SK108095A3 - Method of data transmission by runway signalling device, device for its realizing and runway signalling device used in such device - Google Patents

Abstract

The information transmission system includes the beacon (1) which is controlled by the control device (2), the beacon being fitted beneath the rails of a railway line. The signal transmitted by the beacon is picked up by the aerial (3) mounted on board the railway vehicle (5), for transmission to a unit (4) within the vehicle. When a vehicle is in the region of the beacon, the switching between successive messages is delayed. The transmission (7) which supplies the beacon carries an alternating voltage corresponding to the message, and a direct current component.

Description

Technical field

The invention relates to automated systems installed on the ground and on board a vehicle for traffic control in general urban networks, and in particular to a method of transmitting information by means of signals, to a device for its implementation, and to a signal used in such a device.

BACKGROUND OF THE INVENTION

Prior art information transmission devices use single point signals. These are passive signals stored on the ground. A device for transmitting information, as will be explained in more detail once again with reference to FIG. 1 and 2, includes ground installation and rolling stock equipment. The ground-based installation comprises a signal and its control unit connected by a transmission line. The signal is connected by a sleeper in the axis of the track. The equipment fitted to the vehicle includes an antenna and an evaluation unit. The evaluation unit, which can be a computer, is powered by its own converter and connected to the antenna. The antenna is below the rail vehicle, preferably at the front of the vehicle.

The signals used in the systems, for example to monitor train speeds, transmit signaling status information before their position. This information is scanned by the antenna under the train. The beacon transmits serially bits at a bit rate of, for example, 50 kbit / s. These bits are generated by the electronic control equipment for generating the message.

The beacons shall have a fixed length that defines the spatial area in which the antenna on board the vehicle can sense the broadcast message. This scanning length, also called contact length, makes it possible to transmit a certain number of bits of the transmitted message. The binary message is read between the control unit and the train via the signal. The synchronization is performed between the beginning of the message and the arrival of the train at the signal and thus the reading of the signal.

Antenna on the vehicle has a predetermined reading window, which is a function of its construction, the vehicle may not correspond to the placing of two following messages next to

A binary message read by the antenna on the full Mn message, but most often the complementary parts of two consecutive ones. At high speeds, the antenna scanning length does not allow more than one message to be received.

One consequence of the above is that it is only possible to reconstitute this broadcast message under a single condition by reading a single broadcast message, and that both parts of the messages available are consecutive broadcasts with identical content. This results in difficulties when the broadcast message generating device changes the content of such messages, for example, to account for a change in the signaling state. The consequence of this change in the content of broadcast messages is that messages broadcast before and after the change have different content. The message reconstituted on board the vehicle is therefore not coherent since it consists of a part of the first and a part of the second broadcast message with different contents.

One object of the invention is to provide a device for transmitting information via a signal that does not have this drawback. A further object is to provide a device for transmitting information by means of signals, which allows for continuous reconstitution of messages at any time.

SUMMARY OF THE INVENTION

According to the invention, a device for transmitting information Mn by means of a control signal controlled by the control unit, wherein said Mn information is transmitted to the antenna by said signal, the antenna is mounted on the vehicle and said control units are capable of switching C between said Mn messages and Mn + 1 messages. characterized in that, in the presence of said vehicle near said signal of said control unit, said switching between said Mn messages and said Mn + 1 messages delays the transmission of one or more additional Mn messages Mns.

The invention resides in a device which is also characterized in that the control unit superimposes on the transmission line an alternating voltage corresponding to transmitted Mn messages and a direct current, the switching delay C being carried out in the presence of said vehicle above said signal.

The invention also relates to a signal for an information transmission device.

According to the invention, the signal for the information transmission device is connected to the control unit via a transmission line and is characterized by means for transmitting a signal relating to the presence of a vehicle near said signal to said control unit.

The invention also relates to an information transmission device signal comprising a first interface sensitive only to alternative signals whose function is to receive said messages transmitted by said control unit and then transmit them so that said vehicle antenna can read these Mn and second messages a DC sensitive interface having the function of shortening said transmission line only for said direct current information related to the presence of said vehicle near said signal.

The invention also relates to a method of transmitting information. According to the invention, the method of transmitting Mn information by means of a signal controlled by the control unit is characterized in that the control unit carries out on said transmission line connecting said signal and said transmission device, superimposing AC voltage corresponding to said messages and DC. about the presence of said vehicle near said signal, shortening said transmission line for direct current only, detecting shorting by said control unit, and delaying said switching C between said Mn messages and said Mn + 1 messages by said control means by means of said control means unit transmits one or more additional Mn messages Mns.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will be explained in more detail in the following description by way of example with reference to the accompanying drawings, in which:

FIG. 1A to FIG. 3A to FIG. 4 is a schematic diagram of a prior art information transmission apparatus comprising equipment mounted on a railway vehicle and ground installation;

2C is a graphical representation of a corresponding transmission of Mn messages by means of a prior art signal, reading a message by means of an antenna mounted on a vehicle, and then reconstituting the transmitted message on the basis of a read message based on the principle known in the art;

3E sequential transmission of Mn messages by prior art signal, vehicle presence information indication, delayed transmission of switching between Mn messages and Mn + 1 messages by the signal according to the principle of the invention, reading the message via the vehicle mounted antenna and reconstituting the broadcast message based on the read message; a schematic diagram of a preferred embodiment of the beacon used in the information transmission device of the beacons of the invention.

An example of an embodiment of the invention by a guide 7, a track 6.

Fig. 1 shows a known information transmission device comprising equipment in a rail vehicle and a fixed installation on the ground. The apparatus for transmitting the information shown in Fig. 1 comprises an installation 1, 2 on the ground and equipment 3, 4 on the rail vehicle 5. The installation mounted on the ground comprises a signal 1 and its control unit 2 connected by a transmission. The evaluation unit 4, which can be a computer, is powered by its own converter and is connected to the antenna 3. The antenna 3 is below the rail vehicle, preferably on the front of the vehicle.

techniques, reading the message on the vehicle and then based on the read message.

Figures 2A to 2C show the transmission of Mn messages by a known state signal through an antenna fitted with reconstitution of the transmitted message

Fig. 2A shows a sequence of identical Mn messages transmitted by a control device and transmitted via a signal to an antenna on a vehicle. The antenna on the vehicle has a predetermined reading window, which is a function of its construction. The binary message read by the antenna on the vehicle may not correspond to the complete Mn message, but most often corresponds to placing two complementary portions of two consecutive messages side by side.

Fig. 2B shows this binary message read by the vehicle antenna. 2C shows a binary message reconstituted on a vehicle. Therefore, at high speed, the antenna scanning length no longer allows reception of a message.

Further details regarding the disadvantages of the prior art shown have been explained at the beginning of the description.

Figures 3A-3E relate to delayed transmission of switch C between Mn messages and Mn messages by means of a signal according to the principle of the invention. In order to prevent the reconstituted message from being discontinuous, the control unit may be informed of the presence of the train at the signal location. This train presence indication introduces a time delay in switching the message content C.

When a train arrives above the signal, the signal transmits to the control unit information about the presence of the train, which allows the control mechanism to delay the switching of the C content of the broadcast messages. To delay the switching of C between Mn messages and Mn + 1 messages, the control unit sends one or more additional Mns messages to the signal. It follows from the foregoing that the two half-messages read by the antenna stored on the vehicle are continuous and thus allow the reconstitution of an equally continuous message.

Fig. 4 shows a schematic diagram of a preferred embodiment of the beacon used in the information transfer apparatus of the beacons of the invention. The signal 1 used in the information transmission system is a passive device, i. it has no permanent own energy source. Furthermore, the signal 1 is remotely powered only when the train 5 is present above the signal 1. The remote power supply is carried out in a manner known per se by coupling between the train antenna 2 and the signal 1. The signal 1 is therefore not capable of providing power to power the transmission. power line 7 to the control unit.

In the presence of the train 5, the signal of the transmission line 7 from the current control unit. Thus, the control unit 2 detects the transmission line 7 only for direct current information regarding the presence of a train connected to the short-circuit line.

shortens the end only for a one-way short connection to and derives from it 5 above the signal 1

Train presence information is generated according to the invention by superimposing two signals on the transmission line 7 to the signal

Super control unit 2. These superimposed signals consist of an alternating voltage corresponding to transmitted Mn messages and a DC current polarization of the transmission line corresponding to the train presence information.

Since the alternating voltage corresponding to the transmitted messages is not short-circuited by the signal 1, the control unit 2 can transmit messages to the antenna 2 stored on the vehicle by means of the signal. The signal 1 is connected to the control unit 2 by a transmission line 7, which comprises a first interface 8 sensitive only to AC signals and a second interface 9 sensitive only to DC.

The first interface 8, sensitive only to alternating signals, is used to receive messages transmitted by the control unit 2 and read by an antenna 2 stored on the vehicle. The second DC-sensitive interface 9 is designed to short-circuit the DC-only transmission line 7.

The system described above makes it possible to realize a method of transmitting information Mn by means of a signal 1 controlled by the control unit 2. The method of transmitting information Mn comprises the first step of superimposing on the transmission line 7 connecting the signal 1 and the control unit 2 broadcast messages and direct current. The second step consists in shortening the transmission line 7 via the second interface 9 for direct current only, based on the reception of the vehicle presence information 10 near the signal 1. The next step consists in detecting a short circuit through the control unit 2. The fourth step is that the control unit 2 delays the switching between Mn and Mn + 1 messages by transmitting one or more Mns in addition to Mn.

Claims (6)

PATENT CLAIMS An apparatus for transmitting Mn information by means of a signal (1) controlled by a control unit (2), said Mn information being transmitted via said signal (1) to an antenna (3) stored on the vehicle (5), said control unit (2) is capable of switching C between said Mn messages and Mn + 1 messages, characterized in that, in the presence of said vehicle (5) near said signal (1), said control unit (2) delays switching between said Mn messages and said Mn messages +1 by sending one or more additional Mn messages Mns. Device according to claim 1, characterized in that the control unit (2) superimposes on the transmission line (7) connected to the signal (1) an alternating voltage corresponding to transmitted Mn messages and direct current. Device according to claim 1 or 2, characterized in that the switching delay C is carried out in the presence of said vehicle (5) above said signal (1). A signal for an information transmission device connected to a control unit (2) by a transmission line (7), characterized in that it comprises means (9) for transmitting a signal relating to the presence of a vehicle (5) in the vicinity of said signal. control unit (2). Signal according to claim 4, characterized in that it comprises a first interface (8) sensitive only to AC signals, the function of which is to receive said messages transmitted by said control unit (2) and then transmit them so that said antenna (3) on the vehicle, it can read these messages Mn, and the second interface (9) only sensitive to DC, the function of which is to shorten said transmission line (7) only for said DC when receiving information (10) related to the presence of said vehicle (5) ) near said signal (1). Method for transmitting Mn information by means of a signal (1) controlled by a control unit (2) according to any one of claims 1 to 5, characterized in that it is carried out by means of a control unit (2) on said transmission line (7) connecting said signal (1). ) and said control unit (2) superimposing an alternating voltage corresponding to said transmitted messages and a direct current; said second interface (9) shortens said transmission line (7) for said direct current only when said vehicle (6) is present near said signal (1); said short circuit detection is performed by said control unit (2) and said switch C is delayed by said control unit (2) between said Mn messages and said Mn + 1 messages by sending one or more additional Mn messages via said control unit (2) MNS.