RAIL TRANSIT SIGNAL SYSTEM WITH MULTI-NETWORK INTEGRATION

Abstract

The present disclosure relates to a rail transit signal system with multi-network integration, including: a wayside train control subsystem for simultaneously supporting mixed tracking operation of a China train control system (CTCS)-based national railway train and a communication based train control (CBTC)-based urban rail transit train; a compatible carbome subsystem for realizing cross-line operation of a national railway line network, an intercity railway network, a municipal railway network, and an urban rail transit network; a networked intelligent dispatching subsystem for realizing intelligent dispatching management of rail transit line networks and cooperation of line network operation plans between different rail transit line networks; an interlocking subsystem being respectively communicatively connected to and interacting with the wayside train control subsystem, the compatible carbome subsystem, and the networked intelligent dispatching subsystem; and a wireless train-ground communication subsystem for simultaneously providing communication for the national railway train and the urban rail transit train. Compared to the prior art, the present disclosure has the advantages of interconnection and interworking, deep integration, etc.

Claims

1. A rail transit signal system with multi-network integration, comprising: a wayside train control subsystem for simultaneously supporting mixed tracking operation of a China train control system (CTCS)-based national railway train and a communication based train control (CBTC)-based urban rail transit train; a compatible carbome subsystem for realizing cross-line operation of a national railway line network, an intercity railway network, a municipal railway network, and an urban rail transit network; a networked intelligent dispatching subsystem for realizing intelligent dispatching management of rail transit line networks and cooperation of line network operation plans between different rail transit line networks; an interlocking subsystem being respectively communicatively connected to and interacting with the wayside train control subsystem, the compatible carbome subsystem, and the networked intelligent dispatching subsystem; and a wireless train-ground communication subsystem for simultaneously providing communication for the national railway train and the urban rail transit train.

2. The rail transit signal system with multi-network integration according to claim 1, wherein the wayside train control subsystem comprises a zone controller, a radio block center, a train control center, a temporary speed restriction server, a track circuit, and a beacon; the zone controller is respectively connected to the compatible carbome subsystem, the networked intelligent dispatching subsystem, and the interlocking subsystem; the radio block center is respectively connected to the temporary speed restriction server, the compatible carbome subsystem, and the interlocking subsystem; the train control center is respectively connected to the track circuit, the beacon, the temporary speed restriction server, the networked intelligent dispatching subsystem, and the interlocking subsystem; the temporary speed restriction server, the track circuit, and the beacon are respectively connected to the compatible carbome subsystem; and the track circuit is connected to the interlocking subsystem.

3. The rail transit signal system with multi-network integration according to claim 2, wherein the wayside train control subsystem further comprises a wayside switch machine and a signal connected to the train control center, and the train control center is configured to generate a code order of the track circuit and a movement authority according to collected equipment status information of the wayside switch machine, the signal, and the track circuit, and location information of the train, to control mixed operation of trains of different systems and to realize safety interval protection between the trains.

4. The rail transit signal system with multi-network integration according to claim 1, wherein the compatible carbome subsystem adopts a high-performance, secure and universal platform.

5. The rail transit signal system with multi-network integration according to claim 4, wherein in the national railway system line network, the compatible carbome subsystem is provided with a radio block center interface with national railway train control and is configured to control the train operation according to a movement authority provided by a radio block center and to control the train operation according to track circuit information and beacon information by reading a code order of a track circuit and the beacon information when the radio block center is unavailable.

6. The rail transit signal system with multi-network integration according to claim 4, wherein in the urban rail system line network, the compatible carbome subsystem is provided with an interface with a zone controller and is configured to control the train operation according to a movement authority provided by the zone controller.

7. The rail transit signal system with multi-network integration according to claim 1, wherein the networked intelligent dispatching subsystem is configured to dynamically display a line equipment status and a train operation status in real time, to provide system operation modes of different levels, to manage operation missions of the trains operating in the line networks according to a timetable, to cooperate cross-line network operation train plans, to record operation data to generate a statistical report, and to provide playback and training functions.

8. The rail transit signal system with multi-network integration according to claim 3, wherein the interlocking subsystem is configured to control the switch machine and the signal according to a route command, to collect statuses of a platform door, an emergency stop button, and the track circuit, and to realize secure locking and unlocking of a route; and meanwhile, the interlocking subsystem is provided with secure interfaces with the zone controller, the wayside train control subsystem, and the compatible carbome subsystem.

9. The rail transit signal system with multi-network integration according to claim 1, wherein the wireless train-ground communication subsystem adopts an integrated global system for mobile communications-railway (GSM-R) and long term evolution-machine (LTE-M) communication module, and provides GSM-R communication for the national railway train and LTE-M communication for the urban rail transit train.

10. The rail transit signal system with multi-network integration according to claim 1, wherein the wireless train-ground communication subsystem simultaneously reserves interfaces for LTE to comprehensively bear an LTE-M service and a long term evolution-railway (LTE-R) service.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0030] FIG. 1 is a schematic structural diagram of a rail transit signal system with multi-system integration according to the present disclosure;

[0031] FIG. 2 is a schematic interconnection and interworking diagram of the rail transit signal system with multi-system integration according to the present disclosure;

[0032] FIG. 3 is a schematic diagram of a first solution of an adaptable rail transit signal system according to the present disclosure;

[0033] FIG. 4 is a schematic diagram of a second solution of the adaptable rail transit signal system according to the present disclosure; and

[0034] FIG. 5 is a schematic diagram of a third solution of the adaptable rail transit signal system according to the present disclosure.

DETAILED DESCRIPTION OF THE EMBODIMENTS

[0035] The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present disclosure. Apparently, the described embodiments are part rather than all of the embodiments of the present disclosure. All other embodiments obtained by those of ordinary skill in the art based on the embodiments of the present disclosure without creative efforts should fall within the scope of protection of the present disclosure.

[0036] According to a rail transit signal system based on multi-network integration in the present disclosure, the system ensures that cross-line network interconnection and interworking operation of a China train control system (CTCS)-based national railway train and a communication based train control (CBTC)-based urban rail transit train may be realized. In the solution, the system includes: wayside equipment integrated as a set of wayside train control subsystem for simultaneously supporting mixed tracking operation of the CTCS-based national railway train and the CBTC-based urban rail transit train; a compatible carborne subsystem equipped with a set of carborne equipment for realizing cross-line operation of a national railway line network, an intercity railway network, a municipal railway network, and an urban rail transit network; a set of networked intelligent dispatching subsystem used for a center and configured to realize intelligent dispatching management of rail transit line networks and cooperation of line network operation plans between different rail transit line networks; and a wireless train-ground communication subsystem adopting a global system for mobile communications-railway (GSM-R) and long term evolution-machine (LTE-M) tight coupling solution. A set of wireless train-ground communication subsystem integrated simultaneously provides GSM-R communication for the national railway train and LTE-M communication for the urban rail transit train, while the compatible carborne subsystem may support GSM-R and LTE-M communication modes. Compared to an existing rail transit signal system solution, the present disclosure has the advantages of interconnection and interworking, deep integration of integrated carborne and wayside systems, etc., and may meet the requirement of “arrival and departure” interconnection and interworking operation of the rail transit signal system.

[0037] The subsystems are specifically as follows:

[0038] 1) The dispatching management subsystem is arranged in the dispatching center and is configured to dynamically display a line equipment status and a train operation status in real time, to provide system operation modes of different levels, to manage operation missions of the trains operating in the line networks according to a timetable, to cooperate cross-line network operation train plans, to record operation data to generate a statistical report, and to provide playback and training functions.

[0039] 2) The wayside train control subsystem includes a zone controller, a radio block center, a train control center, a temporary speed restriction server, a track circuit, and a beacon, and is configured to collect statuses of basic equipment such as a wayside switch machine, a signal, and the track circuit, and a location report of the train, to generate a code order of the track circuit and a movement authority, to control mixed operation of trains of different systems and to realize safety interval protection between the trains.

[0040] 3) The interlocking subsystem is configured to control the switch machine and the signal according to a route command, to collect statuses of a platform door, an emergency stop button, and the track circuit, and to realize secure locking and unlocking of a route. The interlocking subsystem may achieve secure interfaces with the zone controller, the wayside train control subsystem, and the carborne subsystem.

[0041] 4) The carborne subsystem adopts a high-performance, secure and universal platform, and may be compatible with the CTCS-based national railway train and the CBTC-based urban rail transit train. In the national railway system line network, this carborne subsystem may achieve a radio block center interface with national railway train control and is configured to control the train operation according to the movement authority provided by the radio block center or control the train operation according to track circuit information and beacon information by reading a code order of the track circuit and the beacon information when the radio block center is unavailable. In the urban rail system line network, this carborne subsystem may achieve an interface with the zone controller and is configured to control the train operation according to the movement authorization provided by the zone controller.

[0042] 5) The wireless train-ground communication subsystem adopts an integrated GSM-R and LTE-M communication solution, and a soft switch core network may simultaneously support GSM-R and LTE-M services. In view of the development of national railway wireless communication technology, this solution simultaneously reserves interfaces for LTE to comprehensively bear the LTE-M service and the LTE-R service.

Specific Embodiments

[0043] FIG. 1 is a schematic structural diagram of a rail transit signal system with multi-system integration. The universal interlocking subsystem, the compatible carborne hardware security platform, and the multi-network cooperative dispatching management subsystem adapted for multi-network integration are deployed. Through deep integration of the national railway signal system and the urban rail signal system, the integrated rail transit signal system adapted for multi-network integration is innovatively designed.

[0044] As shown in FIG. 2, the compatible train, the national railway train, and the urban rail transit train may perform cross-line operation in a multi-network integration control zone, and the system manages the safety interval protection between various trains; and the compatible train using the universal secure carborne platform may also perform cross-line operation in a national railway system control zone and an urban rail system control zone.

[0045] The rail transit signal system with multi-network integration may be adapted as specific application solutions of different architectures according to different operation requirements of different line networks.

1. Multi-Network Integration Solution

[0046] For the line network that needs to support the cross-line interconnection and interworking operation of the national railway train and the urban rail transit train, the system architecture in FIG. 1 may be used.

2. Large Operation Interval Solution for Interconnection and Interworking With National Railway Line Network Only

[0047] For the line network that only needs to support the cross-line interconnection and interworking operation of the national railway train and requires the tracking operation interval to be no less than 4 minutes, the system architecture in FIG. 3 or FIG. 4 may be used.

3. Small Operation Interval Solution for Interconnection and Interworking With National Railway Line Network Only

[0048] For the line network that only needs to support the cross-line interconnection and interworking operation of the national railway train and requires the tracking operation interval to be less than 4 minutes, the system architecture in FIG. 1 may be used.

4. Solution for Interconnection and Interworking With Urban Rail Line Network Only

[0049] For the line network that only needs to support the cross-line interconnection and interworking operation of the urban rail transit train, the system architecture in FIG. 5 may be used.

[0050] The above is only the specific implementation of the present disclosure, but the scope of protection of the present disclosure is not limited thereto. Any of those skilled in the art may easily think of various equivalent modifications or substitutions within the technical scope of the present disclosure, and these modifications or substitutions should be included in the scope of protection of the present disclosure. Therefore, the scope of protection of the present disclosure should be subject to the appended claims.