RU92589U1 - SATELLITE COMMUNICATION AND NAVIGATION SYSTEM FOR PASSENGER TRAIN - Google Patents

Abstract

1. The satellite communication system and navigation of the passenger train, characterized in that it contains a housing in which the power supply of the industrial computer, the power supply of the satellite communications station, the protection circuit from reverse polarity, configured to connect to the electric power supply system of the car, are installed, the receiver is GLONASS / GPS signals, a satellite communications station transceiver and an industrial computer with a touch-screen monitor placed on the housing surface; connectors for connecting the satellite antennas are placed on the housing communication antenna of the receiver GLONASS / GPS signals and the central control system of the passenger train, and the power sources are connected to the outputs of the protection circuit against reverse polarity, while the software of the industrial computer is configured to display on the monitor the location of the passenger train in real time, providing the chief trains send an emergency message to the dispatcher’s console, collecting and presenting information from sensors to the train manager and dispatcher ny in a passenger train, transmitting information about the location of the passenger train to the dispatcher’s console via satellite or GSM channels. ! 2. The system according to claim 1, characterized in that it further comprises a controller unit, which makes it possible to use GSM channels when transmitting information about the location of the train and other service information. ! 3. The system according to claim 1, characterized in that the industrial computer software is additionally configured to provide the train head with the possibility

Description

The technical solution relates to the field of wireless communications, namely, radio communications between subscribers, at least one of which is located in the vehicle, and can be used to provide a train, preferably a passenger, with a wireless addressable alarm and communication, including and internal for the passenger train, as well as communication with remote subscribers, including the organization of automatic transmission of information characterizing the condition and location of the train, the dispatch service be.

The developed technical solution relates to the field of complex systems.

In the future, when characterizing the developed technical solution, the following terms will be used:

- A system for monitoring the security and communications of a passenger train. The indicated system comprises a central control system and DECT base stations, each base station being connected to a central control system, and a cross-polarized antenna mounted at least on the carriage roof in the antenna module is connected to each DECT base station via RF connectors one device for transmitting alarms - a repeater from the alarm systems of a railway carriage by generating voice messages for transmission to the conductor of the carriage and the head of the train, at least one wearable terminal connected to the outputs of the car’s emergency and fire alarm systems for receiving alarms and two-way automatic telephone communications, and at least one hazard alarm button, characterized in that the central control system contains a power supply, a motherboard, made with the possibility of ensuring the interaction of all alarm transmission devices - repeaters used in the system through DECT base stations, and an expansion card directly connected to the motherboard and configured to ensure the operability of four DECT base stations installed in two antenna modules at the same time, the power supply unit of the central control system is configured to heat two antenna modules at outside negative air temperature, each antenna module containing at least , two DECT base stations, two cross-polarized antennas located inside the antenna module so that the radio signal covers all cars VA, while the DECT base station is connected by two RF cables to a cross-polarized antenna, the antenna module is connected to the central control system to ensure the health of DECT base stations, an alarm transmission device is installed in each carriage of the train - a relay for transmitting alarms from alarm systems railway carriage; moreover, in the headquarters car the alarm transmission device - repeater is connected to the DECT internal antenna, and in other cars it is connected to an external DECT antenna, which is a whip antenna with a stand, connected to an alarm transmission device - a repeater by a feeder, to each alarm transmission device - a relay, a heating system for axle bearing heating, a fire alarm system, as well as a hazard warning button, an alarm transmission device are connected - the repeater contains a jack for charging and registering the wearable terminal of the conductor and is configured to generate voice messages for edachi their car conductor and the head of the train, the system further comprises at least one wearable terminal for receiving signal alarm and automatic double-sided telephone conductor and the head of the train;

- The central control system for monitoring the safety and communications of the passenger train. The system contains a metal case with sealed inputs and connectors, inside of which there is a motherboard on which the DECT base station controller is mounted, a metal platform is located above the motherboard, the motherboard power supply, a power source for heating the antenna modules, a protection device from polarity reversal, as well as cable mounting blocks for antenna modules, while the power supply of the motherboard and the power source for heating the antenna modules are connected members to a polarity protection device configured to be connected to the car’s electrical power system, and the motherboard contains connectors for connecting to antenna modules and a system telephone;

- alarm transmission device - repeater (UPAS repeater) of a passenger car. The device comprises a case, including a rear panel of the case, a front panel of the case, a contact block, a power source, a power supply board, a motherboard, a peripheral radio module, a speaker and a microphone, and a motherboard, a power supply board with placed on it a power source configured to connect to the power line of the passenger car, and a peripheral radio module, the outputs of which are connected to a speaker and microphone, fixed on the front panel of the case inside it, on the peripheral radio module there is also an RF connector for connecting via an RF cable and a feeder located outside the case, a DECT antenna, the power supply board and the peripheral radio module are connected to the motherboard, while the motherboard is located in this way that the shortcut keys of the train crew members, as well as the registration key of the wearable terminal, installed on the front panel of the UPAS-relay case, get emphasized on the corresponding keys of the motherboard inside the board, on the front panel of the UPAS-transponder case there are slots for charging and registering the DECT wearable terminal, in the front panel of the case there is a means for bringing to the contact block, mounted on the motherboard, the outputs of the signaling lines installed in the passenger car.

Known (RU, patent 49663) is a VHF radio communication ship complex, comprising a group control panel, a pairing bus and antenna-decoupling devices, the communication complex being made in the form of modules — an antenna module, a transceiver module and a group control panel, and in the antenna the module includes a transmitting antenna module, a receiving antenna module and a switched amplifier-splitter, the transceiver module includes a set of power amplifier, radio receiver and exciter, and a group remote control The service includes an operator’s workstation, a network switch, a managed switch, an information generation and processing unit, a modem unit, a power supply, a central processor computer system and an interface bus, and the transmitting antenna module is connected to a controlled antenna through a switched amplifier-splitter, power amplifier, and exciter a switch and a control bus, the control bus through radio receivers connected to the receiving antenna module, as well as to the formation unit and information processing and with the computer system of the central processor, which is connected via the interface bus to the communication complex with the control system and the information generation and processing unit, which, in turn, is connected to the control bus and the interface bus through the modem unit.

A disadvantage of the known antenna module should be recognized as its structural complexity, as well as the lack of directivity of the radiation / reception of the radio signal, which can lead to communication failure.

Known (RU, patent 2210845) is an antenna module for receiving signals from satellite systems, comprising an antenna unit with a base, a dome and a receiving and amplifying unit located on the base under the dome, the base of the antenna unit serving as an antenna screen made of conductive material, and the dome, serving as a fairing, made of a dielectric radiolucent material, and the antenna unit with its base placed in a bowl-shaped recess of the dielectric stand, providing electrical insulation of the base of the ant holes from the metal tubular support, while in the cup-shaped recess of the dielectric stand in the area free from the placement of the antenna unit, holes for the drain are made, the metal tubular support is connected with its upper part to the protrusion made in the lower part of the dielectric stand, and the through hole for accommodating the first high-frequency connector, fixed on the base of the antenna unit, designed to divert signals received and amplified by the antenna unit and and to it an internal power supply voltage of the antenna module, connected to the antenna unit is an amplifier unit located inside the metal tubular support, designed to additionally amplify the signals through its own amplifier, as well as to generate the internal power supply voltage of the antenna module for amplifiers of the antenna and amplifier units through a constant limiter-stabilizer voltage, the amplifier unit has a second and third high-frequency connectors located on opposite the ends of its conductive housing, electrically isolated from a metal tubular support, and the second high-frequency connector is connected to the first high-frequency connector, and the third high-frequency connector is used to connect a high-frequency coaxial cable, which serves to divert the signals received and amplified by the antenna module and supply external voltage from an external source power supply, while the base of the antenna unit, the housing of the amplifier unit and the outer conductors of all high frequencies s connectors during operation are under common electrical potential E ₀ - potential "earth", the inner conductor of the third high frequency connector in operation is under the electric potential E ₁ - potential "Power external" and internal conductors of the first and second high frequency connectors TT are under the electric potential E ₂ - potential "Internal power", where E ₁ > E ₂ > E ₀ , E ₁ -E ₀ = U _P , E ₂ -E ₀ = U _st , U _P - external power supply coming from external power source, U _st = cons t is the internal voltage of the antenna module generated in the amplifier unit by a constant voltage limiter-stabilizer and designed to power the amplifiers of the antenna and amplifier units.

A disadvantage of the known antenna module should be recognized as its structural complexity, as well as the lack of directivity of the radiation / reception of the radio signal, which can lead to disruption of radio communications.

The technical problem solved by the developed technical solution consists in developing the design of a communication and navigation system applicable to ensure reliable external radio communication from wagons and a passenger train locomotive.

The technical result obtained by the implementation of the developed design is to increase the safety of operation of the train by ensuring the stable transfer of information characterizing the technical condition and location of the train to remote destinations, including the traffic control service and law enforcement agencies.

To achieve the specified technical result, it is proposed to use the developed satellite communications system and passenger train navigation. The developed system contains a housing in which the power supply of the industrial computer, the power supply of the satellite communications station, the reverse polarity protection circuitry configured to connect to the car’s electric power supply system, a GSM (GPRS) modem, a GLONASS / GPS signal receiver, and a station transceiver are installed satellite communications and an industrial computer with a touch-screen monitor placed on the surface of the case; connectors for connecting a satellite antenna, GLONASS / GPS receiver antenna and cent control system of the passenger train, and the power sources are connected to the outputs of the reverse polarity protection circuit, while the software of the industrial computer is configured to display on the monitor the location of the passenger train in real time, to enable the train head to send an emergency message to the dispatcher, collect and presenting to the train chief and dispatcher information from sensors installed in the passenger train, transmitting information about places when the passenger train is on the dispatcher’s console via satellite or GSM channels. Preferably, the system may further comprise a controller unit enabling GSM channels to be used when transmitting train location information and other overhead information. The developed industrial computer software is preferably additionally configured to provide the head of the train with the possibility of using the satellite communications channel for telephone communications in the public switched telephone network, transferring recorded accidents in cars to the dispatcher’s console, and displaying the condition of the equipment of linear cars. In addition, the industrial computer software may be further configured to perform black box functions. Also, the software of an industrial computer can be additionally performed with the possibility of functions for controlling passenger boarding, electronic sale of tickets, as well as monitoring the condition of carriage equipment.

The passenger train communication and navigation system is a device that combines an industrial computer with a monitor, an Inmarsat BGAN satellite communications station, a GSM (GPRS) modem, and a receiver - GLONASS / GPS signals. The passenger train communication and navigation system is designed and designed to operate as part of the passenger train safety and communication control system (hereinafter SKBiSPP).

In the basic embodiment, the passenger train communication and navigation system comprises a housing, a power supply for an industrial computer, a power supply for a satellite communication station, a polarity protection circuitry, a GLONASS / GPS signal receiver, a satellite communication station transceiver, an industrial computer with a touch monitor, various internal trunk lines .

The passenger train communication and navigation system performs the following functions:

- display on the monitor the location of the passenger train in real time. In addition to displaying the location, the monitor receives information characterizing the speed of the train, the time it was on the way, and the estimated time of arrival. Display can be carried out both on a geographical map, and on a GIS cartographic scheme of JSC Russian Railways;

- providing the head of the train with the opportunity to send an emergency message (voice or text) to the dispatcher console;

- the developed software is configured to collect information from the remaining modules that are part of SKBiSPP (NCC, UPAS relay, antenna modules) various service information, followed by its automatic analysis, layout and sending to the dispatch service server (via satellite or on the GSM channel (GPRS)) in order to support the SKBiSPP and maintain it in good condition;

- together with the central control center, the developed software provides the train commander with the opportunity to use the satellite communications channel for telephone communications in the public switched telephone network;

- in conjunction with the central control center, the developed software transmits to the dispatcher’s console the accidents registered on the wagons on the wagons;

- in conjunction with the central control center, the developed software displays the status (ready / not ready) of the equipment SKBiSPP of linear cars (cars without a radio compartment);

- contains an archive of events that acts as a black box.

The developed software installed in the industrial computer of the system allows you to flexibly build SKBiSPP various new functions. In particular, it provides the ability to carry out functions to control passenger boarding, electronic sale of tickets, monitoring the condition of carriage equipment (battery charge, voltage of voltage stabilizers, level of refrigerant in air conditioners, etc.).

The use of the developed satellite communications equipment and navigation of the passenger train improves the safety of the operation of the train by ensuring the stable transmission of information characterizing the technical condition and location of the train to remote destinations, including the traffic control service and law enforcement agencies.

Claims (5)

1. The satellite communication system and navigation of the passenger train, characterized in that it contains a housing in which the power supply of the industrial computer, the power supply of the satellite communications station, the protection circuit from reverse polarity, configured to connect to the electric power supply system of the car, are installed, the receiver is GLONASS / GPS signals, a satellite communications station transceiver and an industrial computer with a touch-screen monitor placed on the housing surface; connectors for connecting the satellite antennas are placed on the housing communication antenna of the receiver GLONASS / GPS signals and the central control system of the passenger train, and the power sources are connected to the outputs of the protection circuit against reverse polarity, while the software of the industrial computer is configured to display on the monitor the location of the passenger train in real time, providing the chief trains send an emergency message to the dispatcher’s console, collecting and presenting information from sensors to the train manager and dispatcher ny in a passenger train, transmitting information about the location of the passenger train to the dispatcher’s console via satellite or GSM channels. 2. The system according to claim 1, characterized in that it further comprises a controller unit, which makes it possible to use GSM channels when transmitting information about the location of the train and other service information. 3. The system according to claim 1, characterized in that the industrial computer software is additionally configured to provide the head of the train with the possibility of using the satellite communications channel for telephone communications in the public telephone network, transferring registered emergency cases in cars to the controller’s console, and displaying equipment status linear wagons. 4. The system according to claim 1, characterized in that the industrial computer software is additionally configured to perform the functions of a black box. 5. The system according to claim 1, characterized in that the industrial computer software is additionally configured to perform the functions of controlling passenger boarding, electronic sale of tickets, as well as monitoring the condition of carriage equipment.