EP1695317A1 - Verkehrszustandserkennung mit einem schwellenwertverfahren - Google Patents
Verkehrszustandserkennung mit einem schwellenwertverfahrenInfo
- Publication number
- EP1695317A1 EP1695317A1 EP03785900A EP03785900A EP1695317A1 EP 1695317 A1 EP1695317 A1 EP 1695317A1 EP 03785900 A EP03785900 A EP 03785900A EP 03785900 A EP03785900 A EP 03785900A EP 1695317 A1 EP1695317 A1 EP 1695317A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- traffic
- data
- vehicle
- traffic condition
- comparison
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
- 238000000034 method Methods 0.000 title claims abstract description 38
- 238000001514 detection method Methods 0.000 claims abstract description 54
- 230000005540 biological transmission Effects 0.000 claims description 11
- 238000013480 data collection Methods 0.000 claims description 5
- 238000004590 computer program Methods 0.000 claims description 4
- 230000006698 induction Effects 0.000 claims description 2
- 230000002411 adverse Effects 0.000 description 6
- 238000010586 diagram Methods 0.000 description 6
- 230000000694 effects Effects 0.000 description 2
- 238000012360 testing method Methods 0.000 description 2
- 230000001133 acceleration Effects 0.000 description 1
- 238000004422 calculation algorithm Methods 0.000 description 1
- 238000004364 calculation method Methods 0.000 description 1
- 230000001934 delay Effects 0.000 description 1
- 230000001419 dependent effect Effects 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 238000011156 evaluation Methods 0.000 description 1
- 239000011049 pearl Substances 0.000 description 1
- 238000001556 precipitation Methods 0.000 description 1
- 238000012546 transfer Methods 0.000 description 1
- 230000001960 triggered effect Effects 0.000 description 1
- 238000004804 winding Methods 0.000 description 1
Classifications
-
- G—PHYSICS
- G08—SIGNALLING
- G08G—TRAFFIC CONTROL SYSTEMS
- G08G1/00—Traffic control systems for road vehicles
- G08G1/01—Detecting movement of traffic to be counted or controlled
- G08G1/0104—Measuring and analyzing of parameters relative to traffic conditions
-
- G—PHYSICS
- G08—SIGNALLING
- G08G—TRAFFIC CONTROL SYSTEMS
- G08G1/00—Traffic control systems for road vehicles
- G08G1/20—Monitoring the location of vehicles belonging to a group, e.g. fleet of vehicles, countable or determined number of vehicles
Definitions
- the invention relates to a method for providing traffic status data, a system for transmitting traffic status data, a device in a motor vehicle for generating and sending traffic status data and a computer program product for use in a motor vehicle and for generating and sending traffic status data according to the preamble of the independent claim concerned.
- FCD Floating Car Data
- the system used for this consists of a GPS receiver and a GSM module. Both modules are already available in many vehicles without FCD functionality.
- the GPS receiver measures the position and the FCD procedures determine travel times of the vehicle from many of these position data. These travel times are transmitted to the traffic data center as a string of pearls (individual points along the route with location coordinates and time stamps) via the GSM network. These can draw conclusions about the traffic situation from these travel times. In this way, traffic condition data for traffic information services are collected.
- FCD In order to collect the traffic situation more precisely in the future and additionally with information about weather, road conditions and local dangers, FCD will be developed into XFCD (Extended Floating Car Data).
- XFCD uses the various sensors and subsystems available in the vehicle, which already make their data available on central data buses in the vehicle.
- the evaluation of the various data while driving can provide information about traffic conditions, visibility, road conditions (road surface), infrastructural conditions (switchbacks), local dangers, precipitation, slippery conditions and slipping hazards.
- the object of the invention is a method for providing high-quality traffic condition data at acceptable costs.
- An essential aspect of the method according to the invention for providing traffic condition data in the context of a traffic condition detection by a traffic condition detection device provided in the motor vehicle consists in the execution of the following steps.
- the traffic status data are used, in particular, to record the traffic situation, such as preferably for congestion detection.
- a traffic condition is detected several times by the traffic condition detection device, and in a second step, a change in traffic condition is determined or recognized by the traffic condition detection device.
- a data record describing the change in the traffic condition is generated by the traffic condition detection device, in particular a program-controlled computer, and finally the data record is transmitted in a fourth step by the traffic condition detection device to a receiver receiving the data record. This is currently to be done in particular via a short message service.
- the method according to the invention enables event-oriented generation of traffic condition data.
- Traffic status data are only transmitted if the recognized traffic status, for example a traffic jam, causes this.
- the data record indicates whether a change in the traffic state from the “traffic jam” traffic state to the “free” traffic state (510) or a change in the traffic state from the “free” traffic state to the “traffic jam” traffic state by the traffic condition detection device provided in the motor vehicle has been determined.
- the check is carried out periodically and that the traffic condition "traffic jam" or "free” is considered to be present which first occurred largely continuously with a predetermined frequency.
- the data record that describes the change in traffic status additionally specifies the location and the time of the traffic state change, in particular the location and the time of the traffic jam entry or the traffic jam exit.
- the aforementioned measures enable precise and up-to-date traffic situation detection, in particular traffic jam detection. Unnecessary detours due to an alleged traffic jam can be avoided in the entire road network - and not just on motorways.
- a second data record describing the traffic state is transmitted by the vehicle.
- This second data set specifies in particular the average speed in the traffic jam and / or stand frequencies in the past interval.
- This measure enables the automatic provision of an updated traffic situation after a first change in traffic condition and before a second change in traffic condition.
- the second data set allows a more precise determination of the change in traffic conditions in terms of time or space.
- one embodiment of the invention provides that the receiver is a traffic data center, preferably a regional traffic data center, which provides a traffic situation using the data set.
- one embodiment of the invention provides that the traffic situation is made available using the data set and further traffic status data, in particular data from local measuring points, such as induction loops, bridge sensors, camera systems, beacons, or moving measuring points, such as reporting vehicles, traffic jams or police reports.
- traffic status data in particular data from local measuring points, such as induction loops, bridge sensors, camera systems, beacons, or moving measuring points, such as reporting vehicles, traffic jams or police reports.
- the receiver is at least one other motor vehicle that evaluates the data set to support the driver and / or forwards the data set to other vehicles and / or via data collection points to the traffic data center, in particular via a wireless interface to a transmission network.
- This measure makes it possible for vehicles to transmit mutually relevant traffic condition data, possibly with the inclusion of a traffic data center, in particular for recording the traffic situation.
- the method for data acquisition according to the invention also enables an advantageous system for transmitting traffic status data from a first vehicle to a second vehicle, in particular via an ad hoc network, or from a traffic data center to one or more motor vehicles, possibly modified, in particular via broadcast. It also enables an advantageous device and a computer program product for use in a motor vehicle for the generation and transmission of traffic condition data.
- FIG. 1 the flow diagram of a software module for determining the scope of the determined traffic condition
- FIG. 2 the flow diagram of a software module for determining the expected speed level
- FIG. 3 the flowchart of a software module for determining the boundary conditions of weather and road guidance
- Figure 4 the flow diagram of a software module for the detection of intersection areas
- Figure 5 the flow diagram of a software module for detecting the traffic condition.
- Vehicle-generated data are made available to a computing algorithm by the vehicle data buses via a known standard sensor interface, preferably every second.
- a computing algorithm preferably every second.
- Navigation system road category off Navigation system Distance to the next intersection off: Navigation system Distance to the end of the road segment traveled off: Navigation system average normal speed off: Navigation system urban / extra-urban (road type) off: Navigation system speed off: Vehicle bus Steering angle off: Vehicle -Bus gear off: vehicle bus hazard warning lights, turn signals off: vehicle bus ABS off: vehicle bus DSC / ASR off: vehicle bus crash sensor off: vehicle bus Airbag off: vehicle bus Door status off: vehicle bus Next POI type off: navigation system distance POI off: navigation system temperature off: vehicle bus light off: vehicle bus fog light off: vehicle bus wiper setting off: vehicle bus wiping frequency off: vehicle bus handbrake off: vehicle bus
- POI stands for "Point of Interest", such as restaurants, petrol stations, hospitals etc.
- the status of the vehicle doors and the current gear selection give e.g. B. Information about whether people get in or out (door opens).
- Parking processes can be identified by evaluating the steering angle turns in relation to the speed.
- Data from the digital map provide information as to whether the vehicle is actually driving on a public road or whether it is driving.
- B. is located on a large park, a rest area or gas station.
- the flowchart of the software module 100 for determining the scope of the determined traffic condition uses the following comparisons carried out in order to find indications that the vehicle is not moving in the usual manner in road traffic.
- comparison 101 it is checked whether the door is open
- comparison 102 it is checked whether a POI (Point of Interest) is nearby
- comparison 103 it is checked whether there is a high level of steering activity
- comparison 104 it is checked Whether the vehicle is in reverse gear or idling
- comparison 105 uses the data supplied by the navigation system (not shown) to check whether the vehicle is moving away is on a road
- comparison 106 checks whether the handbrake is applied
- comparison 107 checks whether the airbag has been triggered.
- a counter 108 is increased by “1”. For example, if the door is opened, the comparison 101 results in a first "yes” and the counter is set to "1". In the next second there is a new comparison 101 and the counter is set to "2" when the door is open, etc. If the door is closed the result is "No” and in the next second the comparison 102 is carried out. If the result is "Yes “the counter is increased by" 1 "to” 3 ". If no comparison is made when comparisons 101 to 107 are run through, the counter status of the counter is reset to" 0 ". Each positive comparison thus increases the counter reading of the counter 108, but only until there is a run through the comparisons 101 to 107, in which the result of the comparisons was always “No". If necessary, the counter 101 is set to "0" set as indicated in 109.
- the value t1 in a comparison 110 is set to "60". If the counter reading of the counter 108 does not reach the counter reading "60", the result of the comparison 110 is "No" and the detection of whether there is a jam is suspended as indicated by "Detection PAUSE” 111. If the result of the comparison 110 is “yes”, ie if one of the states of the comparisons 101 to 107 is present for more than 60 seconds, the detection is reset as to whether there is a jam or not. This is indicated by the “detection RESET” 112. How the “detection RESET” is carried out or what it does is explained in more detail later in connection with FIG. 5.
- Comparisons 101 to 107 can also be carried out in a different order. For example, query 106 as to whether the handbrake is applied could be carried out before query 101 as to whether a door is open.
- FIG. 2 shows the flow diagram of the software module 200 for determining the speed level to be expected.
- the known standard sensor interface (SSI) 201 provides the normal speed (normal speed in the case of an undisturbed traffic flow) for some roads using a digital map (not shown) which has this information.
- the digital map usually a DVD of the navigation system, shows which street type 202 and which street category 203 the specific street belongs to. If the expected normal speed is not available, the expected speed level for an undisturbed traffic flow is assigned according to the invention for all other roads using a table 204 with entries for the different “road types” and possibly for the different “road categories”.
- Table 204 has a lower speed threshold S1 and an upper speed threshold S2 (expected speed level) for the road type in question, and a distinction may also be made as to whether the vehicle is moving on this road type (road category) in town or out of town. If the vehicle is on a main road, the normal speed is z. B. according to the permissible maximum speed, in particular about 100 km / h.
- the lower speed threshold S1 is set at 35 km / h in the table and the upper speed threshold S2 is set at 45 km / h in the table.
- the normal speed for the specific street can also be indicated on the digital map.
- the lower speed threshold S1 is preferably set at 35% of the normal speed and the upper speed threshold S2 at 45% of the normal speed.
- the lower speed threshold S1 and the upper speed threshold S2 are thus based on the normal speed.
- the speed thresholds S1 and S2 are a software module for determining the boundary conditions weather and road layout according to Figure 3 transferred, which adapts the speed thresholds to the boundary conditions if necessary.
- these values are empirical values that can preferably be selected in order to optimize the reliability of the traffic jam detection.
- the speed thresholds S1 and S2 can also be determined from the table if the normal speed is recorded on the digital map.
- FIG. 3 shows the flowchart of the software module 300 for determining the boundary conditions weather and road guidance.
- the threshold values S1 and S2 for the traffic condition detection described in FIG. 5 are adjusted accordingly.
- the chain shown in FIG. 3 is run through every second whether the windshield wiper of the vehicle is wiping. If the result of the comparison 302 is "yes”, a value Tw1, which indicates the length of the wiper activity, is increased by the value "1" in step 303. "If the current value of Tw1 is higher than a value K1 which indicates a lower time threshold.
- N1 M0 + N1.
- N1 is a value that expresses the degree of influence on the normal speed of the vehicle without adverse boundary conditions and thus represents a weight for the “wiper wiping” condition.
- step 311 "0" set.
- N3 is a value which expresses how much influence is exerted on those without adverse boundary conditions normal speed of the vehicle is and therefore represents a weight for the condition "fog or fog lamp on”.
- step 316 it is checked whether the low beam is switched on.
- a daylight sensor could be used to check whether it is dark and the low beam should be switched on.
- N5 is a value that expresses how great the influence on the normal speed of the vehicle without adverse boundary conditions is and therefore represents a weight for the condition “darkness or low beam on”.
- N6 is a value that expresses the degree of influence to the normal speed of the vehicle without any adverse boundary conditions and thus represents a weight for the condition "temperature lower than 4 degrees Celsius and also windshield wipers switched on”.
- step 320 If the result of the comparison is “No” or if N6 was added in step 319, the process continues with step 320.
- step 320 it is checked whether the value M6 is greater than a predetermined value Mb.
- Mb is an empirical value or is determined, for example, by test drives and indicates from which value at a lower speed compared to the above-mentioned boundary conditions. the normal speed is calculated. If the result of the comparison 320 is “yes”, the lower speed threshold S1 and the upper speed threshold S2 from the software module 200 for determining the expected speed level are each reduced by multiplication by a value P1 that is less than 1 Practice has shown that a value P1 of approx. 0.9 is suitable, ie that S1 and S2 should be reduced to approx. 90% of their normal value under the mentioned boundary conditions.
- the chain shown in FIG. 3 is run through again (preferably) about every second, unless it is determined that the vehicle is outside the scope of the traffic jam detection system according to the invention (see FIG. 1).
- FIG. 4 shows the flowchart of a software module 400 for the detection of intersection areas.
- the SSI data "Distance to the next intersection” (from the navigation system with digital map) and "Speed" are used for this. A traffic jam in front of an intersection area is identified in the actual traffic condition detection, FIG. 5.
- step 404 If the result of the comparison 401 is "No", i.e. the vehicle does not drive in the area of an intersection, the actual speed v of the vehicle is passed on as speed v2 in step 404 to the traffic state detection system in FIG. 5.
- FIG. 5 finally shows the flowchart of a software module 500 for recognizing the traffic state by means of a threshold value method, ie for determining whether there is a traffic jam or whether there is free travel.
- the software module 500 according to the invention allows the determination of a position specification for the traffic jam entry and a position specification for the traffic jam exit.
- the basic data for the threshold value method carried out by the software module 500 are the data determined from the above four software modules and the current speed data of the vehicle. If the software module 100 (areas of validity) determines that the vehicle is not participating in the flowing traffic, the traffic condition detection according to FIG. 5 is suppressed. After determined participation in traffic, the module data are used to modify the speed values v2 and to determine the current threshold values S1 and S2. The speed data are changed via the determined boundary conditions of weather, road condition and road layout (intersections, switchbacks). The modified speed data are used for further calculations.
- the threshold values are determined via the target speed (software module 200). They divide the entire speed range into three parts; Velocity v less than S1, v between S1 and S2 and v greater than S2.
- the modified speed data are preferably assigned to one of the three areas every second.
- the currently prevailing traffic conditions are then determined via the frequencies of the modified traffic conditions.
- speed data in the individual areas Traffic light and intersection areas have already been taken into account by modifying the speed data. Traffic jams in traffic light or intersection areas are recognized just as in intersection-free areas.
- the first step 501 of the flowchart of the software module 500 it is checked whether the speed v2 (possibly an intersection-adjusted speed of FIG. 4) is lower than the lower speed threshold S1 (possibly modified by the boundary conditions weather, road condition and road guidance). If the result of the comparison 501 is "yes", which is considered a clue for a jam, in step 502, starting from the counter reading "0", a first counter counts up by the value W1 (counter reading 1 + W1). The first counter therefore takes into account a low speed v2 ⁇ S1 of the vehicle. Since the flowchart (preferably) is run through every second, the comparison is counted up every second if the comparison result remains the same.
- the status of the counter in step 502 is compared in step 503 with a value S5 (counter status 1> S5).
- step 504 If the result of the comparison 501 is “No”, ie if v2 is less than the lower speed threshold S1, it is checked in step 504 whether the (possibly modified) speed of the vehicle v2 is less than the upper speed threshold S2. Is the result of the comparison 504 "Yes", which is a reference point for free travel or no traffic jam, is incremented in step 505 from the counter reading "0" by a second counter by the value W2 (counter reading 2 + W2). The second counter therefore takes a high one into account Speed v2> S2 of the vehicle. Since the flowchart (preferably) is run through every second, the result of the comparison is constant every second.
- the counter reading of the second counter may be increased by the value "1" every second in step 505, ie W2 is preferably " 1 ". Of course, another value, such as” 0.5 ", could also be added.
- the status of the second counter in step 505 is compared in step 506 with the value S8. If the result is "yes”, the counter reading of the first counter is reset to "0" in step 508. If the result is "no”, the process continues with step 517. Based on the comparison 501, the first counter is counted up in step 502 in the event of a traffic jam. The counter reading of the first counter may exceed the value S5 and the result of the comparison 503 is "Yes".
- the second counter is incremented in step 505 when the vehicle is moving freely (counter reading 2 + W2).
- the counter reading of the second counter may exceed the value S8 and the result of the comparison 506 is "Yes”.
- step 513 it is checked whether the counter reading of the second counter (counter reading 2) has been reset to "0" for the first time in step 507. If the result is "yes”, in step 514 the location and the time at which the counter reading of the Counter 1 in step 503 was greater than the value S5, stored (potential traffic jam entry). Potential because in step 509 it still has to be shown whether there is really a traffic jam.
- step 515 it is checked whether the counter reading of the first counter (counter reading 1) has been reset to "0" for the first time in step 508. If the result is "yes”, in step 516 the location and the time at which the counter reading first occurred counter 2 was greater than the value S8 in step 506 (potential traffic jam exit). Potential because in step 511 it still has to be shown whether there is really no traffic jam.
- step 517 it is checked in step 517 whether the absolute amount of the difference between counter reading 1 and counter reading 2 is greater than a value S9 (counter reading 1 - counter reading 2 1> S9). If the result of the comparison is “yes”, step 509 is carried out. If the result of the comparison is “no”, step 509 is not carried out and the process chain shown in FIG. 5 begins again with step 501, as in the preferably second run ,
- step 504 If the speed v2 lies between S1 and S2, the result of the comparison in step 504 is “no”. This situation is considered an undefined state, ie it is not clear whether there is a traffic jam or no traffic jam or free travel. If the counter reading of the first counter is less than S5 or equal to S5, the result of the comparison 503 is "no". In step 504 ', the counter reading of the first counter is then increased by the value W3 and the counter reading of the second counter is also increased by the value W3, optionally every second, increased if the passage through the chain shown in Figure 5 takes place every second, preferably W1 and W2 have the same value, with W3 preferably having half the value of W1 and W2 or W2 "1" and the value of W3 "0.5". It goes without saying that a different weighting can also be used if this leads to more reliable jam detection.
- the counter reading of the first counter (low speed) is compared with the value S6 every second in step 509 (counter reading 1> S6). If the counter reading of the first counter is greater than S6, if the result of the comparison is “yes”, a first data record is generated in step 510 which describes the “traffic jam” state. In step 518 it is checked whether there is a change in state, i.e. whether the "traffic jam" state was preceded by the "free” state. Each time the vehicle is started up again, the state "free” is set as the initial state.
- the first data record and the location and time of the (previously only potential) traffic jam entry are made in step 519 for the purpose of data collection to an institution reconstructing and representing the traffic situation, in particular a traffic data center, preferably a regional traffic data center, preferably by SMS.
- step 511 checks whether the counter reading of the second counter is greater than a value S7. Is the result of the comparison "Yes”, a second data record is generated in step 512, which describes the state "free”.
- step 520 it is checked whether there is a change in state, ie whether the state "free” was preceded by the state "traffic jam”
- step 509 If the counter reading of the first counter (traffic jam entry) is less than or equal to S6 in step 509, the result of the comparison 509 is "no". Then in the next step 511 it is checked whether the counter reading of the second counter (traffic jam exit or free travel) is greater or is S7. If the counter reading of the second counter is greater than or equal to S7, the result of the comparison is "yes” and the status "free” is again preferably sent via SMS to the institution reconstructing and representing the traffic situation in step 512 for the purpose of surveying the traffic situation ,
- step 513 In order to determine the location of the traffic jam entrance and to be able to transmit it to the institution reconstructing and representing the traffic situation (not shown), after the reset of the second counter in step 507 in step 513 it is checked whether it is the first pass or whether this comparison 513 is made for the first time. If the second counter was reset to "0" for the first time in step 507, the result of the comparison 513 is "yes" and the position of the vehicle determined at the time on the basis of the data from the navigation system is stored as "traffic jam entry" in step 514 The status of the “traffic jam” in step 510 is also preferably transmitted to the position of the vehicle stored in step 514, ie transmit the "traffic jam entrance" to the institution reconstructing and presenting the traffic situation, preferably by SMS.
- step 515 In order to determine the location of the traffic jam exit and to be able to transmit it to the institution reconstructing and representing the traffic (not shown), after the reset of the first counter in step 508 it is checked in step 515 whether it is the first Pass acts or whether this comparison 515 is carried out for the first time. If the first counter was reset to "0" for the first time in step 508, the result of the comparison 515 is "yes” and that The position of the vehicle determined at this point in time on the basis of the data from the navigation system is stored as a "traffic jam exit" in step 516. When transmitting the status "free” in step 512, the position of the vehicle stored in step 516, ie the "traffic jam exit", is also preferred to the institution reconstructing and performing the traffic situation, preferably by SMS.
- step 509 If the result of the comparison 513 or 515 is “No” or if the “traffic jam entry in step 514 or the traffic jam exit in step 516 has been stored, the comparison in step 509 continues.
- a value of approximately 60 seconds is preferably selected for S5 and a value of approximately 180 seconds for S6 and S7. It goes without saying that values other than these practical values can also be selected if they enable a more reliable detection of traffic jams.
Abstract
Description
Claims
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
PCT/EP2003/014646 WO2005064567A1 (de) | 2003-12-19 | 2003-12-19 | Verkehrszustandserkennung mit einem schwellenwertverfahren |
Publications (2)
Publication Number | Publication Date |
---|---|
EP1695317A1 true EP1695317A1 (de) | 2006-08-30 |
EP1695317B1 EP1695317B1 (de) | 2008-10-08 |
Family
ID=34717113
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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EP03785900A Expired - Lifetime EP1695317B1 (de) | 2003-12-19 | 2003-12-19 | Verkehrszustandserkennung mit einem schwellenwertverfahren |
Country Status (4)
Country | Link |
---|---|
US (1) | US7343242B2 (de) |
EP (1) | EP1695317B1 (de) |
DE (1) | DE50310628D1 (de) |
WO (1) | WO2005064567A1 (de) |
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- 2003-12-19 EP EP03785900A patent/EP1695317B1/de not_active Expired - Lifetime
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2006
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WO2005064567A1 (de) | 2005-07-14 |
US20060287808A1 (en) | 2006-12-21 |
US7343242B2 (en) | 2008-03-11 |
EP1695317B1 (de) | 2008-10-08 |
DE50310628D1 (de) | 2008-11-20 |
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