EP3693940A1 - Method for detecting passing maneuvers in road traffic within a section of road - Google Patents

Abstract

The invention relates to a method for recognizing overtaking maneuvers in road traffic within a route section, comprising the following steps: Detection of the entry into the route section (3) of at least two vehicles (1, 2) by a first control device (5); Determining an entry sequence of the at least two vehicles (1, 2) when entering the route section (3); Detecting the exit from the route section (3) of the at least two vehicles (1, 2) by a second control device (10); Determining an exit sequence of the at least two vehicles (1, 2) when leaving the route section (3); and recognizing overtaking maneuvers by comparing the entry sequence with the exit sequence.

Description

The invention relates to a method for recognizing overtaking maneuvers in road traffic within a route section.

Overtaking maneuvers always occur in road traffic when two vehicles on the same lane are moving in the direction of travel at different speeds, so that the faster vehicle moves past the slower vehicle. Overtaking maneuvers are often the trigger for serious accidents, so that overtaking bans are imposed by the authorities on accident-prone route sections. These overtaking bans can affect all vehicles or only target certain types of vehicles or vehicles with a defined permissible total mass. The overtaking bans can either be set up permanently or adapted to the traffic situation using dynamic traffic management systems. In order to be able to detect violations of existing overtaking bans, traffic monitoring systems are necessary.

From the WO 2015/049352 A1 a method for traffic monitoring of a spatially limited road section by means of a stereo camera which records the road section is known. A process unit processes the images from the stereo camera into height images and analyzes these height images to determine position variables of two vehicles relative to one another. This enables the detection of the vehicle speed and overtaking maneuvers as well as the evaluation of the current traffic flow.

Starting from this, the object of the present invention is to provide a method provide for the detection of overtaking maneuvers in road traffic within a route section that enables traffic monitoring of route sections independently of their route.

To achieve the object, a method according to the invention for recognizing overtaking maneuvers in road traffic within a route section is proposed, comprising the following steps: detection of the entry into the route section of at least two vehicles by a first control device; Determining an entry sequence of the at least two vehicles when entering the route section; Detecting the exit from the route section of the at least two vehicles by a second control device; Determining an exit sequence of the at least two vehicles when exiting the route section; and recognizing overtaking maneuvers by comparing the entry sequence with the exit sequence.

The proposed method has the advantage that route sections can be monitored regardless of their length and route. In particular, the method according to the invention can be used in the area of curved and / or hilly road sections.

In one possible embodiment of the method according to the invention, the detection of driving into the route section can include the determination and assignment of at least one identification feature for each of the at least two vehicles by the first control device, and the detection of the exit from the route section can include the determination and assignment of the at least one identification feature for each of the at least two vehicles by the second control device. The at least one identification feature of the at least two vehicles can include the vehicle registration number or a vehicle identification number.

The at least one identification feature can be determined and assigned for each of the at least two vehicles by the first control device using a first image recording and / or the at least one identification feature can be determined and assigned for each of the at least two Vehicles take place through the second control device by means of a second pictorial record.

In a further embodiment of the method, the detection of the entry into the route section by the first control device and the detection of the exit from the route section by the second control device can include receiving an identification signal from a transponder from each of the at least two vehicles, which contains information about the at least one Has identification feature.

The detection of the entry into the route section and the detection of the exit from the route section can each include assigning a time stamp to each of the at least two vehicles. In particular, a route transit time can be measured for each of the at least two vehicles and an expected value of the route transit time can be determined for each of the at least two vehicles. The expected value of the transit time can be determined as a function of the type of vehicle, the permitted total mass or the permitted maximum vehicle speed. In one possible embodiment of the method, the vehicles of the at least two vehicles whose route transit time is at least a first threshold below the expected value of the route transit time can be excluded from the entry sequence and the exit sequence for the detection of overtaking maneuvers. In addition, the method for recognizing overtaking maneuvers can be temporarily suspended if, in a time interval, a minimum number of vehicles have a passage time that exceeds the associated expected value of the passage time by at least a second threshold value.

In a further possible embodiment of the method, after the entry into the route section has been detected, the at least two vehicles can be used depending on the vehicle type (for example by determining the size of the vehicles or identifying further vehicle features such as the vehicle brand) and / or the permitted Total mass can be categorized. The at least two vehicles can be categorized by means of the first image recording and / or with laser scanners / lidars and / or on the basis of the information of the respective identification signal of the transponders of the at least two vehicles. This makes it possible for fines to be enforced only for vehicles of the vehicle class in question when there is a prohibition on overtaking for a certain vehicle class after the detection of overtaking maneuvers.

In this context, when overtaking maneuvers are recognized, at least one of the first pictorial recording and the second pictorial recording can serve as a first pictorial evidence capture and / or a second pictorial evidence capture can take place in a direction of travel behind the second control device. Furthermore, in one possible embodiment of the method, videos can be created at least from parts of the route section and, when overtaking maneuvers are recognized, associated sequences of the videos can be documented together with the overtaking maneuver

In one possible embodiment of the method, determining the entry sequence and determining the exit sequence can each take place for a vehicle group that enter the entry area and / or the exit area in a predetermined time window. The time window can be determined as a function of the length of the route section and / or the volume of traffic. This can ensure that the computing capacity required for the respective determination of a sequence is limited. Alternatively, in the case of high computing capacities, provision can also be made for the entry and exit sequence to be determined as a continuous row and for overtaking maneuvers to be recognized for all of the vehicles.

A further possible embodiment of the method can provide that a vehicle speed of the at least two vehicles is determined during the detection of the entry into the route section and / or the detection of the exit from the route section.

Figur 1

einen Streckenabschnitt mit einem ersten Fahrzeug, das in den Streckenabschnitt einfährt;

Figur 2

den Streckenabschnitt aus Figur 1 mit einem zweiten Fahrzeug, das in den Streckenabschnitt einfährt;

Figur 3

der Streckenabschnitt aus Figur 1 vor dem Einleiten eines Überholvorgangs durch das zweite Fahrzeug;

Figur 4

der Streckenabschnitt aus Figur 1 während des Einleiten eines Überholvorgangs durch das zweite Fahrzeug;

Figur 5

der Streckenabschnitt aus Figur 1 während des Überholvorgangs durch das zweite Fahrzeug;

Figur 6

der Streckenabschnitt aus Figur 1 während des Einscherens des zweiten Fahrzeuges vor dem ersten Fahrzeug nach dem Überholvorgang;

Figur 7

der Streckenabschnitt aus Figur 1 während des Ausfahrens des zweiten Fahrzeuges aus dem Streckenabschnitt;

Figur 8

der Streckenabschnitt aus Figur 1 während des Ausfahrens des ersten Fahrzeuges aus dem Streckenabschnitt.

A preferred embodiment of the method is described below with reference to the following figures. It shows

Figure 1

a section of the road with a first vehicle entering the section of road;

Figure 2

the route section Figure 1 with a second vehicle entering the route section;

Figure 3

the route section Figure 1 before the second vehicle initiates an overtaking maneuver;

Figure 4

the route section Figure 1 while the second vehicle initiates an overtaking maneuver;

Figure 5

the route section Figure 1 while the second vehicle is overtaking;

Figure 6

the route section Figure 1 during the reeving of the second vehicle in front of the first vehicle after the overtaking process;

Figure 7

the route section Figure 1 while the second vehicle is moving out of the route section;

Figure 8

the route section Figure 1 during the exit of the first vehicle from the route section.

In the Figures 1 to 8 , which are jointly described below, a traffic situation is shown on the basis of which the method according to the invention is explained, with a first vehicle 1 being overtaken by a second vehicle 2 in a route section 3 to be monitored, which has a length L.

The route section 3 is divided into a first lane 3a with the direction of travel T, on which the first vehicle 1 is located, and into a second lane 3b with a direction of travel T 'opposite to the direction of travel T'. The route section 3 is delimited at one end by a portal 6 of a first control device 5 and at the other end by the portal 11 of a second control device 10. The portal 6 is used for lane 3a as an entrance to route section 3 and for lane 3b as an exit from route section 3. The portal 11 is used accordingly for lane 3a as an exit from route section 3 and for lane 3b as an entrance into section 3.

When the first vehicle 1 drives into the route section 3 in the lane 3a, the first control device 5 detects the first vehicle 1. The first control device 5 comprises a transmitter / antenna unit 8 for the radio-based detection of vehicles for the lane 3a and for the lane 3b a transmitter-antenna unit 8 ', which can communicate with on-board units 9, 14, also called transponders, of the detected vehicles 1, 2. In particular, all common systems for short-range communication (Dedicated Short Range Communication DSRC) can be used for radio-based detection. The on-board unit 9 of the first vehicle 1 emits an identification signal to the transmitter-antenna unit 8 during the communication, which identification signal contains information about at least one identification feature of the first vehicle 1. The at least one identification feature can be the vehicle registration number or some other vehicle identification number. The identification signal can also contain information about the vehicle category, for example the type of vehicle or the permitted total mass. The data of the identification signal are stored in a processing unit 4 and assigned to the first vehicle 1.

The structure of the transmitter-antenna unit 8 as an array also makes it possible to localize the position of the first vehicle 1 and to precisely determine the entry of the first vehicle 1 into the route section 3 in the lane 3a. When the first vehicle 1 enters the route section 3, ie when passing through the portal 6, a first time stamp is generated in the processing unit 4, which is assigned to the first vehicle 1 or a data record with vehicle features of the first vehicle 1. It is also conceivable that the first control device 5, in addition to the transmitter-antenna units 8, 8 ', light sensors, for example reflection light sensors or laser distance sensors, for example lidar sensors, to detect the passage of the first vehicle 1 through the portal 6 or to determine time stamps.

The first control device 5 also comprises a camera 7 for the image acquisition of the lane 3 a and a camera 7 ′ for the image acquisition of the lane 3 b, which are each attached to the portal 6. All solutions common in traffic monitoring can be used as cameras 7, 7 ', for example stereo cameras or line scan cameras. The cameras 7, 7 ′ are each aligned in the direction of the route section 3 in the present case. The camera 7 records a length LE of the lane 3a, while the camera 7 records a length LE 'of the lane 3b. When driving through the portal 6, the first vehicle 1 enters the evaluation area LE of the camera 7 and is captured by this image. The pictorial detection of the route section 3 can include an automatic license plate recognition, by means of which the reading out and assignment of a license plate of the pictorially detected vehicles is made possible. It is also conceivable that the captured vehicles are categorized by evaluating the pictorial recordings, for example as a function of the vehicle type or the permissible total mass.

In the present case, the graphic recording of the route section 3 and the associated automatic number plate recognition takes place in addition to the recording of the on-board unit 9. It is also conceivable that the vehicles are only detected by one of the recording of the on-board unit 9 or the graphic recording.

The visual capture of vehicles by the cameras 7, 7 'takes place in the present case within the route section 3. However, it is also conceivable that the cameras 7, 7' are aimed at a route area outside the route section 3 and the pictorial capture of vehicles outside the route section 3 takes place.

It is conceivable that in the processing unit 4 between the identification feature communicated by the on-board unit 9 and the vehicle category of the first vehicle 1 communicated by the on-board unit 9 and the license plate identifier detected by the camera 7 and the categorization of the detected by the camera 7 Vehicle 1 is a cross-check.

The second vehicle 2 then enters the route section 3 in the lane 3a. Analogously to the first vehicle 1, the second vehicle 2 is driven by the first control device 5 detected by means of the camera 7 and the transmitter-antenna unit 8. The identification features determined in this way, a second time stamp and a vehicle category are in turn stored in the processing unit 4 and assigned to the second vehicle 2.

On the basis of the assignment of the first and the second time stamp to the first and the second vehicle 1, 2, the entry sequence of the two vehicles 1, 2 can be determined in the processing unit 4. In the present case, the first vehicle 1 is guided to a first position in the entry sequence, while the second vehicle 2 is guided to a position directly behind it.

As in Figures 4 to 6 can be seen, after both vehicles 1, 2 have entered the route section 3, an overtaking maneuver is initiated by the vehicle 2. The veering, the actual overtaking and reeving take place outside the evaluation area LE or LE 'of the cameras 7 and 7'. However, it is also conceivable that at least part of the overtaking process takes place in one of the evaluation areas LE, LE '.

After the overtaking maneuver has been completed, the second vehicle 2, the first of the two vehicles 2, 1, enters an evaluation area LA of the lane 3a and is detected by the second control device 10.

The second control device 10 can be constructed analogously to the first control device 5 and comprises a camera 12, 12 ′ for each lane 3a, 3b for the image capture of vehicles, which are each fastened to a portal 11. In the present case, the cameras 12, 12 ′ are aligned in the direction of the route section 3. The camera 12 detects a length LA of the lane 3a while the camera 12 'detects a length LA' of the lane 3b. The visual capture of vehicles by the cameras 12, 12 'thus takes place within the route section 3. However, it is also conceivable that the cameras 12, 12' are directed onto a route area outside the route section 3 and the pictorial capture of vehicles outside the route section 3 takes place. Analogously to the entry into the route section 3, the license plate number of the second vehicle 2 can be detected by an automatic license plate recognition and subsequently in the processing unit 4 second vehicle 2 are assigned.
In addition, the on-board unit 14 of the second vehicle 2 is detected by a transmitter-antenna unit 13 of the second control device 10, which in turn returns its identification feature to the transmitter-antenna unit 13. The identification feature is stored in the processing unit 4 and assigned to the second vehicle 2. Furthermore, the position of the second vehicle 2 is detected and tracked by the transmitter-antenna unit 13. When the second vehicle 2 drives through the portal 11, a third time stamp is generated in the processing unit 4 and assigned to the second vehicle 2 or a data record of the second vehicle 2.

Analogously to the first control device 5, it is also conceivable for the second control device 10 that, in addition to the cameras 12, 12 'and the transmitter-antenna units 13, 13', light sensors, for example reflection light sensors or laser distance sensors, for example lidar -Sensors, for detecting the passage of the vehicles 1, 2 through the portal 11 or for determining time stamps.

The first vehicle 1 then enters the evaluation area LA of the lane 3a. Analogously to the second vehicle 2, the first vehicle 1 is detected by the second control device 10 by means of the cameras 12 and the transmitter-antenna unit 13. The identification features determined in this way, a fourth time stamp and a vehicle category are in turn stored in the processing unit 4 and assigned to the first vehicle 1.

On the basis of the assignment of the third and fourth time stamps to the second and the first vehicle 2, 1, respectively, an exit sequence of the two vehicles 1, 2 can be determined in the processing unit 4. In the present case, the second vehicle 2 is guided to a first position in the exit sequence, while the first vehicle 1 is guided to a position directly behind it.

The entry sequence is then compared with the exit sequence in the processing unit 4. Since the second vehicle 2 was in a position behind the first vehicle 1 in the entry sequence and was in a position in front of the first vehicle 1 in the exit sequence, the processing unit 4 can have a Detect overtaking maneuvers and assign them to second vehicle 2.

In addition, the assessment of whether the recognized overtaking maneuver is legally objectionable can then be carried out on the basis of the vehicle category determined.

Reference list

1

vehicle

2

vehicle

3

Route section

3a, 3b

roadway

4th

Processing unit

5

Control device

6

portal

7, 7 '

camera

8, 8 '

Transmitter antenna unit

9

On-board unit

10

Control device

11

portal

12, 12 '

camera

13, 13 '

Transmitter antenna unit

14th

On-board unit

L

Length of route section

LE, LE '

Evaluation area entry

LA, LA '

Evaluation area exit

T, T '

Direction of travel

Claims (15)

Method for recognizing overtaking maneuvers in road traffic within a route section, comprising the following steps: Detecting the entry into the route section (3) of at least two vehicles (1, 2) by a first control device (5); Determining an entry sequence of the at least two vehicles (1, 2) when entering the route section (3); Detecting the exit from the route section (3) of the at least two vehicles (1, 2) by a second control device (10); Determining an exit sequence of the at least two vehicles (1, 2) when leaving the route section (3); and Detection of overtaking maneuvers by comparing the entry sequence with the exit sequence. Method according to claim 1,
characterized,
that the detection of the entry into the route section (3) comprises the determination and assignment of at least one identification feature for each of the at least two vehicles (1, 2) by the first control device (5) and
that the detection of the exit from the route section (3) comprises the determination and assignment of the at least one identification feature for each of the at least two vehicles (1, 2) by the second control device (10). Method according to claim 2,
characterized,
that the determination and assignment of the at least one identification feature for each of the at least two vehicles (1, 2) by the first control device (5) by means of a first image recording and / or the determination and assignment of the at least one identification feature for each of the at least two vehicles (1, 2) is carried out by the second control device (10) by means of a second image recording. Method according to one of Claims 2 to 3,
characterized,
that the detection of the entry into the route section (3) by the first control device (5) and the detection of the exit from the route section (3) by the second control device (10) receive an identification signal from a transponder (9, 14) from each of the comprises at least two vehicles (1, 2) which have information about the at least one identification feature. Method according to one of claims 2 to 4,
characterized,
that the at least one identification feature of the at least two vehicles (1, 2) comprises the vehicle registration number or a vehicle identification number. Method according to one of Claims 1 to 5,
characterized,
that the detection of the entry into the route section (3) and the detection of the exit from the route section (3) each include assigning a time stamp to each of the at least two vehicles (1, 2). Method according to one of claims 1 to 6,
characterized,
that after the detection of the entry into the route section (3) the at least two vehicles (1, 2) are categorized as a function of the vehicle type and / or the permissible total mass. Method according to claim 7,
characterized,
that the at least two vehicles (1, 2) are categorized by means of the first image recording and / or a laser scanner and / or on the basis of the information in the respective identification signal of the transponders of the at least two vehicles (1, 2). Method according to one of Claims 1 to 8,
characterized,
that the determination of the entry sequence and the determination of the exit sequence each take place for a group of vehicles that enter the entry area and / or the exit area in a predetermined time window. Method according to one of Claims 1 to 9,
characterized,
that a route transit time is measured for each of the at least two vehicles (1, 2) and
that for each of the at least two vehicles (1, 2) an expected value of the route transit time is determined. Method according to claim 10,
characterized,
that the vehicles of the at least two vehicles (1, 2) whose route transit time falls below the expected value of the route transit time by at least a first threshold value are excluded from the entry sequence and the exit sequence for the detection of overtaking maneuvers. Method according to one of Claims 10 or 11,
characterized,
that the procedure is temporarily suspended if in a time interval a minimum number of vehicles has a route transit time which in each case exceeds the associated expected value of the route transit time by at least a second threshold value. Method according to one of Claims 3 to 12,
characterized,
that when overtaking maneuvers are recognized, at least one of the first pictorial recording and the second pictorial recording serves as a first pictorial evidence capture and / or a second pictorial evidence capture takes place in a driving direction behind the second control device. Method according to one of claims 1 to 13,
characterized,
that videos are created at least from parts of the route section (3) and
when overtaking maneuvers are detected, the associated video sequences are documented together with the overtaking maneuver. Method according to one of claims 1 to 14,
characterized,
that while the entry into the route section (3) and / or the detection of the exit from the route section (3) is detected, a vehicle speed of the at least two vehicles (1, 2) is determined.

Images