EP3777107A1

EP3777107A1 - Method for determining traffic information

Info

Publication number: EP3777107A1
Application number: EP19720430.8A
Authority: EP
Inventors: Christian MERFELS; Constanze HUNGAR; Bernd Rech; Thilo Schaper; Daniel WILBERS; Niklas KOCH; Florian Haubner; Simon Seitle
Original assignee: Audi AG; Volkswagen AG
Current assignee: Audi AG; Volkswagen AG
Priority date: 2018-04-11
Filing date: 2019-04-11
Publication date: 2021-02-17
Also published as: DE102018108538A1; CN112042169A; US20210035449A1; US11222543B2; WO2019197573A1; CN112042169B

Abstract

The invention relates to a method for determining traffic information with the aid of a central monitoring device (10), which is in communication with a plurality of fleet vehicles (101) in order to obtain traffic information from the fleet vehicles (101), wherein the monitoring device (10) transmits targeted measurement requests to the fleet vehicles (101) during communication with the fleet vehicles (101). The invention proposes that during the transmission of targeted measurement requests, the monitoring device (10) takes account of the quality of sensors with which the individual fleet vehicles (101) are equipped.

Description

description

Method for determining traffic information

The invention relates to a method for determining traffic information according to the preamble of the independent method claim. In addition, the invention relates to a corresponding system for determining traffic information according to the preamble of the independent method claim.

In the future, maps with detailed traffic information will be the basis for many

Represent driver assistance and automated driving functions. These cards are currently kept up-to-date by a fleet of vehicles reporting to a central vehicle

Monitoring device, a so-called backend device provide. One

exemplary method for determining traffic information is known from DE 10 2016 008 895 A1. The messages currently contain information about changes

Map elements. The maps updated on the monitoring device are then redistributed to the fleet vehicles. At present it is assumed that the

Vehicle fleet covers all map areas sufficiently, so that all areas can be kept up to date. In reality, however, it is not the case, since only a few fleet vehicles have the necessary sensors and / or computing power to

Calculate update messages and send them to the monitoring device.

The invention is therefore based on the object at least partially overcome a known from the prior art disadvantage in the determination of traffic information. In particular, it is an object of the invention to provide a method for determining traffic information, which provides improved traffic information and covering as completely as possible and evenly and with a high data quality different map sections. Nevertheless, the invention is a system for the determination of

Provide traffic information that is simple and inexpensive.

The object of the invention is achieved by a method for determining

Traffic information with the features of the independent method claim, in particular from the characterizing part, and by a corresponding system with the features of the independent device claim, in particular from

characterizing part, solved. In the dependent claims preferred developments of the invention are listed. Features that reveals the individual aspects of the invention can be combined with one another in such a way that reciprocal reference is always made to the disclosure of the invention aspects of the invention. In addition, it is an object of the invention to provide a corresponding system for determining traffic information.

The invention provides a method for determining traffic information, which is executed by means of a central monitoring device, a so-called backend device, which is in communication with a plurality of fleet vehicles in order to obtain traffic information from the fleet vehicles, wherein the

Monitoring device targeted at communication with the fleet vehicles

Messwünsche (to update certain map sections) transmitted to the fleet vehicles. For this purpose, it is provided according to the invention that the monitoring device takes into account the quality of sensors with which the individual fleet vehicles are equipped in the transmission of targeted measurement requests.

The traffic information according to the invention comprises information of all kinds that may relate to a geographical map, including, for example: route, number, width and geometric configuration of lanes, incline or inclination of the road,

Presence of traffic lights, traffic lights, presence of crossings,

Presence of roundabouts, type of roads: highway, motorway, urban area, quality and frequency of roads, traffic signs, traffic signs, speed limits, current construction, fences, detours, etc.

The idea of the invention lies in the fact that the determination of traffic information, the targeted influencing of measurement requests by the selection of the appropriate sensors of the fleet vehicles can be significantly improved. The information coming from inappropriate sensors can provide some uncertainty, inaccuracy, error, or even no results. Since vehicles today have a wide variety of different makes and models and different features, not every vehicle of the same grade can provide specific traffic information. Polling vehicles with inappropriate sensing would therefore be a waste of existing resources.

First, it is conceivable within the scope of the invention that the monitoring device can generate targeted measurement requests, which relate to the information which routes or

Map sections should be updated. For this purpose, the monitoring device can take into account certain criteria for the quality of the map sections that are already recorded in the map, such as the age, the accuracy or the uncertainty of the map sections. Furthermore, when creating the measurement requests, the monitoring device can take into account historical data that provides information on areas or lanes that are rarely traveled. If within these areas distances are identified for which

Updates are of interest, they may receive a special weighting. The measurement requests to determine the required updates in certain

Map areas can be created regularly, for example periodically, automatically or semi-automatically by the monitoring device. Alternatively, certain measurement requests can be taken into account, manually, for example from one

Monitoring personnel, or coming from the fleet vehicles.

The measurement requests are therefore to be updated map elements, d. H.

Georeferences, which the monitoring device can communicate to the fleet vehicles in various formats. For one, it is possible that the fleet vehicles the

Receive measurement requests as a dynamic map layer or they call the measurement requests explicitly from the central monitoring device. Likewise, in known vehicle routes (eg, in the case of online routing or in the case of familiar learned typical personal routes, such as, for example, the way to the workplace), concrete alternative route suggestions can be specified by taking into account the map elements to be updated.

The selection of the individual fleet vehicle according to the invention is made dependent on the sensors installed in the specific fleet vehicle, including their measurement accuracy or visibility. For example, it plays a role to what extent the vehicle sensors can be influenced, such as, for example, the focusing of a camera on specific elements.

Within the scope of the invention, the monitoring device can express the measurement requests in a targeted manner. If the monitoring device is aware of the routes of fleet vehicles, for example due to the use of an online route planner, then a targeted measurement request can be sent directly to these fleet vehicles. That could be especially automatic

Fleet vehicles be relevant. The monitoring device could then selectively influence the route of the fleet vehicles, among other things by using parallel lanes. If, however, the route of the fleet vehicle of the monitoring device is not known, measurement requests can generally be communicated. In this case, the fleet vehicle can independently decide to what extent it can fulfill the measurement requirements. Criteria for this could include, for example, the energy consumption for the route, the travel time for the route, the quality of the connectivity (mobile radio), the passing of tourist destinations. For each criterion, for example, an appropriate threshold (eg, energy consumption below a defined threshold) or a yes-no decision (passing a tourist destination or not) could be set. If the route is planned or changed differently, it can be rejected by the driver, which is why he can be given a corresponding interaction with the monitoring device. For this, the driver must be told why the new route should be driven. It is also possible to offer the driver a reward system for generating as many update messages as possible. This can be either a virtual or real currency. Fleet operators such as taxi or minibus companies form a particularly interesting target group for this purpose. On the one hand measurement requests can be sent from the backend to non-commercial vehicles. On the other hand, it is also conceivable that contracts with companies (in particular fleet operators) are concluded in order to have specific measuring orders carried out by commercial vehicles. As a result, data protection is also clearly regulated. Such an example of a commercial commissioning represent driverless automatic vehicles (for example Robotaxis). If these vehicles without passengers and without time pressure are on the way (for example, on parking space search), the measurement requests can lead directly to detours. This innovative use enables fleet operators to generate added value that they otherwise would not have in their unused time.

Furthermore, the invention can provide that the monitoring device takes into account the quality of map sections in the transmission of targeted measurement requests, the quality of the map sections comprising the age, the accuracy and / or the uncertainty of the map sections. Thus, map sections that require it may be updated. A

Updating of newly updated map sections can thus be avoided. Thus, the existing resources can be exploited and costs saved.

Furthermore, the invention may provide that the quality of the sensors comprises at least one piece of information, such as:

a) type of sensors,

b) position of the sensors on the fleet vehicle,

c) alignment of the sensors,

d) resolution of the sensors,

e) calibration of the sensors,

f) Software support, hardware support, connectivity of the sensors on the

Fleet vehicle, and / or

g) suitability of the sensors to detect certain measurement requests of the monitoring device. Under the type of sensors in point a) the following types of sensors can be considered:

1. Laser sensors, which have a potentially high range and are advantageously suitable for acquiring geometric information. Possible

Measurements on laser sensors can include positions and / or dimensions of specific objects in the map, determine open spaces and / or passable areas.

2. Similarly good results in the detection of geometric information as the laser sensors can provide stereo cameras, so-called time-of-flight cameras.

3. Cameras in general are well suited for the classification of objects and the determination of color information. Possible measuring jobs can determine certain colors of the lane markings, certain speed limits

Road signs or the like include.

4. (Flash) lidar sensors may be advantageous for capturing a 3D image.

5. Radars measure speeds of objects in an advantageous manner. Possible measurement tasks include certain traffic density in a specific area, determine radar localization features or the like.

6. Ultrasonic sensors are well suited for distance measurements in the near range.

Possible measuring jobs may include specific geometries or presence of parking spaces; certain widths, for example in a narrow lane, or the like.

7. Capacitive sensors may also be well suited for making proximity measurements in the vicinity and / or for detecting the road condition.

8. Virtual sensors (for example car-to-car) may be advantageous for detecting the number of road users or the like.

9. GPS sensors provide certain reception quality on lanes to

Increase localization quality.

10. Rain light sensors can determine precipitation and position of the sun. 1 1. Radio modems can improve connectivity measurements. As a result, data from the Internet can be downloaded in a predictive manner.

12. Sensors for friction coefficient determination can be useful for optimizing the driving and braking behavior of the fleet vehicle.

Under point b), the position of the sensors on the fleet vehicle (top, front, back) can be taken into account, which may be important for distance measurements in the vicinity.

Under point c), the orientation of the sensors can be taken into account. Thus, it can be checked whether a specific measurement order is executable by the sensor at all, and / or whether the object to be measured during the shutdown will be long enough in the field of view.

Under point d), the resolution of the sensors can be taken into account. Thus, it can be checked whether, for example, the resolution of a camera is good enough to interpret a road sign.

Under point e), the calibration of the sensors can be taken into account. Thus, it can be determined, for example, whether the sensor set on the fleet vehicle is calibrated sufficiently to be able to carry out this order with high quality in measurement jobs that require geometrical accuracy.

Under point f), the software support of the sensors on the fleet vehicle can be taken into account. Thus, it can be verified whether, for example, image processing is available to interpret traffic signs.

Furthermore, hardware support may play a role in determining whether the

Fleet vehicle provides sufficient computing resources to perform the measurement can.

Furthermore, the connectivity may be important to determine whether the vehicle can connect to the monitoring device in the near future to be able to send the result of the guided measurement.

Under point g), the suitability of the sensors can generally be taken into account in order to be able to detect specific measurement requests of the monitoring device. The suitability of the sensors can be checked for the following criteria: age of the map sections, Accuracy of the map sections and / or uncertainty of the map sections (for example, a sign is known, but which sign that is is unknown)

Furthermore, the invention can provide that the monitoring device in the

Transmission of targeted measurement requests Sensor groups and / or sensor combinations taken into account with which the individual fleet vehicles are equipped. There are

Traffic information conceivable, which can not be completely or not completely detected by a type of sensors. For this purpose, advantageously different types of sensors can be used. For example, in detecting the position and content of a tag, a combination of the lidar sensor and a camera may be advantageous.

According to the invention it is provided that the monitoring device the

Queries traffic information in the fleet vehicles, the sensor data in

Traffic information can handle locally. Thus, the monitoring device can be relieved. Also, thus, the number of data that needs to be exchanged between the fleet vehicle and the monitoring device can be limited.

In addition, the invention may provide for the monitoring device to periodically update the measurement requests and / or to request the data during the generation of the measurement requests

Fleet vehicles considered. Thus, a regulated and / or demand-oriented

Updating the traffic information will be enabled.

In the context of the invention, it is conceivable that the communication between the

Monitoring device and the fleet vehicles via a mobile

Communication connection, sound waves, radio waves, electromagnetic waves and / or the Internet is running. Thus, a suitable communication between the

Monitoring device and the individual fleet vehicles, which can be selected depending on the data volume, the data type and / or other important parameters for traffic monitoring.

Furthermore, the invention provides a system for determining traffic information, which is implemented with a central monitoring device, which is connected to a plurality of

Fleet vehicles in a communication stands to traffic information from the

To receive fleet vehicles, the monitoring device transmits specific measurement requests to the fleet vehicles when communicating with the fleet vehicles. For this purpose, the monitoring device according to the invention is designed to carry out the method which has been described above. With the aid of the system according to the invention, the achieved the same advantages described above in connection with the inventive method. To avoid repetition, reference is made in the present case in full.

Furthermore, the invention can provide that the monitoring device a

Memory device in which the traffic information, measurement requests,

Map sections, information about the quality of different map sections,

Information about the quality of different sensors are stored. Thus, the card, including all information and updates can be stored centrally in the monitoring device.

Furthermore, the invention may provide that the monitoring device a

Control device, which is designed to targeted measurement requests to the

Create fleet vehicles, and / or that the control device is designed to evaluate the quality of sensors that are equipped with the individual fleet vehicles, and / or that the control device is designed to evaluate the quality of map sections that are stored in the storage device , and / or that the

Control device is designed to handle traffic information. Thus, at a central location, the inventive method can be carried out with all its variations.

Further, measures improving the invention will be described in more detail below with the description of a preferred embodiment of the invention with reference to FIGS. The features mentioned in the claims and in the description may each be essential to the invention individually or in any desired combination. It should be noted that the figure has only a descriptive character and is not intended to limit the invention in any way. Show it:

Fig. 1 is a schematic representation of a system according to the invention for the determination of traffic information.

FIG. 1 shows a system 100 for determining traffic information, which comprises a central monitoring device 10 which is in communication with a plurality of fleet vehicles 101 in order to obtain traffic information from the fleet vehicles 101. The monitoring device 10 is designed to transmit targeted measurement requests to the fleet vehicles 101 during communication with the fleet vehicles 101. First, the monitoring device 10 is supplied with initial map data, which are stored for example in a memory device 11.

Furthermore, a control device 12 may decide whether certain map sections need to be updated. In this case, the control device 12 can take into account the age, the accuracy and / or the uncertainty of the map sections.

According to the invention it is provided that the monitoring device 10 in the

Transmission of targeted measurement requests for updating certain map sections taken into account the quality of sensors that are equipped with each fleet vehicles 101.

The quality of the sensors according to the invention comprises at least one piece of information about the: a) type of sensors,

b) position of the sensors on the fleet vehicle 101,

c) alignment of the sensors,

d) resolution of the sensors,

e) calibration of the sensors,

f) Software support, hardware support, connectivity of the sensors on the fleet vehicle 101, and / or

g) suitability of the sensors to detect certain measurement requests of the monitoring device 10.

Furthermore, the monitoring device 10 in the transmission of targeted

Measurement requests consider several sensors in a group and / or combinations with which the individual fleet vehicles 101 are equipped.

The monitoring device 10 can receive the traffic information in the form of sensor data and process it centrally in the control device 12.

It is also conceivable that the fleet vehicles 101 can already provide processed traffic information, for example changed map sections, to the monitoring device 10. The monitoring device 10 may interrogate the fleet vehicles 101 periodically. In addition, the fleet vehicles 101 can independently communicate to the monitoring device 10 certain map sections that are relevant from the perspective of the vehicles.

The communication between the monitoring device 10 and the fleet vehicles 101 can take place via a mobile communication link 102, sound waves, radio waves,

electromagnetic waves and / or the Internet are running.

Once the traffic information within the monitoring device 10 is updated, the monitoring device 10 may send this updated traffic information to all fleet vehicles 101.

The above description of Figure 1 describes the present invention

exclusively in the context of examples. Of course, individual features of the embodiments, insofar as it is technically feasible, can be freely combined with one another without departing from the scope of the invention.

Reference symbol system

fleet vehicles

Communication connection monitoring device

storage device

control device

Claims

claims

1. Method for determining traffic information,

by means of a central monitoring device (10) which is in communication with a plurality of fleet vehicles (101) in order to obtain traffic information from the fleet vehicles (101),

wherein the monitoring device (10) is in communication with the

Fleet vehicles (101) transmit targeted measurement requests to the fleet vehicles (101),

characterized,

that the monitoring device (10) in the transmission of targeted

Measuring wishes take into account the quality of sensors fitted to the individual fleet vehicles (101),

and that the monitoring device (10) requests the traffic information from the fleet vehicles (101) that can locally process the sensor data in traffic information.

2. The method according to claim 1,

characterized,

that the monitoring device (10) in the transmission of targeted

Measuring wishes take into account the quality of map sections,

wherein the quality of the card sections includes the age, accuracy and / or uncertainty of the card sections.

3. The method according to claim 1 or 2,

characterized,

that the quality of the sensors comprises at least one piece of information, such as:

a) type of sensors,

b) position of the sensors on the fleet vehicle (101),

c) alignment of the sensors,

d) resolution of the sensors,

e) calibration of the sensors,

f) Software support, hardware support, connectivity of the sensors on the fleet vehicle (101), and / or

g) Suitability of the sensors, certain measurement requirements of

Monitoring device (10) to detect.

4. The method according to any one of the preceding claims,

characterized,

in that the monitoring device (10) takes into account sensor groups and / or sensor combinations with which the individual fleet vehicles (101) are equipped in the transmission of targeted measurement requests.

5. Method according to one of the preceding claims,

characterized,

the monitoring device (10) periodically updates the measurement requests and / or takes into account requests from the fleet vehicles (101) when the measurement requests are generated.

6. The method according to any one of the preceding claims,

characterized,

the communication between the monitoring device (10) and the fleet vehicles (101) is carried out via a mobile communication link (102), sound waves, radio waves, electromagnetic waves and / or the Internet.

7. system (100) for determining traffic information,

with a central monitoring device (10) connected to a plurality

Fleet vehicles (101) is in communication to receive traffic information from the fleet vehicles (101),

wherein the monitoring device (10) is in communication with the

characterized,

in that the monitoring device (10) is designed to carry out the method according to one of the preceding claims.

8. System according to claim 7,

characterized,

in that the monitoring device (10) has a memory device (1 1) in which the traffic information, measurement requests, map sections, information about the quality of different map sections, information about the quality

different sensors are stored.

9. System according to claim 7 or 8,

characterized,

in that the monitoring device (10) has a control device (12) which is designed to generate targeted measurement requests to the fleet vehicles (101) and / or that the control device (12) is designed to evaluate the quality of sensors with which the individual fleet vehicles (101) are equipped, and / or that the control device (12) is adapted to the quality of

Evaluate card sections, which are stored in the storage device (1 1), and / or that the control device (10) is adapted to edit traffic information.