DE102012217777A1 - Control of a rail vehicle - Google Patents

Abstract

It is proposed to use an infill balise to provide a state of a line component (e.g. a signal) lying ahead in the direction of travel, with the infill balise initiating an ETCS mode change of the rail vehicle depending on the state of the line component, provided the rail vehicle is in a manual driving mode or is not in a monitored driving mode. The solution presented has the advantage that the infill balise can also be used to ensure security in a manual ETCS mode (e.g. an SR mode or an OS mode). The solution can preferably be used in conjunction with ETCS Level 1 applications.

Description

The invention relates to a method for controlling a rail vehicle, an associated system and a corresponding ETCS route equipment.

The European Train Control System (ETCS) is a component of a single European rail traffic control system, developed under the abbreviation ERTMS. The second technical component of this digital railway technology is the GSM-R railway mobile communications system. ETCS is intended to replace the large number of train control systems used in the countries, to be used in high-speed traffic in the medium term, and to be implemented in the long term throughout the European rail traffic.

An ETCS vehicle device includes, for example, a European Vital Computer (EVCS) computer, a Driver Machine Interface (DMI), a pathway meter, a GSM-R transmission facility (including Euroradio), a balise reader, and a brake access (FIG. http://de.wikipedia.org/wiki/ETCS ).

ETCS Level 1 uses balises as transmission medium. The information conveyed by the balises are line gradients, maximum line speeds and the point at which the vehicle should stop. Together with the mode these form the Movement Authority (MA), translated as "permission to move" or "driving license". This means that the on-board ETCS equipment can continuously monitor compliance with the permitted speed (and direction) and initiate emergency braking in good time, regardless of nationally defined route geometries and signal distances.

At the end of the MA (End of Authority, EoA) - classically a signal pointing to HALT - the rail vehicle is to come to a halt.

• – FS (Full Supervision) Modus: Das Schienenfahrzeug wird voll vom ETCS überwacht. Voraussetzung für diesen Modus ist, dass eine MA von der Strecke gegeben wurde.
• – SR (Staff Responsible) Modus: Der Triebfahrzeugführer ist selbst für die Sicherung des Zuges verantwortlich, allerdings ist in vielen Ländern nur eine maximale Geschwindigkeit von 30km/h oder 40km/h erlaubt, die noch vom ETCS überwacht wird. Dieser Modus wird eingenommen, wenn keine MA vorliegt.
• – OS (On Sight) Modus: Das Schienenfahrzeug wird vom ETCS überwacht, aber der Triebfahrzeugführer fährt auf Sicht.
• – SH (Shunting) Modus: Modus zum Rangieren; der erlaubte Bereich kann vom ETCS vorgegeben werden; in vielen Ländern ist nur eine Höchstgeschwindigkeit von 30km/h erlaubt.

In addition to ETCS levels, ETCS modes are also defined. The modes describe the states in which the EVC can be located. Among other things, there are the following modes (see also: http://de.wikipedia.org/wiki/ETCS ):

• - FS (Full Supervision) Mode: The rail vehicle is fully monitored by the ETCS. The prerequisite for this mode is that an MA was given off the track.
• - SR (Staff Responsible) Mode: The driver is responsible for securing the train himself, but in many countries only a maximum speed of 30km / h or 40km / h is allowed, which is still monitored by the ETCS. This mode is taken if there is no MA.
• - OS (On Sight) Mode: The rail vehicle is being monitored by the ETCS, but the driver is driving on sight.
• - SH (Shunting) mode: Shunting mode; the permitted range can be specified by the ETCS; in many countries only a maximum speed of 30km / h is allowed.

1 shows a schematic representation to illustrate the situation: On a route 101 rail vehicles operate at a high speed, eg 300km / h. Furthermore, there is a branch 102 from the track 101 shown, which may be part of a railway station, for example, and a rail vehicle 103 allows the route 101 to leave and on the junction 102 to stop. The branch also has a signal 104 with a balise 105 on.

Now it is possible that a rail vehicle 103 in SR mode on the branch 102 moves. The signal 104 points to HALT, an extension to the track 101 should be avoided.

Here, the maximum speed allowed in the SR mode is still significantly higher than a speed ("release speed") that a rail vehicle usually travels at the end of the MA (EoA) when crossing the balise 105 Has. The train driver brakes the rail vehicle 103 not in time for the balise 105 off, so the balise causes 105 an emergency stop. Due to the speed that is possible in SR mode, the path for emergency braking may not be sufficient for the rail vehicle 103 before the partial entrance to the track 101 comes to a stop. The rail vehicle 103 exceeds a given danger point. Because of the high-speed route 101 such a situation must be prevented.

The object of the invention is to avoid the above-mentioned disadvantages and in particular to prevent a dangerous situation from occurring.

This object is achieved according to the features of the independent claims. Preferred embodiments are in particular the dependent claims.

• – bei dem mittels einer Infill-Balise ein Zustand von einer in Fahrtrichtung vorausliegenden Streckenkomponente bereitgestellt wird,
• – bei dem abhängig von dem Zustand der vorausliegenden Streckenkomponente die Infill-Balise einen ETCS Moduswechsel des Schienenfahrzeugs veranlasst, sofern sich das Schienenfahrzeug in einem manuellen Fahrmodus oder nicht in einem überwachten Fahrmodus befindet.

To achieve the object, a method for controlling a rail vehicle is proposed,

• In which a state is provided by means of an infill balise from a route component ahead in the direction of travel,
• In which, depending on the state of the route component lying ahead, the infill balise causes an ETCS mode change of the rail vehicle, provided that the rail vehicle is in a manual drive mode or not in a monitored drive mode.

In particular, the infill balise can be at least two balises (also referred to as a "balise group") to detect a direction of travel of the manual or non-monitored driving mode. In principle, any balise mentioned here (for example the signal balise) can be realized by means of at least one balise (balise group).

The presented solution has the advantage that security can also be ensured in an at least partially manual ETCS mode (for example an SR mode or an OS or FS mode) by means of the infill balise. The solution is preferably used in conjunction with ETCS Level 1 applications. Also, the efficiency of the railway system is increased with the solution proposed here, because depending on the state of a signal early a suitable reaction (initiation of a braking process, driving on, initiation of acceleration) can be performed.

The infill balise is thus provided in addition to a balise (e.g., a signal balise) located near the path component. The infill balise and this additional balise receive information regarding the condition of the route component. The control of the rail vehicle can thus take place taking into account the condition of the track component. Since the infill balise is upstream of the route component, the rail vehicle can react in good time to the condition of the route component, possibly to a change in the state of the route component.

• – die vorausliegende Streckenkomponente ein Signal ist, das einen Zustand HALT oder einen Zustand DURCHFAHRT aufweisen kann,
• – wobei für den Fall, dass der Zustand des Signals HALT ist, die Infill-Balise einen ETCS Moduswechsel des Schienenfahrzeugs veranlasst, sofern sich das Schienenfahrzeug in einem manuellen Fahrmodus oder nicht in einem überwachten Fahrmodus befindet.

One training is that

• The preceding route component is a signal that can have a state STOP or a state TRANSMISSION,
• Wherein, in the event that the state of the signal is HALT, the infill balise causes an ETCS mode change of the rail vehicle, if the rail vehicle is in a manual drive mode or not in a monitored drive mode.

A further development is that in the event that the state of the signal is TRANSMISSION, the infill balise does not cause ETCS mode change.

In particular, it is a further development that the ETCS mode change comprises a change to the monitored driving mode, which in particular initiates a braking operation, so that the rail vehicle comes to a standstill until the end of the authorization to move.

Preferably, the infill balise, e.g. depending on the state of the signal, information on how far the authorization for movement (MA) exists (for example, such information results from a known distance to a subsequent balise and a signal state HALT); without another MA, the rail vehicle stops. This mechanism can be used with a corresponding change in the monitored ETCS mode, so that the rail vehicle can e.g. stops before a signal, or at least before a danger point.

It is also a development that the Infill-Balise does not cause ETCS mode change of the rail vehicle, if the rail vehicle is in the monitored driving mode or in a shunting mode.

Furthermore, it is a development that the monitored driving mode is an ETCS FS mode.

In the context of an additional development, the shunting mode is an ETCS SH mode.

A next development is that the manual drive mode is an ETCS SR mode or an ETCS OS mode.

An embodiment is that in addition to the infill balise, the state of the forward path component of another balise, e.g. a Signalbalise (ngruppe), is provided in the vicinity of the route component lying ahead.

One embodiment is that the distance between the infill balise and the other balise is dimensioned so that a deceleration of the rail vehicle to a standstill until reaching the other balise or before a danger point is possible.

A next embodiment is that the infill balise causes an ETCS mode change of the rail vehicle by using an identifier of the further balise instead of the identifier of the infill balise for the infill balise.

For example, in the event that the signal is on HALT, for example, the identification of the infill balise equal to the identification of the other balise 205 be set (and thus not the infill data packet to be sent).

• – eine Signalisierungseinheit für eine Geschwindigkeitsbegrenzung, insbesondere eine vorübergehende Geschwindigkeitsbegrenzung,
• – eine Weiche,
• – ein Bahnübergang,
• – eine Komponente des Bahnbetriebs, die mindestens einen Zustand aufweisen kann, wobei der Zustand mittels einer Balise dem Schienenfahrzeug bereitstellbar ist.

It is also an embodiment that the route component comprises at least one of the following components:

• A speed limit signaling unit, in particular a temporary speed limit,
• - a switch,
• - a railroad crossing,
• - A component of the railway operation, which may have at least one state, wherein the state by means of a balise the rail vehicle is available.

The statements concerning the method apply correspondingly to the other categories of claim.

• – mit einer in Fahrtrichtung vorausliegenden Streckenkomponente,
• – mit einer Infill-Balise, der ein Zustand der vorausliegenden Streckenkomponente bereitstellbar ist,
• – mit einer weiteren Balise in der Nähe oder kurz vor der vorausliegenden Streckenkomponente, der der Zustand der Streckenkomponente bereitstellbar ist,
• – bei dem abhängig von dem Zustand der vorausliegenden Streckenkomponente die Infill-Balise einen ETCS Moduswechsel des Schienenfahrzeugs veranlasst, sofern sich das Schienenfahrzeug in einem manuellen Fahrmodus oder nicht in einem überwachten Fahrmodus befindet.

The above object is also achieved by means of a system for controlling a rail vehicle

• - with a route component ahead in the direction of travel,
• With an infill balise, which can provide a state of the preceding route component,
• With another balise near or just ahead of the forward path component to which the condition of the path component can be provided,
• In which, depending on the state of the route component lying ahead, the infill balise causes an ETCS mode change of the rail vehicle, if the rail vehicle is in a manual drive mode or not in a monitored drive mode.

• – mit einer Infill-Balise,
• – mit einer weiteren Balise in der Nähe einer Streckenkomponente, wobei die weitere Balise in Fahrtrichtung nach der Infill-Balise angeordnet ist,
• – wobei abhängig von dem Zustand der vorausliegenden Streckenkomponente die Infill-Balise einen ETCS Moduswechsel des Schienenfahrzeugs veranlasst, sofern sich das Schienenfahrzeug in einem manuellen Fahrmodus oder nicht in einem überwachten Fahrmodus befindet.

Furthermore, the above object is achieved by means of an ETCS route equipment

• - with an infill balise,
• With another balise in the vicinity of a route component, wherein the further balise is arranged in the direction of travel after the infill balise,
• Wherein, depending on the state of the forward link component, the infill balise causes ETCS mode change of the rail vehicle, if the rail vehicle is in a manual drive mode or not in a monitored drive mode.

A further development consists in that the infill balise of the further balise is arranged at such a distance that a rail vehicle can initiate a braking process when the infill balise is passed over, so that braking of the rail vehicle to a standstill until reaching the other balise or before a danger point is possible.

An additional embodiment is that the distance between the infill balise and the other balise is at least 100m, at least 150m, at least 200m or at least 240m.

The above-described characteristics, features and advantages of this invention, as well as the manner in which they are achieved, will become clearer and more clearly understood in connection with the following schematic description of an embodiment which will be described in detail in conjunction with the drawings. In this case, the same or equivalent elements may be provided with the same reference numerals for clarity.

Show it:

2 a schematic representation of a railway line with a first route and a second route, wherein the second route can be driven at a high speed, which is ensured by means of an infill balise that a rail vehicle not accidentally beyond a danger point in the area of the second route retracts;

3 an example of a flowchart illustrating possible ETCS mode change using the infill balise.

2 shows a schematic representation of a railway line with a first route 201 and a second route 202 , where the second route 202 For example, driving at high speed and the first route 201 For example, part of a train station.

For simplicity's sake 2 a driving operation in one direction of travel 206 The present invention is also applicable to rail vehicles traveling in different directions.

A rail vehicle 203 drives in an SR mode into the track 202 a, a signal 204 stands on HALT, the rail vehicle 203 should be on the track 202 come to a stop and not on the track 201 endanger passing traffic. At the signal 204 is a balise 205 intended.

Passes the rail vehicle 203 an infill balise 207 so prompt the infill balise 207 in that a change of the ETCS mode takes place in FS, with the authorization to move (MA) to the signal 204 ends. The rail vehicle 203 is then braked automatically and arrives in good time before entering a danger zone of the route 201 to stand.

If the signal 204 is on TRANSITION, ie a stop of the rail vehicle not is required, the infill balise behaves 207 as a normal infill balise and puts the rail vehicle 203 merely provide information without, for example, initiating a braking action or initiating a mode change.

One possible realization is that the infill balise 207 the information of the signal 204 is provided and the infill balise 207 usual infill telegrams (with an infill data packet) the rail vehicle provides, if the signal 204 is on TRANSIT. If the signal 204 is on HALT, behaves the infill balise 207 for example, like the balise 205 and causes the switch to the FS mode as well as causing the signal to stop 204 , This can be achieved by going for this case (signal 204 stands on HALT) eg the identification of the infill balise 207 equal to the identification of the balise 205 is set (and thus not the infill data packet is sent).

3 shows by way of example a flow chart for illustrating possible ETCS mode changes by means of the infill balise 207 , In one step 301 it checks if the signal 204 is on TRANSIT or HALT. Is the signal 204 on the way through, it becomes a step 302 branches, the infill balise 207 acts only as an infill balise, providing information, but does not cause ETCS mode switching, in particular, no ETCS mode switch to a monitored ETCS mode.

If the signal is on HALT, it takes place in one step 303 a change to the FS mode and the rail vehicle stops at the signal. If the railcar was already in the FS mode, it remains in the FS mode and its MA ("driving license", see above) is adjusted if necessary, eg shortened, so that it stops at the signal. If the rail vehicle was in OS mode, it will switch to FS mode and its MA will be adjusted if necessary.

Alternatively, it is possible that the rail vehicle was in FS mode and changes to OS mode. The MA will be adjusted if necessary. If the railcar was already in OS mode, it will remain in OS mode and its MA will be adjusted if necessary.

Thus, a MA transmitted to the rail vehicle specifies either FS or OS mode, preferably the FS mode, to avoid otherwise possibly required emergency braking.

It should be noted that preferably the infill balise 207 taking into account the particular circumstances or the layout of the routes 201 and 202 far from the balise 205 is arranged so that a braking operation depending on the maximum speed in SR mode, for example, taking into account processing times of the control units and delays (due, for example, by building a brake pressure) is feasible so that the rail vehicle 203 comes to a stop in time.

Preferably, the infill balise represents 207 For a rail vehicle that is already in FS mode, only information is ready and does not change the ETCS mode.

The above statements for the SR mode also apply accordingly to an OS mode. One option is that of the infill balise 207 for a rail vehicle in a shunting mode (SH mode) no change of the mode is caused.

It should be noted that optionally infill telegrams (including infill data packets) can be ignored by the ETCS computer when the rail vehicle is in SR mode.

One option is that a position that is scheduled for an odometry balise can be used for the infill balise. In particular, an existing odometry balise can be supplemented or replaced. In this case the Odometry-Balise becomes Infill-Balise as described above; Advantageously, no further balises need to be laid.

The presented solution has the advantage that by means of the infill balise security can also be ensured in an at least partially manual ETCS mode (for example an SR mode or an OS mode). The solution is preferably used in conjunction with ETCS Level 1 applications. Also, the efficiency of the railway system is increased with the solution proposed here, because depending on the state of the signal early on a suitable reaction (initiation of a braking process, driving on, initiation of acceleration) can be performed.

While the invention has been further illustrated and described in detail by the at least one embodiment shown, the invention is not so limited and other variations can be derived therefrom by those skilled in the art without departing from the scope of the invention.

LIST OF REFERENCE NUMBERS

101

route

102

diversion

103

track vehicle

104

signal

105

Balise

201

route

202

route

203

track vehicle

204

signal

205

Balise

206

direction of travel

207

Infill Balise

301-303

Steps of a procedure for performing ETCS mode changes by means of an infill balise

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited non-patent literature

• http://en.wikipedia.org/wiki/ETCS [0003]
• http://en.wikipedia.org/wiki/ETCS [0006]

Claims (16)

Method for controlling a rail vehicle ( 203 ), - in which by means of an infill balise ( 207 ) a state of a track component ahead in the direction of travel ( 204 ) depending on the condition of the preceding route component ( 204 ) the infill balise an ETCS mode change of the rail vehicle ( 207 ), if the rail vehicle is in a manual drive mode or not in a monitored drive mode. Method according to claim 1, - in which the preceding route component is a signal comprising a state HALT or a state PASSING, - in the case where the state of the signal is HALT, the infill balise causes an ETCS mode change of the railway vehicle ( 304 ), if the rail vehicle is in a manual driving mode or not in a monitored driving mode ( 303 ). Method according to Claim 2, in which, in the event that the state of the signal is TRANSMISSION, the infill balise does not cause an ETCS mode change ( 302 ). Method according to one of the preceding claims, in which the ETCS mode change comprises a change to the monitored driving mode, which in particular initiates a braking operation, so that the rail vehicle comes to a standstill until an end of the authorization to move. Method according to one of the preceding claims, wherein the infill balise does not cause ETCS mode change of the rail vehicle, if the rail vehicle is in the monitored driving mode or in a shunting mode. The method of claim 5, wherein the monitored driving mode is an ETCS FS mode. The method of claim 5, wherein the shunting mode is an ETCS SH mode. Method according to one of the preceding claims, wherein the manual driving mode is an ETCS SR mode or an ETCS OS mode. Method according to one of the preceding claims, in which in addition to the infill balise ( 207 ) the state of the preceding route component ( 204 ) another Balise ( 205 ) in the vicinity of the preceding route component ( 204 ) provided. Method according to claim 9, wherein the distance between the infill balise ( 207 ) and the other balise ( 205 ) is dimensioned so that a deceleration of the rail vehicle to a standstill until reaching the other balise or before a danger point is possible. Method according to one of claims 9 or 10, in which the infill balise causes an ETCS mode change of the rail vehicle by using an identifier of the further balise for the infill balise instead of the identifier of the infill balise. Method according to one of the preceding claims, in which the route component comprises at least one of the following components: A speed limit signaling unit, in particular a temporary speed limit, - a switch, - a railroad crossing, - A component of the railway operation, which may have at least one state, wherein the state by means of a balise the rail vehicle is available. System for controlling a rail vehicle ( 203 ), - with a route component ahead in the direction of travel ( 204 ), - with an infill balise ( 207 ), which is a state of the preceding route component ( 204 ) is available, - with another Balise ( 205 ) near or just ahead of the route component ( 204 ), the condition of the route component ( 204 ) can be provided, - in which, depending on the condition of the preceding route component ( 204 ) the infill balise ( 207 ) an ETCS mode change of the rail vehicle ( 203 ), provided that the rail vehicle ( 203 ) is in a manual drive mode or not in a monitored drive mode. ETCS track equipment - with an infill balise ( 207 ), - with another Balise ( 205 ) near a route component ( 204 ), the other balises ( 205 ) in the direction of travel after the infill balise ( 207 ), depending on the condition of the preceding route component ( 204 ) the infill balise ( 207 ) an ETCS mode change of the rail vehicle ( 203 ), provided that the rail vehicle ( 203 ) is in a manual drive mode or not in a monitored drive mode. ETCS track equipment according to claim 14, wherein the infill balise ( 207 ) from the further balise ( 205 ) is arranged at such a distance, that a rail vehicle can initiate a braking process when passing over the infill balise, so that a deceleration of the rail vehicle to a stop until reaching the other balise or before a danger point is possible. ETCS route equipment according to one of claims 14 or 15, in which the distance between the infill balise ( 207 ) and the other balise ( 205 ) is at least 100m, at least 150m, at least 200m or at least 240m.

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