EP1645483A1 - System for announcing automatically approaching trains - Google Patents

Abstract

The system has a central section comparing a railway vehicle detection data with a stored working site related data and transmitting a warning information to a destination, upon determining approach of a vehicle towards a working site zone. The section communicates with passage detectors (181 - 184) and an alarm unit (20) by utilizing a mobile telephony network e.g. global system for mobile communication (GSM) network. An independent claim is also included for an announcement method for train or a railway vehicle.

Description

Technical area

The present invention generally relates to an automatic train announcement system.

State of the art

Such a system is generally intended to ensure the safety of persons working along a railway line, to prevent them from the arrival of a train or other railway vehicle on this track or on a neighboring track so that they get safe.

Typically, a "construction zone" is defined, for example having a length of several hundred meters in the center of an "announcement zone" whose ends are distant from said "construction zone" by a distance of several kilometers , usually 2 to 3 km. Detectors are installed on one of the tracks of the track to be monitored, at the ends of the "announcement zone" and connected to an alarm center located in the "construction site area" by means of electric cables. When the central alarm receives a signal from a detector indicating the passage of a train, it then triggers audible and visual alarms. To do this, the central alarm is connected to a plurality of beacons and horns (sirens) distributed over the construction site area. The exit of the train from the monitored area is preferably also detected by a detector connected to the central warning system, which allows the latter to automatically cut off the audible and visual alarms once the train has left the area.

It is therefore necessary, prior to the opening of a site, to transport long lengths of electrical cable on the site and then put these cables in place, which may require several days of work and involves the use of supplies. costly cables whose weight and volume require the use of heavy transport and installation equipment. Otherwise, these supplies are very vulnerable to theft and vandalism.

In order to simplify the installation of such a system, it has been proposed to connect the detectors to the radio alarm center. Unfortunately, there are many cases where radio links are hard to establish in a safe and permanent way: rugged terrain, traffic, trenches, heavy vegetation and overcrowded radio space can cause link disruptions. In addition, when the number of entry points of the area to be monitored increases, as each of the points must operate on its own channel (to avoid "hide" an announcement), the terrestrial reception systems quickly become very complicated and expensive to meet the safety criteria, and there is no formal assurance that during the duration of the construction site another user of the airwaves will not hide one of the hertzian channels during an announcement. Finally, there is frequently the problem of the range between the detectors and the central warning, which limits the site manager for the positioning of the detectors along the tracks to be monitored.

Object of the invention

The object of the present invention is to provide an automatic train announcement system or other rail vehicle does not have the disadvantages mentioned above, and offering great flexibility of use. According to the invention, this object is achieved by a system according to claim 1.

Another object of the present invention is to provide an improved method of automatically advertising a train or other railway vehicle. According to the invention, this object is achieved by a method according to claim 8.

General description of the invention

• au moins un détecteur de passage pour émettre une information de détection d'un véhicule ferroviaire lors du passage d'un véhicule ferroviaire à un point donné d'une voie ferrée;
• des moyens d'alerte pour déclencher une alerte sur une zone de chantier lors de l'approche d'un véhicule ferroviaire; et
• une station centrale apte à recevoir des informations de détection d'un véhicule ferroviaire, à les comparer avec des données de chantier mémorisées concernant un ou plusieurs chantiers, et à émettre automatiquement une information d'alerte à destination desdits moyens d'alerte lorsque l'approche d'un véhicule ferroviaire de ladite zone de chantier est déterminée.

According to the invention, an automatic train announcement system or other railway vehicle comprises:

• at least one passing detector for transmitting a detection information of a railway vehicle during the passage of a railway vehicle at a given point of a railway line;
• warning means for triggering an alert on a construction site area when approaching a railway vehicle; and
• a central station adapted to receive detection information of a rail vehicle, to compare them with stored site data concerning one or more shipyards, and to automatically issue alerting information to said warning means when the approach of a railway vehicle of said construction zone is determined.

According to an important aspect of the invention, the central station communicates with each passage detector and the warning means via a mobile radio network.

It is therefore not necessary to pull the cables between the various elements of the system according to the invention. This results in a significant time saving when preparing and dismantling the site compared to conventional systems in which the devices are connected by cables. It will also be appreciated that employing mobile radio technology eliminates the range and site configuration problems encountered with traditional radio systems. In addition, one can take advantage of existing mobile network infrastructure for communication between the different elements of the system. The telephony network can be GSM, GPRS, UMTS etc., GPRS and UMTS systems, however, being preferred for their high rates.

It will also be noted that in the system according to the invention, a central station is used which does not need to be on the site. The central station is advantageously designed to store information concerning a plurality of sites. Each site is associated with a number of detectors and warning means. Thus, when a train passage information is received by the central station, it compares this information with the stored site data to determine which site it This is, and it then automatically sends alert information to the alert means of the corresponding yard to trigger them and thus notify the people there. It will be understood that in such a system, each detector and warning means is advantageously referenced by a unique identification number, which guarantees unambiguous identification. This identification can be based on the data of the telephone link (eg call number).

Preferably, the central station comprises a computer server with the interfaces for its programming and its use as well as the appropriate equipment to enable communication with the passage detectors and warning means via radiotelephone networks.

The system according to the invention proves to be extremely flexible for the users, for whom it is sufficient to indicate to the central station the detector / alarm device associations by building site, then to position the latter on the site area in question (or Conversely). At any time, you can replace a detector, resp. alerting means, by another. At the central station, for example, the substitution of the detector will be indicated by replacing the identification number of the old detector with that of the new one on the site concerned.

In order to facilitate site scheduling in the central station, this preferably includes a user interface (typically with screen, keyboard and mouse). In a preferred embodiment, the user interface is constituted by a portable computer, which is able to exchange data with the central station by the mobile radio network. This makes it possible to program or modify site compositions in the remote central station, for example when on a construction site area.

In practice, the positioning of the passage detectors and the warning means is normally done in a conventional manner. After delimiting a construction zone inside which we wish to warn people, we define a zone of announcement encompassing this zone of construction site, whose extremities are generally distant from the construction site by several kilometers. Passage detectors are then installed on both sides of the announcement area. If more than one lane passes through the construction zone then passing detectors will be placed on each lane at the end of the announcement area. In the central station, we will also indicate those detectors that are placed on the same track.

Preferably, the passage detector comprises a sensor connected to a control and communication unit comprising a detection module and a radiotelephone module. The sensor may be of the mechanical, electronic or optical type. Depending on the technology used, the sensor will be placed on a rail, between the rails, or near the track. It will therefore be possible to use a mechanical sensor, commonly called a "pedal", comprising a lever and positioned so as to be crossed during the passage of a train or other railway vehicle. Alternatively, the sensor could be based on laser technology.

However, according to a preferred variant, the sensor is of the magnetic type. The sensor is then constituted by a winding and the detection module determines the passage of a train based on a magnetic field variation caused by the presence of the metal mass of the train near the sensor. Note that a magnetic detection is advantageous in that it allows, with appropriate sensitivity, to detect the passage of all types of railway vehicles, whether it is a train, a single motor or specific maintenance vehicles. Moreover, there is no mechanical wear of the sensor.

For increased security of the system according to the invention, the detection module advantageously comprises a plurality of detection circuits coupled to the detector and which therefore serve simultaneously to detect the passage of a railway vehicle. The control and communication unit is then designed to determine the number or the rate of active detection circuits and transmit this information to the central station. In addition, the control and communication unit is able to determine a faulty operation of the detection module and / or the sensor (in particular in the event of breakage of the connection with the sensor) and to transmit information relating to such events at the central station.

In some embodiments, the pass detector may also be designed to detect eg. the direction of circulation of the railway vehicle, its speed, or other parameters, and transmit them to the central station.

With regard to the warning means on the construction site area, these can take various forms, to the extent that they are able to be in communication with the central station via a mobile radiotelephone network. Preferably, the warning means comprise at least one warning unit on the construction site area. Each warning unit comprises a control and communication unit comprising a mobile radio module, as well as at least one audible and / or visual warning device, typically beacon and / or siren, controlled by the control unit. and communication. The control unit and communication is of course in connection with the central station to receive the alert information and, in response, trigger the audible and / or visual warning devices. Alternatively, the alerting means can take the form of mobile telephone terminals with ringing and / or vibrating functions to warn people who wear them the approach of a train.

In order to guarantee the security character of the system according to the invention, the warning means are advantageously designed to automatically trigger an alert in case of breakage of the link with the central station. In addition, the alert means check their own operating status and transmit this information to the central station.

According to a preferred embodiment, the passage detectors and / or the warning means are provided with a positioning data receiver, whose positioning data are transmitted to the central station. Such a receiver is preferably a satellite positioning data receiver, for example a GPS receiver. The knowledge of these positioning data naturally allows an exact cartographic representation of the position of the detectors and / or warning means on a map. It will be appreciated that the monitoring of the position of each detector passing through the central station (or the detector itself) makes it possible to determine any movement of one of these, whether of accidental origin or due to malevolence, and to trigger in response an alert on the construction site area. The position information also makes it possible, when the system is put back into service (in the morning, for example), to check that each element is in its place. Such a position control is yet another aspect of the high level of security of the system according to the invention.

Stopping audible and / or visual warning devices of warning units will be made to order from the central station, after it has been determined that the train has left the surveillance zone. This can be done in many ways.

For example, the stop of the alert on the building site could be triggered manually. In this case, it can be provided on the alert means an alarm stop button, the actuation of which would be transmitted to the central station, which would return information to stop the alerts on the warning means.

An automatic solution using a pass detector is however preferred. For example, it will be possible to use the train passage information that will be emitted when the train leaves the announcement zone by passing vertically of the passing detector located on the other side of the announcement zone (detector opposite to that which has detected entry into the ad area). Alternatively, it will be possible to use additional passage detectors, for example placed inside the advertisement area but outside the construction zone.

It will also be noted that if a passing detector and / or warning means are to be placed in areas poorly covered by the radiotelephone network, their radiotelephone modules can be replaced by models better adapted to these conditions (notably more powerful ).

The central station therefore receives a plurality of information which are preferably used to determine the entrances and exits of trains of the construction zone, resp. of the announcement zone, as well as alert situations due to malfunctioning detectors or warning means, or to breaks in connection. The triggering of the alerts and the stopping of the alerts will thus preferably depend on all these parameters and not only on the entry / exit of a train. Thus, even if the central station determines that a train has left the surveillance zone, and thus no longer represents a danger to the people on the construction site area, it will stop alerts on the warning means only if no other situation alert does not exist.

According to another aspect of the invention, there is provided a method of automatically announcing a train or other railway vehicle to warn people on a construction site area along a railway line, in which the passage of a vehicle is detected. at a given point in the railway line by means of a passing detector, and the approach of a railway vehicle is signaled on the worksite area by means of warning means. According to the present method, following the detection of a railway vehicle by the passing detector, a railway vehicle detection information is transmitted to a central station, which after receiving this railway vehicle detection information compares it with information stored on sites, and when the comparison indicates the approach of a rail vehicle of a construction site area, generates alert information for the warning means on this site area to trigger an alert.

It will be appreciated that the passage detector and the warning means each communicate with the central station via a mobile radio network.

In practice, several passage detectors can be used on the same site, depending on the number of lanes crossing the construction site. In addition, the central station may include stored information concerning several sites. The central station will therefore be programmed to determine which shipyard is affected by the train detection information and thus identify the warning means to which the warning information must be sent.

Preferably, the passage detector and the warning means are in permanent connection with the central station. This means that the links telephone calls are not interrupted between the exchanges of information between the different elements. There is therefore no need to initiate a new communication when information must be transmitted to one of the elements. This procedure is extremely advantageous because it avoids the possible successive failures that may occur when attempting to establish a connection with a radiotelephone network.

In addition, for security reasons, an alert is preferably triggered on the warning means as soon as a link interruption is detected between the central station and a passing detector or between the central station and warning means. .

According to a preferred embodiment of the present method, the passage detectors and the warning means transmit status information to the central station. This status information is sent at predetermined time intervals. In order to carry out real-time monitoring, this time interval is preferably of the order of 1 s to 5 s. In addition, the central station transmits alert state information at predetermined intervals to the alert means. Good reception of status information in the central station and alert information in the warning means is therefore an indication that the radiotelephone links are not interrupted.

The status information and alert information may include a variety of data, which may be exploited to determine alert situations requiring the triggering of the alert means.

For the passage detector, the status information transmitted by the latter will preferably include a presence information of a train, which will indicate either the detection of a railway vehicle (train or other) by the detector, or the non-detection of a vehicle. In order to identify the detector that transmits the status information, it is possible to add an identification number to this status information or to use certain data of the telephone link (eg the call number). In addition, the status information periodically transmitted by the detector may include at least one of the following information: state of the battery; state of the detection circuit; signal strength; positioning data; meaning of the railway vehicle.

It will be appreciated more particularly that the knowledge of the positioning data makes it possible to avoid an accidental or malicious movement of the detector (s) of passage, which could endanger the people on the construction site area. Thus, according to an advantageous variant, if the analysis of the positioning data provided by a detector indicates a movement thereof, which is not confirmed at the central station, then the latter triggers alerts on the means of alert of the yard concerned.

As regards the status information sent by the alerting means, they may comprise: at least one of the following information: identification number; state of the battery; state of alert devices; signal strength; positioning data.

The status information transmitted by the passage detectors and the warning means thus make it possible to check the correct operation of the system. In general, the central station will advantageously be programmed so that if it identifies a problem in the system on the basis of this status information, it triggers, optionally after validation by an operator, an alert on the warning means.

Finally, the alert status information sent by the central station to the alert means will preferably comprise either an alert indication or a standby indication, depending on whether the warning means must be triggered or not. .

Description of the drawings

Other features and characteristics of the invention will emerge from the detailed description of some advantageous embodiments presented below, by way of illustration, with reference to the appended FIG. This shows a diagram illustrating a site configuration equipped with the present automatic train announcement system.

Detailed description of some preferred embodiments

Fig.1 shows a diagram of a site configuration equipped with the present system of automatic announcement of train or other railway vehicle, according to a preferred variant. The reference signs 10 and 12 respectively indicate a first and a second railway track which cross a construction zone 14 which can extend over several hundred meters. On such a construction site, there is defined an announcement area, indicated by the arrow 16, which encompasses the construction area 14 and the ends of which are remote from the construction zone 14, typically several kilometers.

• des détecteurs de passage 18₁...18₄ pour détecter le passage d'un train ou d'un autre véhicule ferroviaire;
• des unités d'alerte 20 pour avertir les personnes sur la zone de chantier de l'approche d'un train ou autre véhicule ferroviaire; et
• une station centrale (non représentée) assurant la gestion du système et coordonnant notamment le déclenchement des unités d'alerte 20 lors de la détection d'un train ou autre véhicule ferroviaire par l'un des détecteurs de passage 18i.

The present system comprises a number of elements which are all capable of communicating with each other by a mobile radio network, in particular:

• passing detectors 18 ₁ ... 18 ₄ for detecting the passage of a train or other railway vehicle;
• warning units 20 for warning people on the construction site area of the approach of a train or other railway vehicle; and
• a central station (not shown) managing the system and coordinating, in particular, the triggering of the warning units 20 when a train or other railway vehicle is detected by one of the passage detectors 18i.

The communication between the various elements of the system being carried out via a radio network, the system allows a substantial time saving during the assembly and disassembly of the building site compared to systems communicating by cables. In addition, the system does not suffer from range problems or site configuration encountered with conventional radio systems. This allows large distances between different elements, for example by taking advantage of the existing infrastructure of the radiotelephone network. In particular, this makes it possible to install the central station away from the construction site area, for example in premises that may be located several hundred kilometers away. The radiotelephone network is for example a cellular radio network GSM, UMTS or GPRS.

As can be seen in FIG. 1, passage detectors 18 ₁ ... 18 ₄ are installed at the ends of the announcement zone 16, at given points known as "entry points", and this on each lanes 10 and 12.

Preferably, each detector 18i comprises a sensor connected to a control and communication unit provided with a detection module and a radiotelephone module (at least transmitter). The sensor is advantageously of the magnetic type and designed so as to be placed on the track between the rails. The use of a magnetic sensor makes it possible to base the detection of the passage of a train on the variation of magnetic field caused by the passage of a railway vehicle to the vertical of the sensor. The sensor may for example comprise a winding embedded in a plate of a rigid plastic material and having good weather resistance, for example ABS or PVC. The number of turns of the winding is to be determined according to the desired sensitivity and the dimensions chosen for the sensor. The control and communication unit, connected by cable to the sensor, is preferably located next to the track so as not to be covered during the passage of the train, which could disrupt the link with the central station.

For increased system security, the sensing module is redundantly designed, i.e. it includes a plurality of sensing circuits coupled to the coil and simultaneously performing the same measurement. The use of such a detection module with redundant detection circuits guarantees the operation of the detector, even if part of the detection circuitry becomes out of order. In addition, it will be appreciated that the control and communication unit is preferably designed to determine the percentage of detection circuits in operation as well as any operating problem of the detector 18i, and to transmit this information to the central station.

It will be noted that each passage detector 18i is advantageously equipped with a satellite positioning data receiver GPS, whose positioning data are preferably transmitted to the central station. The positioning data makes it possible, at the central station, to verify that the detectors 18i are in place, in particular that they have not been moved accidentally or maliciously.

Several warning units 20 (here three in number) of identical design are distributed over the construction zone 14. Each alert unit 20 comprises a control and communication unit, equipped with a mobile radio module (transmission reception), and at least one audible and / or visual warning device, for example two beacons and two sirens. The control and communication unit is designed to receive information from the central station via the radiotelephone module, and, depending on the nature of the information, trigger the warning devices to warn people on the work area. In addition, the control and communication unit is able to check its operating status, including the state of the alert devices, and to send this information to the central station. The internal verification of the operation of the beacons or sirens can be based for example on the current intensity delivered by these devices when they are active, a decrease in the current output being an indication of malfunction.

The central station plays a role of management / coordination of the train announcement system. It is designed to receive train detection information transmitted by the detectors 18 ₁ ... 18 ₄ , process this information to determine, by comparison with stored data on sites, if a train is approaching a train. and, if so, generate warning information for the warning units on the worksite concerned to warn people of approaching a train.

• un ensemble de communication pour émettre et recevoir des informations vers un réseau de radiotéléphonie mobile;
• une interface graphique gérant les échanges avec des moyens de visualisation et/ou d'impression;
• des interfaces d'entrée type clavier et/ou souris; et
• des moyens de mémorisation de masse.

According to a preferred embodiment, the central station comprises a control unit which comprises a microprocessor central unit associated with storage means, and interface elements managing the exchanges between the central unit and:

• a set of communication to send and receive information to a mobile radiotelephone network;
• a graphical interface managing the exchanges with viewing and / or printing means;
• keyboard and / or mouse type input interfaces; and
• mass storage means.

The central station makes it possible to monitor a plurality of building sites. For each construction site, site data is stored including in particular sets of passage detectors and warning units. In order to guarantee a unambiguous identification of the various elements of the system, each of the passage detectors and warning units has a unique identification number, e.g. the telephone number of his radiotelephone module.

For added security, the system is designed so that a major fault in the system, such as a radiotelephone link breakage with a detector or warning unit, or a malfunction of a detector, causes the system to fail. on alert and triggers alerts on all alert units. Control of the state of the links is preferably done by ensuring that there is good exchange of state information between the various elements of the system at predetermined time intervals.

It will also be noted that, if the central station will generally be located in premises, and can therefore be powered by an electrical network (sector), however preferably through an inverter, the passage detectors and warning units will typically be provided with a battery power supply. However, for long-term sites or for sustainable use, a mixed network / battery power supply may be provided, in order to switch to battery in the event of a network failure (national or railway-specific) and / or the use a charging system employing eg. solar panels.

Other conceptual and advantageous aspects of the present automatic train announcement system will also be apparent from the description of the operation of the system, in a preferred embodiment.

• chaque détecteur émet en permanence une information d'état qui comprend: son numéro d'identification, une indication que la voie est libre (pas de train détecté), le pourcentage de circuits de détection en état de marche, les données de localisation spatiale du récepteur GPS, l'état de la batterie, une indication de qualité de la liaison GSM, ou toutes autres informations concernant le détecteur.
• chaque unité d'alerte émet en permanence une information d'état qui comprend: son numéro d'identification, l'état de la batterie, une indication de qualité de la liaison GSM, éventuellement des indications de dysfonctionnement de dispositif d'alerte, le cas échéant des données de localisation spatiale si l'unité d'alerte est équipée d'un récepteur GPS.
• enfin, la station centrale émet également en permanence une information d'état d'alerte à destination des unités d'alerte. Cette information d'état d'alerte aura une valeur indicative d'un état de veille lorsque aucun train n'est en approche, et prendra une valeur indicative d'un état d'alerte lorsque la station centrale aura déterminé qu'une alerte doit être déclenchée (arrivée de train ou autre motif).

When there is no train in the announcement area, the system is in standby and the warning lights and horns of the alert units are inactive. However, there is an ongoing exchange (ie, at predetermined time intervals) of information between the different elements of the system:

• each detector continuously transmits status information which includes: its identification number, an indication that the channel is free (no detected train), the percentage of detection circuits in working order, the location data of the GPS receiver, battery status, indication of GSM link quality, or any other information about the detector.
• each warning unit continuously transmits status information which includes: its identification number, the battery status, an indication of the quality of the GSM link, possibly indications of malfunction of the warning device, the where appropriate, spatial location data if the alert unit is equipped with a GPS receiver.
• finally, the central station also continuously transmits alert status information to the alert units. This alert state information will have a value indicative of a standby state when no train is approaching, and will take a value indicative of a state of alert when the central station has determined that an alert must to be triggered (train arrival or other reason).

Such a dialogue between the elements of the system gives the device a high level of security. If the warning unit no longer receives status information from one of the detectors, it triggers an alert on the warning units of the concerned yard. If an alert unit no longer receives information from the central station, this alert unit goes on alert. If the central station no longer receives status information from a warning unit on a given site, it triggers alerts on the other alert stations of this site with which the link is not interrupted. The exchanges between the different elements take place at sufficiently close intervals (eg at least one times per second) for real-time management.

When a train traveling on the first channel 10 (and arriving from the left in Fig.1) enters the announcement zone 16, its presence is detected by the passage detector 18 ₁ , which then emits detection information train as long as the train goes to the vertical of the detector. This is done by indicating in the status information sent regularly to the central station that the channel is occupied and no longer free.

After receiving this information, the central station identifies the site concerned by this alert. The next status information issued by the central station will therefore include alert information, to alert alert units and thus trigger sirens and beacons. People working on or near the tracks are thus warned of the approach of a train and can get in safety, leaving the way free for the passage of the train.

In fact, as soon as the central station has identified the approach of a train near a given site, it constantly transmits alert state information indicative of a state of alert, and this until it determined that the state of alert could be stopped.

Under normal operating conditions, the alert state will be stopped when the station has determined that the train has cleared the surveillance zone. A zone release information by the train will for example be obtained when the train, continuing its route, will pass over the detector 18 ₂ , which will generate a train detection information transmitted to the central station. Knowing the site was on alert and the train was traveling on the first track, the central station can therefore deduce that it is the train initially detected by the detector 18 ₁ and leaving the area. The alert state information to the warning units 20 of the construction zone 14 will therefore include information indicative of a standby state, causing the sirens and beacons to stop.

It will be understood, however, that the return to the waking state will be conditioned by a prior check that another alert situation does not exist simultaneously, for e.g. the detection of another train at the level of another sensor, or link problems in the system.

In fact, all information received at the central station allows advanced security management, and possibly define two levels of alert.

The first level of alert would relate to situations that require immediate evacuation of the worksite area, and therefore the triggering of warning units on the site. These include cases where: the approach of a train has been determined by the central station, a link is interrupted, a detector or an alarm unit is out of service, a detector has been moved without authorization.

The second alert level would be for situations that do not require immediate evacuation from the work area. This may especially be the case where: the proportion of active detection circuits in the detectors passes becomes less than a predetermined threshold value; the state of the batteries reaches a predetermined threshold value; a detector is moved (the non-confirmation of the movement, however, triggers an alert); a status information indicates a malfunction of a detector or a warning unit which remains operational. These second-level alerts could, for example, be simply reported to the central station via the graphical interface, thus warning the operator of a potential future problem, which can be prevented by replacing the device. defective at the end of the working day.

Note also that in case of failure of the mobile communication with a given element of the system, it can be interconnected with another element by a wired connection.

Claims (17)

Automatic train announcement system or other railway vehicle intended in particular to warn people working along a railway including: at least one passing detector for transmitting a detection information of a railway vehicle during the passage of a railway vehicle at a given point of a railway line; warning means for triggering an alert on a construction site area when approaching a railway vehicle; and a central station able to receive detection information of a rail vehicle, to compare them with stored data concerning sites, and to automatically issue alerting information to said warning means when the approach of a railway vehicle of the said work zone is determined, wherein said central station communicates with each of said passage detectors and warning means via a mobile radio network. System according to claim 1, comprising a passage detector on either side of an announcement zone encompassing said construction zone, particularly in the case of a two-way traffic lane. The system of claim 1 or 2, wherein each passage detector comprises a sensor connected to a control and communication unit comprising a detection module and a radio module for exchanging information with said central station. The system of claim 3, wherein said detection module comprises a plurality of similar sensing circuits coupled to said sensor. The system of claim 3 or 4, wherein said sensor is of magnetic type. The system of claim 3, 4 or 5, wherein said control and communication unit of each pass detector comprises a positioning data receiver, preferably a GPS receiver. System according to any one of the preceding claims, in which the warning means comprise one or more warning units arranged in said work zone, each warning unit comprising at least one sound device and or visual and a radiotelephone module for communicating with said central station. Method of announcing a train or other railway vehicle to warn persons on a construction site area along a railway line, in which the passage of a train or other railway vehicle at a given point of said railway line is detected at passing detector and the approach of a train or other railway vehicle is signaled on the building site by means of warning means, in which,
following the detection of a train or other railway vehicle by said passage detector, the latter transmits a railway vehicle detection information to a central station, which after receiving said railway vehicle detection information compares it with information from stored site, and when the comparison indicates the approach of a train of said site area, generates an alert information to said warning means on said site area to trigger an alert,
said train detector or other railway vehicle and said warning means each communicating with said central station via a mobile radio network. The method of claim 8, wherein said train detector and said alert means are in permanent communication with said central station. Method according to claim 8 or 9, wherein in case of a link interruption between said central station and a passage detector, respectively the alert means, an alert is triggered on said alert means. A method as claimed in any one of claims 8 to 10, wherein each of said train detector and warning means transmits status information to said central station. The method according to claim 11, wherein said status information transmitted by said train detector comprises at least one of the following information: identification number; indication of release / occupation of the track; state of the battery; state of the detection circuit; signal strength; positioning data; meaning of the railway vehicle. A method according to claim 11 or 12, wherein said status information transmitted by said alerting means comprises at least one of the following information: identification number; state of the battery; state of alert devices; signal strength; positioning data. A method according to claim 12 or 13, wherein at least one of the following information is exploited in the central station to determine an alert situation requiring the triggering of an alert: battery state, detection circuit state, state warning devices. A method as claimed in any one of claims 8 to 13, wherein said central station transmits alert state information to the alert means which determines the triggering or stopping of the alert means. A method as claimed in any one of claims 8 to 15, wherein an alert is triggered if the malfunction of an alert means is determined based on alerting state information. Method according to any one of claims 8 to 16, wherein an alert is triggered on the warning means if it is determined, on the basis of GPS positioning data, that a passing detector and / or warning means have been moved without authorization.

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