EP0958563A1

EP0958563A1 - Method for determining the traffic situation, detector and control centre

Info

Publication number: EP0958563A1
Application number: EP98909306A
Authority: EP
Inventors: Michael Brandenbusch; Ulrich Fastenrath
Original assignee: Mannesmann AG
Current assignee: Vodafone Holding GmbH
Priority date: 1997-02-04
Filing date: 1998-01-28
Publication date: 1999-11-24
Anticipated expiration: 2018-01-28
Also published as: EP0958563B1; ES2195324T3; ATE241840T1; WO1998034209A1

Abstract

Optimisation of the signalling behaviour of a detector for a system for determining the traffic situation, and thus optimisation of the energy used by said detector and of the telecommunication resources expended relative to the transmission of traffic data, is made possible by a method for determining the traffic situation which uses a control centre and stationary detectors located in several points within a road network. The detectors each gather traffic data at their respective locations and transmit traffic data to the control centre according to a predefinable signalling behaviour state. Several signalling behaviour states are provided for for each detector, which states are selected at least in accordance with traffic data and define the signalling behaviour of the detector.

Description

Traffic situation detection, detector and control center

description

The invention relates to a method for traffic situation detection, a detector and a control center.

Mobile traffic arranged in vehicles are used for traffic situation detection

Detectors also used stationary detectors arranged at certain positions on busy roads. These are arranged on bridges, masts etc., for example. The energy supply of such stationary detectors is expediently provided by solar energy, which is received by solar elements on the detector, wherein a battery is usually provided on the detector to enable transmission even when there is little solar radiation, for example at night. However, the energy that can be used to send data from the stationary detector to a central station via mobile radio, etc. is limited by the sun's radiation in the course of a day; an enlargement of the solar elements to increase the maximum solar energy that can be absorbed stands in the way of the costs for larger solar elements, the space requirement and the visual conspicuity. This means that a stationary detector cannot transmit in arbitrarily short time intervals. In addition, the shortening of the transmission time interval and / or the amount of data transmitted, that is to say the transmission power, is also limited by random fluctuations in the available solar energy, in particular by cloudiness or precipitation. Furthermore, there are costs associated with communication via mobile radio, etc.

The object of the invention is therefore the optimization of the utilization of the limited available energy for information of a center by a detector current relevant traffic data. This object is solved by the subject matter of the independent claims.

The reporting behavior which can be predetermined according to the invention enables the detector to be adapted to changing requirements for different reasons

Transmission of traffic data from the detector to a central office. The decision about the reporting behavior status of the detector can be made in particular in dependence on traffic data measured by this detector in the detector or in the control center. The reporting behavior can thus be adapted to the current local traffic situation at the detector. Furthermore, the decision about the reporting behavior status of a detector can also be made on the basis of traffic data measured by one or more other detectors and transmitted by these to the control center, with data on these traffic data or commands from the control center to the detector, about which reporting behavior status is to be decided , are transmitted; this is particularly the future to be expected

Traffic condition at the location of the detector can be used to decide on the future reporting behavior of this detector.

The measured traffic data, which are included in the decision about the future reporting behavior state of a detector, expediently comprise the vehicle speed of vehicles passing through a detector, since the speed to the traffic situation is relatively well correlated and is suitable directly or through a traffic model for deciding a reporting behavior state of a detector is. Furthermore, the decision to bring a detector into a certain state can also be made by the

The number of vehicles detected by this or at least one other detector within a time unit depends, since the number also correlates with the traffic situation and thus with the requirement for the transmission of data from the detector to a control center. The speed, number and possibly speed variance of a vehicle passing through a detector is particularly also local

Appropriate decision in the detector about changing its signaling state.

In addition to a choice of the reporting behavior, there is also a different choice of a detection behavior state of a detector, that is to say in particular the time interval expedient between two recordings of the traffic situation (in particular speed and number of vehicles) by a detector.

It is also expedient to make a decision in the detector and / or in the control center about the data to be transmitted to the control center, in particular about the data

Length of a transmission of data from the detector to a central parameter determining.

In addition to the speeds and the number of vehicles passing through a detector, the history of this detector is also suitable for deciding on its reporting behavior. In particular, the decision about the reporting behavior state of fluctuations, in particular the variance, of vehicle speeds detected at a detector and / or the number of vehicles detected at one or more points in the past can be taken into account.

For a decision to change from one reporting behavior state to another reporting behavior state, at least one threshold value of the vehicle speeds and / or vehicle variance can be defined, below or below which data is transmitted to the control center, but at greater or lesser intervals than in that current status of notification.

Historical traffic data are expediently stored in the detector and / or the control center, which are used in particular to define the criteria, in particular

Speeds and / or speed fluctuations can be used, on the basis of which criteria are decided on the state of a detector to be selected. In particular, this can be used to carry out a learning process for optimizing the decision about the change in the reporting behavior.

Parameters that are independent of traffic can also be taken into account when deciding on the future reporting behavior of a detector. In this way, the days of the week and / or weather data and / or the state of charge of the battery of a detector can be taken into account in addition to pure traffic data; she can also be taken into account for setting up a historical database and for determining criteria for deciding on the reporting behavior status of a detector in the control center and / or in a detector.

A parameter evaluation is possible in the detector and / or in the control center.

Appropriately, local parameters such as local traffic data and other local data (local precipitation, temperature, state of charge, etc.) are evaluated on a detector by this detector. The analysis of changes in traffic data over time is possible in the detector; it is preferably carried out at the headquarters.

The transmission of traffic data and / or instructions from a detector to a control center and / or from a control center to a detector is expediently carried out by mobile radio, in particular GSM, in order to create stationary detectors which are as independent of the line as possible.

A detector according to the invention expediently has, in particular, a program for carrying out the method according to one of the method claims. A preferred embodiment of the detector relates to a sensor for weather data, in particular the temperature, at the detector, which makes the local decision about the

Reporting behavior state of the detector optimized.

A control center for acquiring traffic data also expediently has a program for carrying out the method according to one of the method claims. As an alternative or in addition to decision-making processes in the detector, a decision-making state can run its own decision-making processes regarding the reporting behavior state of one or more detectors. A priority control is expediently provided for decisions of the control center and of a detector about the future reporting behavior status of the detector. Which decision has priority can vary

Depend on parameters. In particular, current events on the detector can define a priority of its decision over the decision of the control center. Furthermore, a traffic situation detected by one or more detectors, which has not yet been detected by a special detector, can be used in the central office to make a decision about the future reporting behavior state of this particular one Lead detector, which is then transmitted to the detector and has priority over a local decision of the detector. Thus, the priority of decisions by the detector or the control center is dependent in particular on the topicality of the detection of traffic data at the detector and / or on the importance of detected or calculated traffic data relating to the traffic situation, which are important for a detector.

Further features and advantages of the invention result from the description of an exemplary embodiment with reference to the drawing. It shows

1 schematically shows two stationary detectors for recording the traffic situation on a street with vehicles and a control center,

Fig. 2 shows schematically as a block diagram the communication between a control center and a stationary detector (= detection unit) and

3 as a Petri network, examples of state transitions in the reporting behavior

State of a detector.

1 shows vehicles 2, 3, 4, 5 traveling on a road 1 of a traffic network,

6, 7, of which, in particular, their speeds when passing a detector 8 or 9 and the number of vehicles which pass a detector 8 or 9 within a time unit are detected and in accordance with the predeterminable reporting behavior state of a detector at certain time intervals and / or formats Mobile radio network 10 or 11 are transmitted to a traffic registration center 12.

In addition to stationary detectors 8, 9, mobile detectors (not shown) in vehicles 2 to 7 can also record traffic data and transmit them to the control center, which can use them to inform 13 about the current or future traffic situation.

A stationary detector 8 is stationary at a certain point in the traffic network. It can in particular be mounted on a bridge, over a tunnel entrance, on a mast, on a hill or the like. Because stationary If detectors are to be attached to a wide variety of points in the traffic network for which there is no suitable energy and communication supply, stationary detectors 8 are generally designed to be self-sufficient. In particular, they can, in particular, provide an independent energy supply, for example by means of a solar element and a battery and an independent communication device

Mobile radio or the like. Have.

The energy available to a detector 8, for example through solar energy and / or a battery, limits the transmit energy that can be emitted by the detector 8. Thus, a detector cannot be in any short time interval and / or any number

Send data.

If a detector now transmits at certain fixed time intervals, current events lying within a time interval, such as traffic data, which imply an accident, etc., are only sent to a central office with a delay

Can not provide road users with acute information. Furthermore, the energy available to a detector is limited by external influences such as cloud cover, precipitation, etc.

Therefore, the reporting behavior, especially the time interval in which a

Detector reports traffic data to a control center, adjusted depending on various influences. The decision to adapt can be made in the control center 12 and / or in the detector 8. Fixed priority rules can be provided for conflicting decisions by the control center 12 and the detector 8. For example, if a control center requires a report from a detector only every five hours, but the detector suspects an accident in front of the detector due to the absence of passing vehicles, contrary to the decision of the control center, a decision for an immediate report and / or future reports can be made send short time intervals. Furthermore, reporting behavior states can only be temporary, so that a return to a specific reporting behavior state, which may also depend on factors such as the day of the week, time, temperature etc., is provided.

FIG. 2 shows schematically the communication between a center 12 and a detector 8 (referred to as a detection unit). The detector detects via a Sensor system 14 traffic data at its position; in particular this can be the speed of a vehicle passing through it; in addition, a detector can use direct data, such as individual vehicle speeds, also average vehicle speeds in specific time intervals, to determine the variance of average or individual vehicle speeds in the same or different ones

Determine time intervals, the number of vehicles in intervals and / or the change in the number of vehicles per time interval. In addition to data obtained directly, such as individual vehicle speeds, such derived data may be monitored by a local agent 15. This can in particular be a special subroutine in the sequence control of a detector 8 or can also be a separate circuit or sequence control in the detector 8. For example, a local agent can track the variance of vehicle speeds, another local agent can track the number of vehicles per unit of time, etc. In contrast, in the present example, an "attentive state machine" 16 only monitors standard data, that is to say speeds and possibly also derived data

Values such as speed variance, number variance, etc. A local agent 15 informs the attentive state machine 16 here when something relevant happened, such as the absence of vehicles, that is to say the number of vehicles passing the detector 8 per unit time falling to zero. In such a case, the attentive state machine 16 is communicated via the communication 17, 18

Mobile radio etc. inform a central office 12. This can determine via the traffic situation detection 19 and further processing 20 that it is a relevant event and, for example, inform road users by means of a special broadcast via radio (13) etc. The central office 12 can also receive data from other acquisition units 8. These can be special current events or routinely recorded traffic data or derived quantities.

The decision in the central office about a change in the current reporting behavior state of a stationary detector 8 can be based on traffic data transmitted by it and derived data as well as on the basis of others

Detectors 9 transmitted traffic data and derived data and / or based on other factors such as day of the week, time, precipitation, a historical database, etc. If the control center 12 decides that the reporting behavior state of a detector 8 is to be changed, it transmits this to it via mobile radio etc. from its communication unit 18 to the communication unit 17 a detector 8, whereupon this decides whether it goes into the commanded new reporting behavior state.

FIG. 3 shows, as a very simple example, reporting behavior states of a detector 8, which here has only four reporting behavior states 31, 32, 33, 34.

The reporting behavior state 31 can be characterized, for example, in that a message from the traffic detector 8 to a central office 12 follows every ten minutes, the message indicating the average speed of vehicles passing through the detector 8 in the last ten minutes, the variance in the speeds of the vehicles

Vehicles which the detector 8 has detected in the last ten minutes and the number of vehicles which have passed the detector 8 in the last ten minutes.

In state 32, the detector reports every minute the average speed of the vehicles passing it in the last minute, the speed variance in the first to sixth intervals of ten seconds in the last minute and the number of vehicles in the last minute. In state 33, the detector transmits the speed and number of vehicles every five hours in the past five hours. In state 34, the detector 8 transmits to the control center 12 the speed in the last five hours every five hours, the variance in the speeds of the vehicles in this hour and the number of vehicles in the last five hours for each of the last five hours.

The reporting behavior state 33 of a detector 8 is particularly suitable at times at which nothing relevant happens regularly, for example on weekdays from midnight to 5:00 a.m. State 31 is particularly suitable at times when an observation of the traffic situation is necessary, but an accident etc. has not necessarily already occurred. The decision 41 to change from state 31 to state 32 can be made, for example, when a detector determines that no vehicles are currently driving past it, so that an accident upstream in front of the detector can be assumed. In addition to a current message to the control center 12, the detector 8 can then independently decide to change to the state 32. Such a decision 41 can also be made by a central office. If again If vehicles pass detector 8 or vehicles pass detector 8 again at normal speed, the latter or the control center can decide to change from state 32 to state 31 again (42).

The decision to change from state 31 to state 32, that is to say to report more frequently, can be made, for example, for a detector 9 by a control center 12 and transmitted to it when the control center 12 detects certain traffic data etc. from the detector 8, such as fluctuations in Vehicle speeds, fluctuations in the number of vehicles, etc.

If unusual vehicle speeds, vehicle fluctuations etc. occur in state 33, the control center and / or a detector 8 can decide (43) to change from state 33 to state 31, that is to say to report more frequently, until a decision to return from state 31 in state 33 etc. is hit (44) because a certain period of time has passed or has changed

Move vehicle speeds or vehicle speed variances again in a normal range.

The same can be provided for transitions between states 33, 32 and 34 or between 31 and 34.

The detector 8 has a sequence control with a program for carrying out the method according to the invention, a memory for this program and for recorded traffic data, a processor for executing the stored program, and a transmitting and receiving device for transmitting

Traffic data to a control center or for receiving traffic data and / or commands for changing the reporting behavior state from the control center, a detection unit for recording traffic data, in particular for measuring speeds passing through the detector. The various signaling behavior states can be stored in a memory in the detector and from the

Processor in the detector can be changed due to a decision in the detector or a decision in the control center. The detector can in particular have sensors for weather data, such as temperature, precipitation, etc. Communication between the detector and the control center is expediently carried out via a mobile radio device on the detector. A control center 12 also has a program for performing the method according to the invention, a memory for the program and for determined and / or calculated traffic data or traffic situation data, a processor for executing the program, a transceiver for receiving traffic data from a detector and possibly Information about the current reporting behavior status of the detector and for sending traffic data and / or commands for changing the reporting behavior status to a detector.

A control center expediently communicates with a plurality of detectors 8, 9 and possibly also with mobile detectors in vehicles 2 to 7.

In addition to the signaling behavior state of a detector 8, the measuring behavior state of the detector can in particular also be selectable. This can also be determined by the detector and / or the control center. In particular, the frequency of measurements, the type of measurements, the accuracy of measurements, etc. can be specified. The frequency can be changed, in particular in the case of energy-consuming measurements. The state of measurement behavior can be determined on the basis of the traffic situation at the detector or at other points in the detector

Transport network can be selected. Furthermore, further data, such as the state of charge of the battery of a detector, the current incoming solar energy, the temperature, precipitation, etc., can be taken into account when deciding on the state of measurement behavior.

Claims

claims

1. Method for traffic situation detection with a central and stationary s detectors at several locations in a traffic network, the

Detectors each record traffic data at their location and transmit traffic data to the head office as a function of a predeterminable reporting behavior state, several reporting behavior states of a detector being provided, which are selected at least as a function of traffic data 0 and which define the reporting behavior of the detector.

2. The method according to claim 1, characterized in that a decision is made about the reporting behavior of a detector in dependence on traffic data measured by this detector.

3. The method according to any one of the preceding claims, characterized in that the decision on the reporting behavior state of a detector in dependence on one or more detectors and measured to the

Traffic data transmitted to the central station is carried out, data relating to this traffic data or commands being transmitted from the central office to the former detector.

5 4. The method according to any one of the preceding claims, characterized in that the measured traffic data comprise the vehicle speed of vehicles passing a detector.

0 5. Procedure for recording the traffic situation according to one of the preceding

Claims, characterized in that the decision to bring a detector into a specific state depends on the number of vehicles detected on this and / or at least one other detector 5 within a time unit.

6. The method according to any one of the preceding claims, characterized in that the decision for a particular reporting behavior state comprises the setting of the time interval between two reports from the detector to the control center.

7. The method according to any one of the preceding claims, characterized in that the decision to bring a detector into a certain reporting behavior state and / or detection behavior state is made on the basis of the variance of vehicle speeds by vehicles passing a detector.

8. The method according to any one of the preceding claims, characterized in that when a threshold value for the vehicle speeds and / or the vehicle speed variance is undershot, data are transmitted cyclically to the control center in larger or smaller time intervals.

9. The method according to any one of the preceding claims, characterized in that historical traffic data, in particular data about vehicle speeds and / or number of vehicles and / or vehicle speed variances to determine times and / or days of the week, are stored in the detector and / or in the control center.

10. The method according to claim 9, characterized in that on the basis of the historical traffic data the criteria, in particular speed threshold values and / or speed variations.

Threshold values and / or number of vehicles per unit of time are defined, on the basis of which a decision is made about the state of a detector to be selected.

11. The method according to claim 9 or 10, characterized in that traffic data are stored for certain days of the week and / or times.

12. The method according to any one of claims 9 to 11, characterized in that weather data, in particular data on temperatures and / or humidity and / or precipitation and / or solar radiation, are taken into account.

13. The method according to any one of the preceding claims, characterized in that the state of charge of the battery of a detector is taken into account.

14. The method according to any one of the preceding claims, characterized in that the evaluation of local traffic data and other data to a detector is carried out by this detector.

15. The method according to any one of the preceding claims, characterized in that the evaluation of temporal changes in data, in particular traffic data, is carried out by the control center.

16. The method according to any one of the preceding claims, characterized in that the transmission of data, in particular traffic data, and / or instructions between a detector and the center takes place via mobile radio.

17. Detector for detecting traffic data, in particular speeds of vehicles of interest to it, with a program for carrying out the method according to one of the preceding claims, with a memory for the program, with a processor for processing the program, with a transmitting and receiving device for transmitting traffic data and / or instructions between the detector and a control center, with a detection unit for recording traffic data, in particular vehicle speeds, with several for the reporting behavior of the detector to the control center States are provided that can be selected on the basis of traffic data.

18. A detector according to claim 17, characterized in that sensors are provided on the detector for weather data, in particular temperatures, precipitation and / or solar radiation, on the detector.

19. Detector according to claim 17 or 18, characterized in that a mobile radio device is provided for the transmission of data.

20. Detector according to one of claims 17 to 19, characterized in that it has a solar element and a battery.

21. Central for recording traffic data with a program for performing the method according to one of claims 1 to 16, with a memory for the program, with a processor for processing the program, with a transmitting and receiving device for transmitting traffic data and / or Instructions between a detector and the control center, wherein several states are provided for the reporting behavior of a detector in the control center, which can be selected on the basis of traffic data.