an early warning signal output.

In the context of the invention, it can be provided that the fulfillment of the warning condition depends on whether the position of the first and / or the second road user is adjacent to a roadway edge determined from the surroundings data and / or from map data. The map data may be the same map data from which the lane information has already been determined, or further map data. For example, a road user may be classified as adjacent to a lane boundary when in a position that falls below a certain predeterminable distance, such as 1 m or 5 m, from the lane edge.

According to the invention, it may be provided that the fulfillment of the warning condition is additionally dependent on a speed of the motor vehicle. For example, the warning condition can only be fulfilled if the motor vehicle is at a standstill or its speed falls below a prescribed limit. For example, the driver of the motor vehicle can recognize a pedestrian who intends to cross a pedestrian crossing located in front of the motor vehicle. The driver stops the motor vehicle in front of the pedestrian crossing, after which further road users can be alerted to the pedestrian.

In addition, the invention relates to a motor vehicle with at least one environment detecting device at least one control device and at least one warning device, wherein the motor vehicle is designed for carrying out the method according to the invention.

The surroundings detection device may comprise at least one camera, a radar sensor and / or an ultrasound sensor. By the control device of the motor vehicle, the position and movement of the first and second detected road user can be determined. The control device can also calculate the collision probability for a collision of the first detected road user with the second detected road user and, in particular when exceeding a predetermined limit, the warning device, in particular the horn and / or headlights such control that the warning signal to the first and second registered road users.

The motor vehicle can be developed in accordance with the features explained for the method according to the invention.

Further advantages and details of the invention will be explained below with reference to an embodiment with reference to the drawings. The drawings are schematic representations and show:

1 an embodiment of a motor vehicle according to the invention;

2 a flowchart of an embodiment of a method according to the invention; and

3 a driving situation in which the method of the embodiment according to 2 is carried out.

1 shows an embodiment of a motor vehicle according to the invention 1 with a control device 2 , an environment detection device 3 , This is a camera in the illustrated embodiment, and two warning devices, namely a public address device 4 in the form of a horn and a lighting device 5 ,

The environment detection device 3 captures environmental data that contains information regarding the vehicle apron. This information is sent to the controller 2 provided, which is adapted, depending on the environment data, a first and a second road user in the environment of the motor vehicle 1 to recognize. In addition, the control device 2 designed to output control commands to the warning device. The control of the warning device for outputting a warning signal by the control device 2 occurs upon fulfillment of a warning condition, which depends on a first and a second road user information. These are controlled by the controller 2 determined from the environment data and describe the position and movement of the first and second road user. The check of the warning condition will be described below with reference to 2 and 3 , explained.

2 shows a flowchart of an embodiment of the method, wherein 3 a schematic diagram of a driving situation shows, in accordance with the method of the embodiment. 2 is carried out.

The car 1 , located on a lane in front of a road section 6 with a roadway crossing 7 in the form of a pedestrian crossing. In step S1, the vehicle speed is detected as a vehicle parameter to be able to detect whether the motor vehicle is at a standstill. In step S2, it is checked whether the vehicle speed is less than a predetermined limit value. As the motor vehicle 1 in front of the roadway crossing 7 has stopped, this condition is met. The method thus continues with the detection of the environmental data in step S3, wherein the detection of the environmental data on a detection area 8th is limited. This detection takes place for the time in which the motor vehicle 1 is at standstill, cyclically, wherein in step S4 the environment data are evaluated such that both road users and ground-level carriageway crossings in the environment of the motor vehicle 1 be recognized.

In step S7, it is checked whether a first and a second road user as well as a ground-level roadway crossing 7 were detected. This condition is in the in 2 shown driving situation so that the process continues in step S6 with the determination of the position and the future trajectory of the first and the second road user. In the illustrated embodiment, another motor vehicle 9 as the first road user and a pedestrian 10 recognized as a second road user. The car 1 calculated both for the motor vehicle 9 as well as the pedestrian 10 a future trajectory 11 . 12 , each represented by a line. From this information, the method calculates in step S7 a collision probability for a future collision of the first road user with the second road user. Methods for predicting trajectories and collision probabilities are known in the art and therefore will not be discussed in detail.

In step S8, it is checked whether the calculated collision probability exceeds a predetermined value. If this condition is met, by the control device 2 in step S9, the warning devices 3 . 4 for issuing a warning signal 13 driven to the motor vehicle 9 and the pedestrian 10 to warn of a possible collision. Necessary partial conditions of the warning condition are checked in the illustrated embodiment in steps S2, S5 and S8. If a partial condition of the warning condition is not met, the method continues in step S1 and no warning signal is output.

Claims (10)

Method for operating a motor vehicle ( 1 ), comprising the steps: - detecting the environment of the motor vehicle ( 1 ) descriptive environment data by an environment detection device ( 3 ) of the motor vehicle ( 1 ), - detecting a first and a second road user in the environment data by a control device ( 2 ) of the motor vehicle ( 1 ), Determining a first traffic participant information describing a position and / or a movement of the first traffic participant and a second traffic participant information describing a position and / or a movement of the second traffic participant from the environmental data by the control device ( 2 ) of the motor vehicle ( 1 Determining a collision probability for a future collision of the first road user with the second road user as a function of the first and second road user information by the control device, activating a warning device for outputting a warning signal 13 ) to the first and / or the second road user by the control device ( 2 ) upon fulfillment of a warning condition dependent on the probability of collision. Method according to claim 1, characterized in that a lighting device ( 5 ) for illuminating the vehicle surroundings and / or a public address system ( 4 ) is used for sounding the vehicle environment and / or a communication device for vehicle-to-vehicle communication as a warning device. Method according to claim 1 or 2, characterized in that by the control device ( 2 ) a classification of the first and the second road user is carried out as a function of the first and the second road user information, the fulfillment of the warning condition being dependent on whether the first and / or the second road user as motor vehicle ( 9 ), Pedestrians ( 10 ) or cyclist is classified. Method according to one of the preceding claims, characterized in that from the environment data and / or from predetermined map data a current one and / or future by the motor vehicle ( 1 ) traveled road section ( 6 ) and the fulfillment of the warning condition is additionally dependent on the lane section information. A method according to claim 4, characterized in that the fulfillment of the warning condition depends on whether the lane section information a roadway section ( 6 ) describing a level-crossing roadway ( 7 ) for pedestrians and / or cyclists. A method according to claim 5, characterized in that from the environment data, a first relative position of the first road user and / or a second relative position of the second road user relative to the ground-level roadway transition ( 7 ) is determined and the fulfillment of the warning condition of the first relative position and / or the second relative position depends. A method according to claim 5 or 6, characterized in that the fulfillment of the warning condition additionally from an EO position of the motor vehicle ( 1 ) with regard to the level crossing ( 7 ) is dependent. Method according to one of the preceding claims, characterized in that the fulfillment of the warning condition depends on whether the position of the first and / or the second road user is adjacent to a determined from the environment data and / or map data roadway edge. Method according to one of the preceding claims, characterized in that the fulfillment of the warning condition in addition to a speed of the motor vehicle ( 1 ) is dependent. Motor vehicle with at least one environment detecting device, at least one control device and at least one warning device, characterized in that it is designed for carrying out the method according to one of the preceding claims.

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