CZ287266B6 - Process and apparatus for transmission of messages through the mediation of semaphore - Google Patents

Abstract

Messages Mn, Mn+1 are transmitted from a semaphore (1) to an antenna (3) mounted on a vehicle (5) are switched one to another according to need of information and/or control of passing vehicles (5). If a vehicle (5) is in proximity of the semaphore (1) switching between said messages Mn and Mn+1 is delayed in response to detection of its proximity by transmitting one or more additional messages Mns with content identical with that of the Mn messages so that antenna (3) receives the complete message Mn. Transmission line (7) between the semaphore (1) and control unit (2) is fed with voltage containing direct component and further alternating component from the control unit (2) that is a representation of the transmitted messages. In the transmission line (7) there is connected a short-circuiting means (9a) for the direct component, only. The semaphore (1) comprises a first interface (8) being responsive only to alternating current signals, having a receiving input of messages being transmitted by the control unit (2) a transmitting output of messages transmitted to the antenna (3) on the vehicle and second interface (9) responsive only to direct current, having a signal receiving input (10) of the vehicle (5) presence in proximity of the semaphore (1) and short-circuiting switch (9b) of the short-circuiting means (9a) of the transmission line (7) for direct current only, in response to reception of the vehicle proximity signal at the receiving input (10). The control unit (2) is provided with a detection means of short circuit for direct current, a delay means of switching and switching means in response to the short circuit detection.

Description

Method and apparatus for transmitting messages via a signal

Technical field

BACKGROUND OF THE INVENTION The invention relates to automated systems installed on the ground and on board a vehicle for traffic control in general urban networks, and more particularly to a method and apparatus for transmitting messages via a signal, these messages being transmitted from the signal to an antenna stored on the vehicle. are switched between Mn messages and Mn + 1 messages as needed to inform and / or control moving vehicles.

BACKGROUND OF THE INVENTION

Prior art information transmission devices use single point lights. These are passive lights stored on the ground. The information transmission apparatus, as explained in more detail once again with reference to FIGS. 1 and 2, comprises, on the one hand, a part installed on the ground and, on the other hand, equipment on the rail vehicle. The ground-mounted part contains the signal and its control unit connected by a transmission line. The signal is connected to the sleepers along the track axis. 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 at the bottom of the rail vehicle, preferably at the front of the vehicle.

The signals used in systems for monitoring, for example, train speed, transmit signaling status information in front of their location. This information is scanned by the antenna under the train. The beacon transmits serially bits at a bit rate of, for example, 50 kilobits per second, via electronic control equipment for generating the message.

The lights have a fixed length which defines the spatial area in which the antenna on board the vehicle can sense the broadcast message. This scanning length, also called contact length, allows 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.

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 parts of two consecutive messages side by side. At high speeds, the antenna scanning length does not allow more than one message to be received.

One consequence of the above is that, by reading a single broadcast message, it is possible to reconstitute the broadcast message only under one condition, and that both available parts of the message belong to consecutive messages with identical content. This results in difficulties when the device designed to produce broadcast messages changes the content of such messages, for example to reflect a change in the signaling state. The consequence of this change in the content of broadcast messages is that the messages broadcast before and after the change have different content. Thus, the reconstituted message in the vehicle is not coherent because it consists of a portion of the first and a portion of the second broadcast message with different contents.

One object of the invention is to provide a method and apparatus for transmitting information by means of a signal that does not have this drawback. Another object is to provide a method and apparatus for transmitting information by means of a signal enabling the continuous message to be reconstituted at any time.

-1 CZ 287266 B6

SUMMARY OF THE INVENTION

Said object is achieved by a method of transmitting messages Mn, Mn + 1 via a signal, which messages are transmitted from the signal to an antenna stored on the vehicle, the messages being switched between Mn messages and Mn + 1 messages as needed to inform and / or control moving vehicles. characterized in that, in the presence of said vehicle near said signal, in response to detecting its proximity, switching between said Mn and Mn + 1 messages is delayed by transmitting one or more additional Mns messages with content identical to Mn messages so that a complete message is received by the antenna Mn.

Preferably, the signal is supplied with an AC signal corresponding to the transmitted messages Mn, Mn + 1, further comprising a DC component, wherein, in response to detection of vehicle proximity, the power input to the signal is shorted to DC only. At this signal, the switching between Mn and Mn + 1 messages is delayed until a complete Mn message is received by the vehicle antenna.

The invention further provides an apparatus for carrying out the above method, comprising a control unit with a message transmitting means and a switching means for switching between transmitting successive messages and a signal connected to the control unit via a transmission line and provided with a message transmitter to passing vehicle antennas that on the transmission line, powered by a voltage component comprising a DC component and an AC component from the control unit (the AC component being a representation of the transmitted messages), a short-circuit means for the DC component only is connected, the signal comprising a first interface sensitive only to AC signals , with the receiving input of the messages transmitted by said control unit and the transmitting output of the messages to the antenna on the vehicle, and a second DC-sensitive interface only, with a pickup signal for the presence of a vehicle near the signal, and a short circuit switch of the short-circuit transmission means for DC only in response to receiving a proximity signal at the receiving input, the control unit being provided with DC short-circuit detecting means and delay switching means for short-circuit detection.

The receiving input of the device according to the invention is preferably oriented to receive a signal of proximity to the vehicle from above, by passing the vehicle over the signal.

This solution allows the message reconstituted in the vehicle to be coherent, and it is possible to reconstitute continuous messages at any time.

Overview of the drawings

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of a prior art information transmission apparatus including equipment mounted on a rail vehicle and ground installation; FIG. Figure 2A shows the transmission of Mn messages through a signal, Figure 2B reads a message through an antenna mounted on vehicles according to the prior art, and Figure 2C reconstitutes the transmitted message based on a read message, Figure 3 shows a graphical representation of a method according to the invention in particular Fig. 3A shows the transmission of Mn messages by means of a signal according to the prior art, Fig. 3B a signal indicating the presence of a vehicle, Fig. 3C a delayed transmission of switching between Mn messages and Mn + 1 messages via a signal according to the invention; 3E reconstituting the broadcast message based on the read message, and FIG. 4 is a block diagram of a preferred embodiment of a signal used in an information transmission device by means of signals according to the invention.

-2GB 287266 B6

DETAILED DESCRIPTION OF THE INVENTION

Giant. 1 shows a known information transmission device comprising rolling stock equipment and a fixed installation on the ground. The information transmission apparatus shown in Fig. 1 comprises ground-mounted parts and equipment 3, 4 mounted on a rail vehicle 5. The ground-mounted parts of the apparatus comprise a signal 1 and its control unit 2 connected by a transmission line 7. A signal 1 is connected to the sleepers in the axis of the track 6. The parts of the device mounted on the vehicle comprise an antenna 3 and an evaluation unit 4. The evaluation unit 4, which can be a computer, is powered by its own converter and connected to the antenna 3. below the rail vehicle, preferably at the front of the vehicle.

Giant. Figures 2A-2C illustrate a flow chart of transmitting Mn messages through a prior art signal, reading a message through an antenna mounted on the vehicle, and then reconstituting the transmitted message based on the read message. Giant. 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 additional parts of two consecutive messages side by side.

Giant. 2B shows a binary message in a form as read by an antenna on a vehicle. Giant. 2C shows a binary message reconstituted on a vehicle. Thus, at high speed, the antenna scanning length no longer allows reception of more than one message.

Further details regarding the disadvantages of the illustrated prior art have been explained in the introduction to the description.

Giant. Figures 3A to 3E relate to delayed transmission of switch C between Mn messages and Mn + 1 messages via a signal according to the principle of the invention. In order to prevent the reconstituted message from being incoherent, the proposed solution allows the control unit to be informed of the presence of the train at the signal site. This train presence indication introduces a time delay in the switching C of the message content.

When the train arrives above the signal, the signal transmits to the control unit information about the presence of the train, which allows the control device to delay the switching of the C content of the broadcast messages. For this purpose, the control unit sends one or more additional MnS messages to the signal so that the switching of C between Mn and Mn + 1 messages is delayed. It follows that the two half messages, read by the antenna stored on the vehicle, are coherent and thus allow reconstitution of the coherent message as well.

Giant. 4 is a schematic diagram of a preferred embodiment of a beacon used in a beacon device according to the invention. The signal 1 used in the information transmission device is a passive device, i.e. it has no permanent own energy source. The signal 1 is only remotely supplied with signals when the train vehicle 5 is present above the signal 1. The remote introduction of the signals into the signal is carried out in a manner known per se by coupling between the train antenna 3 and the signal 1. Signal 1 it is therefore not able to provide power to power the transmission power line 7 to the control unit 2.

The train presence information is generated according to the invention by superimposing two signals on the transmission line 7 to the signal 1 by the control unit 2. These superimposed signals consist of an AC voltage corresponding to transmitted Mn messages and a DC current resulting from the current polarization of the transmission line corresponding to vehicle presence train. In the presence of a vehicle 5, the signal 1 shorts the transmission line 7 from the control unit 2 for direct current only.

-3GB 287266 B6

The signal 1 comprises, according to the definition of the invention, a first interface 8 sensitive only to AC signals, with the receiving input of messages transmitted by said control unit 2 and transmitting messages to the antenna 3 on the vehicle, and the second interface 9 sensitive only to DC. a vehicle presence signal input 10 near the signal 1, and a short circuit switch 9b of the short circuit means 9a of the transmission line 7 only for direct current in response to receiving a proximity signal at the receiving input 10, the control unit 2 is provided with DC short circuit detection means; delay means for switching the switching means in response to the short-circuit detection.

In the presence of a vehicle 5 near the signal, in response to detection of the proximity of the vehicle 5, the power input to the signal 1 from the control unit 2 for the DC component is shorted. Thus, the control unit 2 detects a short-circuit on the transmission line 7 for direct current only and derives from it the information regarding the presence of the train 5 above the signal 1 connected to the short-circuited line. Since the AC voltage corresponding to the transmitted messages is not short-circuited by the signal 1, the control unit 2 can transmit via the signal 1 the messages to the antenna 3 present on the vehicle.

The first interface 8, sensitive only to AC signals, is used to receive messages transmitted by the control unit 2 and to be read by an antenna 3 stored on the vehicle. The second DC-sensitive interface 9 is intended to short-circuit the DC-only transmission line 7.

The above-described system 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 a first step consisting in superimposing on the transmission line 7 connecting the signal 1 and the control unit 2 messages, and direct current. The second step consists in receiving the transmission line 7 by means of the second interface 9 only for direct current by receiving information 10 on the presence of the vehicle 5 near the signal 1. The next step consists in detecting a short circuit through the control unit 2. The fourth step consists in delaying through the control unit 2 the switching between Mn and Mn + 1 messages by sending one or more additional Mns messages. with content identical to Mn.

Claims (4)

A method of transmitting messages via a signal (1), wherein said messages are transmitted from the signal (1) to an antenna (3) stored on the vehicle (5), the messages being switched between Mn messages and Mn + 1 messages as required and / or passing vehicle control (5), characterized in that, in the presence of a vehicle (5) near the signal (1), switching between said messages Mn and Mn + 1 is delayed in response to detecting its proximity by sending one or more additional messages Mns s content identical to Mn messages, so that the complete Mn message is received by the antenna (3). Method according to claim 1, characterized in that the signal (1) is supplied with an AC signal corresponding to the transmitted messages Mn, Mn + 1, further comprising a DC component, the supply input being shorted in response to detection of the proximity of the vehicle (5). into the signal (1) for the DC component only, this short-circuit is detected as the detection of the short-circuit direct current on the power side of the signal (1), and delays switching between Mn and Mn + 1 until a full Mn message is received (3) vehicles (5). -4GB 287266 B6 An apparatus for carrying out the method according to claim 1 or 2, comprising a control unit (2) with a message transmission means Mn, Mn + 1 and a switching means for switching between transmitting successive messages Mn, Mn + 1, and a signal (1), connected by a transmission line (7) to the control unit (2) and provided with a message transmitter Mn, Mn + 1 to the antennas (3) of passing vehicles (5), characterized in that on the transmission line (7) powered by a DC component and an alternating component from the control unit, wherein the alternating component is a representation of the transmitted messages Mn, Mn + 1, the short circuit means (9a) of the transmission line (7) for the DC component only is connected, the signal (1) comprising a first interface (8) sensitive only to AC signals, with the receiving input of messages transmitted by the control unit (2) and the transmitting message output to the antenna (3) on the vehicle, and dr a direct current sensitive interface (9), with a vehicle presence signal (5) receiving input (10) near the signal (1), and a short-circuit switch (9b) of the short-circuit means (9a) of the transmission line (7) only current in response to receiving a proximity signal at the receiving input (10), the control unit (2) being provided with a DC short-circuit detection means and a switching means for switching the switching means in response to the short-circuit detection. Device according to claim 3, characterized in that the receiving input (10) is oriented to receive a signal of proximity to the vehicle (5) from above, wherein the signal is generated by passing the vehicle over the signal (1).