EP1769997A2 - Railway warning system, emitter for railway vehicles and receiver for warning about these approaching railway vehicles - Google Patents

Abstract

The trains have approach signaling devices (2) with a radio data unit (7) for transmitting an approach warning signal to other vehicles and warning signal devices (3) for installation in vehicles with corresponding receivers. The approach signaling devices have access to the current position of the train and a list with hazard zone locations and signal control units for transmitting the approach warning signal depending ion the location of the next hazard zone in the list. Independent claims are also included for (A) an approach signaling device (B) and a warning signaling device.

Description

The invention relates to a railway warning device for warning road users before the approach of railway vehicles to hazard zones with built-in railway vehicles respectively proximity signaling devices having a data radio unit for sending a proximity warning signal via radio directly or indirectly to other road users, and with warning signal devices for installation in vehicles of other road users a data radio unit for receiving proximity warning signals.

The invention further relates to an approach signal device and a warning signal device for this purpose.

In particular, railroad crossings as intersections between railway lines and roadways have a high risk potential. They are currently protected by optical and acoustic signals as well as by barrier systems. Specially secured level crossings are checked for obstacles to avoid collisions and only released for the train if there are no obstacles located on the railroad crossing. However, this is not the case at all secured level crossings.

In addition to the technically secured level crossings, there are also unsecured level crossings, where trains give an audible signal and the crossing traffic itself has to check whether a train is approaching.

From the EP 0 976 640 B1 a collision protection system for level crossings is known in which it is checked by means of cameras, whether the level crossing is free. In addition, barrier systems are provided with running in the middle of the roadway Hindemissen for separation of the roadway to prevent the railroad crossing is crossed zigzag.

From the DE 197 51 468 A1 In addition, a safety system for level crossings is known, in which an approaching railway train radio transmits its approach to a barrier system in order to close this time-optimized as short as possible.

In Fabian Graefe: "Development and testing of a communication system for a self-sufficient level crossing system". Diploma thesis, German Aerospace Center, Institute for Traffic Control and Vehicle Control, August 2002, a feasibility study of bidirectional ad hoc communication with various radio transmission systems between rail and road vehicles is disclosed. Approaching signal devices in railway vehicles in this case communicate with warning signal devices in motor vehicles in order to detect the approach of a railroad crossing, for which a crossing was foreseeable, the approach of a train equipped with the system. Possible collision situations due to the stoppage of an automobile in the danger zone of a railroad crossing are also detected and transmitted to both signaling devices in the railway vehicle and motor vehicle. Bi-directional communication disadvantageously requires interference with the communication and safety structure of the railroad system.

Securing hitherto technically unsecured level crossings with signal and barrier systems is very cost-intensive. The costs are independent of the utilization of the route. Rather, the costs depend on the number of level crossings.

Object of the present invention is therefore to provide an improved railway warning device, with a simple and inexpensive way without interference with the control technology of the railway network, a warning of road users from hazards in hazardous zones by approaching railway vehicles is made possible.

The object is achieved with the railway warning device of the type mentioned above in that the proximity signal devices have access to a current location position of the railway vehicle and a list of location positions of hazardous zones and has a signal control unit to function of the position of the next listed in the list hazard zone repeatedly sending a proximity warning signal to the radio station and having the warning signal devices in the vehicle-mounted state access the current location of the respective vehicle to receive the proximity warning signal upon receipt of the proximity warning signal in response to the current location of the vehicle and the location of the vehicle Hazard zone to generate a warning signal.

The uni-directional emission of an approach warning signal from the railway vehicle as a broadcasting signal when approaching a hazardous zone, such as a railroad crossing has the advantage that can be done without interference with control and control systems of the railway network in a simple way warning of equipped with warning signal devices road users. The transmission of the approach warning signal is carried out as a function of the distance between the current location position of the railway vehicle and the position of the next listed in a list hazard zone, so that of the other road users in a simple way a possible collision on the relevant Hazardous zone can be estimated. The proximity warning signal here denotes a current potential risk of collision.

The generation of a warning signal by the warning signal device is not carried out in coordination with the approach signal device in the railway vehicle, but self-sufficient on the basis of the current position of the vehicle and the position of the respective hazard zone.

For the direct transmission of the proximity warning signals to the warning signal devices, a current proximity warning signal should be constantly transmitted repeatedly.

Particularly advantageous, however, is the transmission of the proximity warning signals to a traffic signal center which transmits current approach warning signals as part of broadcast signals comparable to known TMC traffic reports in the traffic message channel analog broadcast signals or preferably in the TPEG protocol (Transport Protocol Experts Group) of a digital broadcast signal in the DAB (Digital Audio Broadcast) standard.

The spatial position of the hazardous zone can be transmitted, for example, as hazard zone identification in the proximity warning signal. However, it is also conceivable that only one hazard zone identification in the proximity warning signal is transmitted to the road users. On the basis of a digital map can then be read from the warning signal device from the hazard zone identification, the associated location position.

For example, these location locations may be uniquely identifiable in the WGS 84 coordinate system.

The approach signal device and / or the warning signal device is preferably connectable to a satellite positioning module for determining the current position of the associated vehicle. In this case, the satellite positioning module can be completely or partially self-contained or integrated in the corresponding signaling device.

The minimum distance between the railway vehicle and hazard zone, upon reaching the approach warning signal is emitted, for example, can be entered by the driver in the approach signal device. It can also be variably calculated based on control parameters. Such control parameters can, for. As the speed of the railway vehicle and the weather. The speed of the railway vehicle and the minimum distance to be set results in a time until the hazardous zone is reached. From the weather, braking distances can be derived for typical vehicles. The longest assumed braking distance determines the minimum warning time, which in turn determines the minimum distance with a factor.

Figur 1 -

Blockdiagramme einer Eisenbahnwarneinrichtung mit Annäherungssignalgerät und Warnsignalgerät;

Figur 2 -

Skizze eines sich an einen Bahnübergang annähernden Eisenbahnzuges und Rundfunkübertragung eines Annäherungswarnsignals an andere Verkehrsteilnehmer.

The invention will be explained in more detail with reference to an embodiment with the accompanying drawings. Show it:

FIG. 1 -

Block diagrams of a railway warning device with proximity signal device and warning signal device;

FIG. 2 -

Sketch of a railway train approaching a railroad crossing and broadcasting a proximity warning signal to other road users.

1 shows a railway warning device 1, which is constructed as a system of a plurality of approach signal devices 2 and warning signal devices 3. The approach signal devices 2 are here installed in railway vehicles. The degree of expansion can be increased gradually, without affecting the functionality of the system itself.

The approach signal devices 2 can be connected to satellite positioning modules 4, which are often already present in railway vehicles, for determining the current spatial position of the railway vehicle. Optionally, such a satellite positioning module 4 can be completely or partially integrated into the approach signal device 2.

A signal control unit 5 of the proximity signal device 2 is stored with data memory 6 in which a digital map with hazardous zones. These hazard zones can be, for example, railroad crossings, which are identified with identifiers and location positions, for example in WGS 85 coordinates.

Depending on the current spatial position of the railway vehicle and the next danger zone stored in the data memory 6, the transmission of an approach warning signal via a data radio module 7 of the proximity signal device 2 is triggered by the control unit 5 when a predetermined minimum distance is reached. This proximity alert signal is unidirectional directly to the environment of the railway vehicle or transmitted for indirect distribution to a traffic control center (V).

The warning signal devices 3 which can be installed in motor vehicles of other road users have a data radio unit 8 tuned to the transmission frequency of the radio data modules 7 of the approach signal devices 2 or to the reception of proximity warning signals for directly receiving the proximity warning signals in the vicinity of the hazardous zone or for indirect reception. For indirect reception, the traffic control center (V) causes a transmission of the current proximity warning signals in the TPEG protocol of a DAB broadcast signal.

The warning signal devices 3 also have a control unit 9, which is connected to the data radio unit 8 and an internal or external satellite positioning module 10 for determining the current position of the motor vehicle. From the current spatial position and an identifier sent in the proximity warning signal of the hazardous zone is then determined in the control unit 9 of the warning signal device 3, whether a hazard exists. Then an audible or visual warning signal is output and possibly even actively intervened in the vehicle control.

The current spatial position of the hazard zone can be transmitted as part of the approach warning signal from the approach signal devices 2. But it is also conceivable that the warning signal devices 3 have access to data storage 11, in which also identifiers of hazardous zones, such. B. are stored only local positions. This can be realized, for example, in conjunction with a conventional navigation system. For this case, it is only necessary that the request warning signal transmits a unique identifier of the hazardous zone, such as a railroad crossing.

In order to be able to realize different expansion stages, it is conceivable that the approach warning signal transmits both a spatial position of the hazardous zone and another identifier and the warning signal devices 3 optionally evaluate one of these information or redundancy both information.

FIG. 2 shows a sketch of a railway train 12 which moves on a railway track 13 in the direction of a railroad crossing 14. The railroad crossing 14 forms an intersection with a road 15, on which motor vehicles 16 approach the railroad crossing 14.

In the railway train 12, an approach signal device 2 described above and installed in motor vehicles 16, the warning signal device 3 described above.

For the warning of the motor vehicle driver in front of the approaching railway train 12 to the railroad crossing 14, the signal control unit 5 of the approach signal devices 2 determines the distance to the next railroad crossing 14, that is to the next hazardous zone. This is done, for example, by means of position determination and comparison with a digital map on which the position or positions of hazardous zones are stored.

After reaching a minimum distance d _train before the danger zone, that is, the railroad crossing 14, within which the approach signal device 2 unidirectionally causes the continuous transmission of the approach warning signal as a broadcast signal, is dependent on the speed of the train 12 and the braking distance d _car , which requires a motor vehicle, to get from the maximum speed to standstill.

Since the braking distance is also influenced by the type of vehicle, by the nature of the road surface and possibly by covering with, for example, ice or leaves, the signal control unit 5 of the approach signal devices 2 starts from the maximum necessary braking distance. It is assumed that the brakes of a motor vehicle 16 are working properly and the tires of the motor vehicle 16 of the season is appropriate. In addition to cars and buses and trucks and motorized two-wheelers should be included in the consideration, so that the warning signal device 3 can also be implemented in these vehicles.

When determining the minimum distance d _zug , the time for processing the signal and the so-called "moment of shock" as well as a possible (informal) visual indication of the potential danger, even before emergency braking is necessary, are taken into account. Thus, even at a greater distance to the level crossing 14 by the driver can be seen that a train 12 approaches. With unrestricted and defective level crossings, this can be life-saving. Also, subsequent vehicles are not surprised by a sudden braking of the vehicle in front, which in turn can reduce the number of rear-end collisions before level crossings 14. The control unit 9 of the warning signal devices 3 in the motor vehicles also determines the spatial position of the motor vehicle. Upon receipt of the approach warning signal from an approach signal device 2 of the railway train 12, the received identification of the level crossing 14 is to be compared with the distance ahead of the motor vehicle 16. If the level crossing 14 in the probable route of the motor vehicle, it is checked by the control unit 9 of the warning signal device 3, if the vehicle speed of the motor vehicle of the situation that a train 12 approaches the level crossing 14, and the distance of the motor vehicle 16 to the danger point is appropriate. When the speed is excessive for the situation, the control unit 9 of the warning signal device 3 generates a warning signal which indicates to the driver both visually and acoustically the potential danger at the level crossing 14. For the output of the warning signal or complete or partial realization of the warning signal device 3, a possibly existing navigation system or car radio can be used.

The warning signal, however, only becomes active when the motor vehicle 16 approaches the level crossing 14 at a speed inadequate for the situation, that is to say when comfortable braking, as expected by an attentive, responsible driver, is no longer possible. The driver can then initiate emergency braking in good time, but is not unnecessarily irritated or even annoyed by the acoustic message.

In order to avoid unnecessary annoyance of the driver, it is also advantageous, including the road and a possible operation of the direction indicator or to evaluate a steering wheel angle. If the road runs parallel to the railroad tracks and if neither the turn signal is actuated in the direction of the railroad tracks nor the steering wheel is turned, warning can be dispensed with. The same applies if the platform is approached and there is still a possibility for turning, which is chosen by the driver. Optionally, a route entered in a navigation system may also be considered.

Therefore, it is very advantageous if the warning signal device 3 has an optionally usable interface for connecting navigation devices for data exchange or is integrated in such a navigation device.

Claims (17)

Railway warning device (1) for warning road users of the approach of railway vehicles (12) to hazardous zones with approach signal devices (2) which can be installed in railway vehicles (12) and which have a data radio unit (7) for transmitting an approach warning signal via radio directly or indirectly to other road users , and with warning signal devices (3) for installation in vehicles (16) of other road users with a data radio unit (8) for receiving proximity warning signals, characterized in that the proximity signal devices (2) have access to a current location position of the railway vehicle (12) and a list with location positions of hazard zones and has a signal control unit (5) to emit an approach warning signal with the data radio unit (7) depending on the position of the next hazardous zone in the list, and that the warning signal devices (3) are placed in a vehicle (16). egg ngebauten state have access to the current position of the respective vehicle (16) in order to receive the warning signal depending on the current position of the Vehicle (16) and the spatial position of the approximation warning signal relevant hazard zone to generate a warning signal. Railway warning device (1) according to claim 1, characterized in that the approach signal devices (2) are set up for the continuous repeating transmission of proximity warning signals for direct reception by warning signal devices (3). Railway warning device (1) according to claim 1, characterized in that the approach signal devices (2) for the transmission of proximity warning signals to a traffic control center (V) are set up and the traffic control center (V) for broadcasting current received Näimmwarnsignale provided as part of a broadcast signal to warning signal devices (3) is. Railway warning device (1) according to claim 3, characterized in that the approach warning signals are transmitted as part of a TPEG protocol (Transport Portocol Experts Group) of a digital broadcasting signal and the warning signaling devices (3) are set up to extract the proximity warning signals from the TPEG protocol. Railway warning device (1) according to one of the preceding claims, characterized in that the proximity warning signal contains the location position of the associated hazard zone as risk zone identification. Railway warning device according to one of the preceding claims, characterized in that the approach signal device (2) and / or warning signal device (3) with a satellite positioning module (4,10) for determining the current position of the associated vehicle is connectable. Railway warning device (1) according to one of the preceding claims, characterized in that the signal control unit (5) of the proximity signal device (2) and / or the signal control unit (8) of the warning signal device (3) is connected to a data memory (6, 11) containing a digital map and the digital map contains identification numbers and location of hazardous zones, in particular of level crossings. Railway warning device (1) according to one of the preceding claims, characterized in that the approach signal devices (2) are set up to determine the minimum distance from a hazardous zone as a function of the weather and a maximum braking distance of an assumed vehicle determined therefrom. Proximity signal device (2) for installation in railway vehicles (12) for the railway warning device (1) according to one of the preceding claims with a data radio unit (7) for transmitting an approach warning signal via radio directly or indirectly to other road users, characterized in that the proximity signal device (2) has access to a current location position of the railway vehicle (12) and a list of location locations of hazard zones and a signal control unit (5) to emit an approach warning signal to the data radio unit (8) depending on the location of the next hazardous zone in the list. An approach signal device (2) according to claim 9, characterized in that the data radio unit (7) for direct or indirect via a traffic control center (V) taking place transmission of the approach warning signal is set up to a traffic control center. Approaching signal device (2) according to claim 9 or 10, characterized by a satellite positioning module (4) for determining the current spatial position of the railway vehicle (12). Proximity signal device according to one of Claims 9 to 11, characterized by a data memory (6) containing a digital map and connected to the Signal control unit (5) is connected, wherein the digital map identification numbers and location positions of hazardous zones, in particular of level crossings includes. Proximity signal device (2) according to any one of claims 9 to 12, characterized in that the signal control unit (5) is set up to determine the minimum distance from a hazard zone depending on the weather and a maximum braking distance of an assumed vehicle determined therefrom. Warning signal device (3) for installation in vehicles (16) with a data radio unit (8) for receiving approach warning signals for the railway goods device according to one of claims 1 to 8, characterized in that the warning signal device (3) in a vehicle (16) installed state having access to the current location position of the motor vehicle (16) to generate a warning signal upon receipt of the warning signal in response to the current location position of the vehicle (16) and the position of the danger zone concerned the proximity warning signal. Warning signaling device (3) according to claim 14, characterized in that the warning signal device (3) with a satellite positioning module (10) for determining the current position of the vehicle (16) is connectable. Warning signal device (3) according to any one of claims 14 or 15, characterized in that the warning signal device (3) has data memory (11) for storing a digital map, wherein the digital map identification numbers and location of hazard zones, in particular of level crossings includes. Warning signal device (3) according to any one of claims 14 to 16, characterized in that the warning signal device (3) is a navigation device for route guidance with warning signal function.

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