CN113335347B - Degraded vehicle operation management method and device for TACS (train operation control System) - Google Patents

Abstract

The invention relates to a degraded vehicle operation management method and a device for a TACS system, wherein the method comprises the following steps: s1, the TMC automatically identifies the degraded vehicle and informs the resource controller SC to ensure that the SC maintains the resource allocated before the fault for the degraded vehicle; s2, sending the information of the degraded vehicle to an ATS by the TMC; s3, the ATS automatically plans the next operation path request according to the destination and the SDD state of the secondary detection equipment where the train position is; s4, TMC negotiates the resources on the operation path with other trains through SC in the authorization area of the operation of the degraded train according to the operation path request, the position of the degraded train and the line operation direction received from the ATS; s5, after the SC allocates resources for the operation authorization area of the degraded vehicle, opening an entrance protection annunciator, and authorizing the degraded vehicle to pass the annunciator; and S6, after the degraded vehicle completely enters the operation authorized area of the degraded vehicle, the SC releases the resource associated with the operation authorized area of the previous degraded vehicle. Compared with the prior art, the method and the device can ensure the mixed running safety of the degraded train and the normal train in the TACS system, improve the running efficiency of the whole line and the like.

Description

Degraded vehicle operation management method and device for TACS (train operation control System)

Technical Field

The invention relates to a train autonomous operation control system, in particular to a degraded train operation management method and device for a TACS system.

Background

Along with the enlargement of the scale of the urban rail transit network, the construction, operation, maintenance, transformation and upgrading costs of the urban rail transit are increased, on the other hand, the improvement of the national living standard further aggravates the cost expenditure, and brings heavier burden to the construction and operation of the urban rail transit in the future. In order to support more economical operation, reduce operation and maintenance cost and simplify transformation and upgrade difficulty, a train autonomous operation control system (TACS) based on vehicle-to-vehicle communication is developed at the discretion and becomes a main research direction of the current next generation of urban rail train control systems.

The TACS system based on the vehicle-vehicle communication breaks through the mode that all current train control systems depend on trackside equipment to realize train operation control and safety protection, trackside train control equipment and interlocking equipment are simplified, the vehicle-mounted equipment actively interacts information with all adjacent trains and requests resources to trackside on the basis of self operation tasks and current positions, operation authorization and speed curves are automatically calculated, the instantaneity of train interval protection is enhanced, and fine resource management and safe and efficient train control operation are realized.

However, the train autonomous operation control system based on vehicle-to-vehicle communication is too dependent on communication between vehicles, information interaction between vehicles plays a key role for the system, and degraded vehicles (fault trains/non-equipped trains) need to be managed in a manual scheduling mode when the degraded vehicles cannot establish communication with other trains. However, the manual management mode has the problems of low operation efficiency, poor safety and the like.

Disclosure of Invention

The present invention is directed to overcome the above-mentioned drawbacks of the prior art, and to provide a method and an apparatus for managing the operation of a downgraded car in a TACS system.

The purpose of the invention can be realized by the following technical scheme:

according to an aspect of the present invention, there is provided a degraded vehicle operation management method for a TACS system, the method including the steps of:

step S1, when the normal train on the line has a fault, the train management platform TMC automatically identifies the train as a degraded train and informs the resource controller SC, so that the SC maintains the resource allocated before the fault for the degraded train, and simultaneously the SC negotiates with other trains about the resource of the operation authorization area of the degraded train associated with the position of the fault train, and after the resource occupied by other trains is released, the resource is preferentially allocated to the degraded train;

step S2, the TMC sends the information of the degraded vehicles to an intelligent scheduling system ATS;

step S3, the ATS automatically plans a next operation path request according to the destination and the SDD state of the secondary detection equipment where the train position is located, and sends the next operation path request to TMC;

step S4, the TMC negotiates the resources on the operation path with other trains through SC in the authorization zone for the operation of the degraded vehicle according to the operation path request, the position of the degraded vehicle and the line operation direction received from the ATS;

step S5, after the SC allocates resources for the operation authorization zone of the degraded vehicle, opening an entrance protection annunciator and authorizing the degraded vehicle to pass the annunciator;

and step S6, after the degraded vehicle completely enters the authorized operation area of the degraded vehicle, the SC releases the resources associated with the authorized operation area of the previous degraded vehicle.

As a preferred solution, the TMC may automatically identify and generate a degraded car and notify the ATS of a train failure or upon a manual request by a dispatcher.

As a preferred technical solution, the information of the degraded vehicle includes a location of the degraded vehicle, and after receiving the location of the degraded vehicle from the TMC, the ATS performs the following operations:

the ATS sends a next operation path request to the TMC according to the position and the destination of the degraded vehicle;

the ATS realizes automatic tracking of the degraded vehicle according to the occupation or clear state of the SDD section and the degraded vehicle information from the TMC;

and the ATS displays the operation authorization distance of the degraded vehicle according to the information fed back by the TMC.

As a preferred technical solution, after receiving the operation path request from the ATS, the TMC performs the following operations:

the TMC negotiates resource allocation with the adjacent train and the SC corresponding to the position of the degraded train according to the line running direction;

the method comprises the following steps that a degraded vehicle operation authorization area only authorizes a row of degraded vehicles to occupy, namely after an SDD corresponding to the degraded vehicle operation authorization area is occupied, an entrance protection signal machine of the degraded vehicle operation authorization area is closed;

and after the SDD corresponding to the degraded vehicle operation authorization area is cleared, the SC automatically identifies that the degraded vehicle completely enters the next degraded vehicle operation authorization area, and releases related resources.

As a preferred technical scheme, a train enters a TACS area from a non-TACS area, an ATS system allows a dispatcher to set a running path request from an entrance to the next platform, and a degraded train is automatically generated after a degraded train running authorization area is locked;

the driver is allowed to start the degraded vehicle according to the traffic signal display only when the front traffic signal is open.

As a preferred technical solution, the TMC notifies the ATS and the trains adjacent thereto of the information of the degraded vehicles, the ATS and the TMC negotiate a movement request through a degraded vehicle operation path, and the trains and the SCs, which normally communicate with the adjacent vehicles, negotiate resource allocation to promote a mixed running operation interval.

As a preferred technical scheme, the protection zone of the operation authorization zone of the downstream locked degraded vehicle is occupied, and after the protection zones of the operation authorization zone of the degraded vehicle are cleared, the SC considers that the degraded vehicle enters the operation authorization zone of the downstream degraded vehicle, and allows the operation authorization zone of the degraded vehicle to be released.

As an optimal technical scheme, the operation authorization prompting and detecting of the degraded vehicle comprises the following steps:

the degraded vehicle authorizes the train to run through the signal machine permission state, and detects the movement of the degraded vehicle through the occupation and the clearance of the secondary detection equipment;

and when the degraded vehicle arrives at the next stop platform along the running direction of the train, the operation authorization area of the degraded vehicle is an outbound signal from the first platform to the next platform.

According to another aspect of the present invention, there is provided an apparatus for the degraded vehicle operation management method for a TACS system, including a train management platform TMC, an intelligent scheduling system ATS, a resource manager SC, and a secondary detection device;

the train management platform TMC respectively performs information interaction with the intelligent scheduling system ATS, the trains with normal communication between other trains and the resource manager SC;

the ATS automatically sends a running path request to the TMC by combining the information of the degraded vehicles provided by the TMC, the line positions of the degraded vehicles, the states of secondary detection equipment, the running direction of the line and the destination;

the train management platform TMC requests resources from the resource manager SC according to the operation authorization area of the degraded vehicle, and automatically allocates and releases trackside resources corresponding to the operation authorization area of the degraded vehicle according to the movement of the degraded vehicle.

In a preferred technical scheme, the device realizes automatic inter-station blocking for the operation of the degraded vehicles by arranging the outbound signal at the outbound port.

Compared with the prior art, the invention has the following advantages:

1) in the invention, when the communication vehicle of the vehicle on the line is changed into a fault vehicle, TMC replaces the fault vehicle (identified as a degraded vehicle) to be responsible for information interaction with ATS, other trains and SC, ATS and TMC request negotiation movement request through the running path of the degraded vehicle, TMC negotiates resource allocation with the normal communication between the adjacent vehicles and SC communication, so as to promote mixed running operation interval; the SC provides safety guarantee for the operation area of the degraded vehicle by allocating resources for the operation authorized area of the degraded vehicle;

2) the ATS automatically applies for the next operation path request according to the occupation and operation destination of the approach section, and manages the automatic operation of the degradation vehicle;

3) in the invention, a dispatcher can automatically track the degraded vehicle through an ATS interface and obtain the information such as the authorized running distance of the degraded vehicle;

4) in the invention, the system allows a dispatcher to register the degraded train through an ATS interface, namely, the degraded train is manually inserted into the TACS protection boundary, and the self-inserted train is brought into system protection, so that an effective protection means is provided for the non-equipped train and the fault train to enter a TACS management area;

5) in the invention, the SC controls the display of the annunciator according to the position of the degraded vehicle and the state of the operation authorization area of the degraded vehicle, and manages the operation authorization of the degraded vehicle;

6) in the invention, the SC controls the display of the annunciator according to the locking state and the resource distribution condition of the operation authorization area of the degraded vehicle, and allows a driver to manually drive the degraded vehicle to enter the next operation authorization area of the degraded vehicle when the annunciator is opened, thereby ensuring the driving safety and improving the operation efficiency of the degraded vehicle.

7) In the invention, TMC automatically allocates and releases the associated trackside resources by requesting the locking and unlocking of the authorized area for the operation of the degraded vehicle, thereby improving the mixed running efficiency of the normal train of the communication between the degraded vehicle and the vehicle and ensuring the operation safety;

8) in the invention, the outbound signal machine is arranged at the outbound port, so that automatic inter-station blocking is realized for the operation of the degraded vehicles, and more flexible blocking operation can be realized for the degraded vehicles by the configuration of engineering projects by combining the construction cost and the user requirements.

Drawings

FIG. 1 is a schematic diagram of the architecture of subsystems in a TACS system according to the present invention;

FIG. 2 is a schematic view of the TACS system degraded vehicle operation management process of the present invention;

FIG. 3 is a schematic flow diagram of the present invention for manually inserting a destaging vehicle from a TACS system boundary;

FIG. 4 is a schematic diagram of the present invention showing the information interaction between the degraded vehicle and other systems in place of the degraded vehicle;

FIG. 5 is a schematic view of an exemplary protection area of the authorized zone for the operation of the degraded vehicle according to the present invention;

fig. 6 is an exemplary schematic diagram of the trackside equipment arrangement of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, shall fall within the scope of protection of the present invention.

In order to realize the mixed running operation of a degraded vehicle and a normal train with vehicle-to-vehicle communication on a line and improve the management automation degree of the degraded vehicle and the operation efficiency of the whole line, the invention provides a degraded vehicle operation management method of a TACS system, which specifically comprises the following steps:

the train management platform (TMC) replaces a degraded train and is responsible for carrying out information interaction with the intelligent scheduling system ATS, other train-to-vehicle communication normal trains and the resource manager SC; the ATS automatically sends a running path request to the TMC by combining the information of the degraded vehicles, the line positions of the degraded vehicles, the states of Secondary Detection Devices (SDDs), the line running directions and the destinations provided by the TMC, and the TMC negotiates resources with other trains and the resource manager SC through the operation authorization area of the degraded vehicles.

The method comprises the following steps that a signal machine or a line boundary is used as a starting point of a degraded vehicle operation authorization area, and when the degraded vehicle approaches a trigger zone along a line operation direction, the ATS automatically sends a next operation path request to the TMC according to a destination;

after the resource manager SC allocates resources for the operation path of the degraded vehicle, setting the corresponding operation authorization area of the degraded vehicle as an allowance and automatically opening a front annunciator;

and after the degraded vehicles completely drive into the degraded vehicle operation authorized area and the protection zones (SDDs) associated with the previous degraded vehicle operation authorized area are cleared, the SC automatically releases the resources of the previous degraded vehicle operation authorized area for other trains to use.

Further, still include:

the TMC may automatically identify and generate degraded cars and notify the ATS of a train failure or upon manual request by a dispatcher.

Further, the ATS still includes after receiving the parking stall that degrades from TMC:

the ATS sends a next operation path request to the TMC according to the position and the destination of the degraded vehicle;

the ATS realizes the automatic tracking of the degraded vehicle according to the occupation/clearing of the SDD section and the information of the degraded vehicle from the TMC;

the ATS displays the operation authorization distance of the degraded vehicle according to the information fed back by the TMC;

further, after receiving the operation path request from the ATS, the TMC further includes:

and negotiating resource allocation with the SC corresponding to the position of the degraded train and the adjacent train according to the running direction of the line:

if the resources associated with the operation path of the degraded vehicle are not occupied by other trains, the SC allocates the resources to the degraded vehicle, sets the operation authorization area of the degraded vehicle as allowed, prohibits the allocation to other trains, and opens the protection annunciator of the operation authorization area of the degraded vehicle;

otherwise, after other trains release resources, the resources are redistributed to the degraded train operation authorization area.

If the upstream degradation vehicle operation authorization zone is not locked or is not the TACS system boundary, the TMC refuses to execute and receives the operation path request from the ATS.

And the degraded vehicle operation authorization zone only authorizes a row of degraded vehicles to occupy, namely after the SDD corresponding to the degraded vehicle operation authorization zone is occupied, the entrance protection signal machine is closed.

Further, for a destaging vehicle, comprising:

when the communication train on the line has a fault, the TMC automatically identifies the train as a degraded train, and maintains the resources allocated before the fault for the train so that the train is not allocated to other trains, negotiates with other trains about the resources of a degraded train operation authorization area associated with the position of the train with the fault, and preferentially allocates the resources to the degraded train after the resources occupied by other trains are released, thereby ensuring the operation safety;

the TMC automatically negotiates resources on the travel path with other trains and SCs according to the travel path request received from the ATS, the location of the degraded vehicle, and the line travel direction.

The train enters the TACS area from the non-TACS area, the ATS system allows a dispatcher to set a running path request from an entrance to the next platform, and after a degraded train running authorization area is locked, the degraded train is automatically generated;

only when the front traffic signal is open, the driver is allowed to start the degraded vehicle according to the traffic signal display.

Further, TMC identifies or generates degraded vehicles, including:

and informing the ATS and the adjacent train of the degraded train information, negotiating a moving request by the ATS and the TMC through the operation path of the degraded train, and negotiating resource allocation by the train and the SC which are normally communicated with the adjacent train so as to ensure the interval confirmation of mixed running operation.

Further, as the operation authorization zone of the degraded vehicle, the method comprises the following steps:

when the protection zone (SDD) of the operation authorized zone of the downgraded vehicle locked at the downstream is occupied and the protection zone (SDD) of the operation authorized zone of the downgraded vehicle is cleared, TMC considers that the downgraded vehicle enters the operation authorized zone of the downgraded vehicle at the downstream and allows the operation authorized zone of the downgraded vehicle to be released;

further, the operation authorization prompting and detecting of the degraded vehicle comprises the following steps:

the degraded vehicle authorizes the train to run through the allowable state of the signal machine, and detects the movement of the degraded vehicle through the occupation and clearance of secondary detection equipment (a shaft counting or track circuit and the like);

and when the degraded vehicle arrives at the next stop platform along the running direction of the train, the operation authorization area of the degraded vehicle is an outbound signal from the first platform to the next platform.

In addition, the invention provides a degraded vehicle operation management device of the TACS system, which replaces the degraded vehicle by a train management platform (TMC), is in charge of information interaction with an intelligent scheduling system ATS, other trains and a SC, negotiates a running path request and resource allocation, and the ATS automatically manages the running path request of the degraded vehicle according to the occupation state of a trackside Secondary Detection Device (SDD) and a destination. The TMC requests resources from the resource manager SC according to the operation authorization area of the degraded vehicle, and automatically allocates and releases trackside resources corresponding to the operation authorization area of the degraded vehicle according to the movement of the degraded vehicle. The degraded vehicle is controlled to run according to the destination set for the train through the train destination, the SDD occupation/clear state and the signal machine state, so that the degraded vehicle can quickly reach the fault vehicle storage position, the SC requests the resources of the degraded vehicle operation authorization area and the resource allocation of the vehicle-to-vehicle communication train to perform conflict protection check through processing TMC, the operation of the degraded vehicle and the vehicle-to-vehicle communication train is not influenced mutually, the operation efficiency of the whole line is improved, and the running safety of the degraded vehicle and the normal train running in a mixed mode is guaranteed.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

The present embodiment relates to a train autonomous operation system, and a schematic diagram of architecture of each subsystem is shown in fig. 1, and includes an intelligent scheduling system ATS, a train management platform TMC, a resource controller SC, a target controller OC (full electronic execution unit), a vehicle controller CC, a data communication system DCS, and a maintenance support system MSS.

Fig. 2 is a schematic flow chart of the operation management of the degraded vehicle of the TACS system provided in this embodiment, where the method includes:

when a normal train on a line fails, the TMC automatically identifies the train as a degraded train and informs a resource controller SC to ensure that the SC maintains resources allocated before the failure for the degraded train so that the degraded train is not allocated to other trains, meanwhile, the SC negotiates with other trains about the resources of a degraded train operation authorization area associated with the position of the failed train, and after the resources occupied by other trains are released, the resources are preferentially allocated to the degraded train to ensure the operation safety;

TMC sends the information of the degraded vehicle (including the fault position thereof) to an intelligent scheduling system ATS;

after the dispatching terminal confirms, the ATS automatically plans a next operation path request according to the destination and the state of secondary detection equipment (SDD) where the train position is located, and sends the next operation path request to the TMC;

the TMC negotiates resources on a running path with the SC and other trains through a degraded train running authorization area according to a running path request received from the ATS, a degraded train position and a line running direction;

after the SC allocates resources for the degraded vehicle operation authorization area, opening an entrance protection annunciator, and authorizing the degraded vehicle to pass through the annunciator;

and after the degraded vehicle completely enters the operation authorized area of the degraded vehicle, the SC releases the resources associated with the operation authorized area of the previous degraded vehicle.

The degraded train is a train with communication failure between trains or is not provided with a TACS system train.

The method provided by the invention is used in the TACS, and the operation of the degraded vehicle is controlled in an automatic blocking mode. The method detects the position of the degraded vehicle through secondary detection equipment (SDD), and the ATS automatically sends a running path request to the TMC, the TMC replaces the degraded vehicle, negotiates resource allocation with the SC and other trains through a degraded vehicle running authorization area, and after the SC allocates resources for the degraded vehicle running authorization area, an entrance protection annunciator is opened, a driver is authorized to control the vehicle to run, so that the mutual influence between the degraded vehicle and the normal train with vehicle-to-vehicle communication is reduced, the running efficiency of a line is improved, and the safety of mixed running of the degraded vehicle and the normal train with vehicle-to-vehicle communication is ensured.

Further, on the basis of the above embodiment, as shown in fig. 4, the TMC replaces the downgrader car to be responsible for performing information interaction with the ATS and other trains, including that the ATS and the TMC request to negotiate a movement request through a running path, a train with normal adjacent car-to-car communication negotiates resource allocation with the TMC communication to ensure interval confirmation of mixed running operation, and the SC allocates resources to the downgrader car through the resource requested by the TMC in the downgrader car running authorization area, so as to ensure that the downgrader car is safely identified and tracked in the line.

As shown in fig. 5, when the train completely enters the authorized area for operation of the downgraded train, the SC automatically releases the resources in the authorized area for operation of the downgraded train at the upstream for use by other trains, and sends a new operation path request to the SC to automatically request the resources in the authorized area for operation of the downgraded train at the downstream through the ATS, so as to achieve the purpose of automatically blocking the train.

Further, on the basis of the above embodiment, the authorized area for the operation of the degraded vehicle is usually one station in the train and one area, as shown in fig. 6, the resource of the authorized area for the operation of the degraded vehicle is automatically released by the SC, and the resource of the authorized area for the operation of the next degraded vehicle is negotiated with other trains and the SC according to the request from the ATS operation path, which is convenient for the driver to delay the rapid operation according to the display of the traffic signal. According to the method, automatic inter-station blocking can be realized for the degraded vehicles only by arranging a small amount of secondary detection equipment (such as an axle counting) and an outbound signal machine beside the track, so that the running safety of the degraded vehicles is guaranteed. Meanwhile, the short-distance degraded vehicle operation authorization zone of one station and one section reduces the influence of the degraded vehicle on other trains on the line in the operation process.

It should be noted that, in this embodiment, after the train becomes a downgraded train due to a fault, when a driver connects and manages the train, the train is started only after the wireless dispatching system and the control center dispatcher confirm that there is no other train at the front signal, and then the train is controlled to run to a maintenance or storage position according to the signal display.

For example, when a train has a fault, a dispatcher and a driver confirm the position and the train number information of the train, the driver is informed to manually drive the train to stop before a signal machine, and the dispatcher sets a destination for a degraded train. The ATS sends a running path request to the TMC, and the TMC negotiates resources of a downstream degraded vehicle running authorization area with other trains and the resource management SC, so that the train with normal vehicle-to-vehicle communication at present timely adjusts a scheme according to the degraded vehicle running authorization area, and if other trains with normal vehicle-to-vehicle communication are arranged at the downstream of the position of the degraded vehicle, the trains are redistributed after the normal trains leave and release the resources, and the safety of a driver in manually driving the trains in the degraded vehicle running authorization area is guaranteed.

Further, on the basis of the above embodiment, at the boundary of the TACS system, the dispatcher manually requests the travel path in the train pickup direction to allow the train to be inserted into the TACS system from the non-TACS area in a degraded train mode, and perform safety management, and the flow diagram is shown in fig. 3:

after the train stops in front of the TACS boundary entrance signal machine, the ATS generates a running path request according to a destination manually set by a dispatcher;

the TMC negotiates resources with other trains and a resource management SC through a degraded train operation authorization area, and after the SC allocates resources for the degraded train, an entrance annunciator at the TACS boundary is opened to authorize the train to enter the TACS system;

TMC automatically generates a degraded vehicle at the TACS boundary;

and the degraded vehicle continuously operates to realize positioning, and after the TACS system finishes registration, the normal train of vehicle-to-vehicle communication is converted for management, otherwise, the management is continuously carried out through the authorized operation area of the degraded vehicle.

Further, when the degraded vehicle completely leaves the TACS system management area, the TMC will log off the degraded vehicle, and automatically release the last degraded vehicle operation authorization zone resource on the leaving path.

The method provides a safe and reliable mode for inserting/leaving the TACS system for the degraded vehicle through manual intervention of a dispatcher, and improves the efficiency of operation modes such as maintenance, rescue and insertion.

While the invention has been described with reference to specific embodiments, the invention is not limited thereto, and various equivalent modifications and substitutions can be easily made by those skilled in the art within the technical scope of the invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (9)

1. A degraded vehicle operation management method for a TACS system, characterized by comprising the steps of:

step S1, when the normal train on the line has a fault, the train management platform TMC automatically identifies the train as a degraded train and informs the resource controller SC, so that the SC maintains the resource allocated before the fault for the degraded train, and simultaneously the SC negotiates with other trains about the resource of the operation authorization area of the degraded train associated with the position of the fault train, and after the resource occupied by other trains is released, the resource is preferentially allocated to the degraded train;

step S2, the TMC sends the information of the degraded vehicle to an intelligent scheduling system ATS;

step S3, the ATS automatically plans a next operation path request according to the destination and the SDD state of the secondary detection equipment where the train position is located, and sends the next operation path request to TMC;

step S4, the TMC negotiates the resources on the operation path with other trains through SC in the authorization zone for the operation of the degraded vehicle according to the operation path request, the position of the degraded vehicle and the line operation direction received from the ATS;

step S5, opening an entrance protection annunciator after the SC allocates resources for the degraded vehicle operation authorization area, and authorizing the degraded vehicle to pass the annunciator;

step S6, after the degraded vehicle completely enters the authorized zone for the degraded vehicle to operate, the SC releases the resource associated with the authorized zone for the previous degraded vehicle to operate;

the information of the degraded vehicles comprises the positions of the degraded vehicles, and after the ATS receives the positions of the degraded vehicles from the TMC, the ATS performs the following operations:

the ATS sends a next operation path request to the TMC according to the position and the destination of the degraded vehicle;

the ATS realizes automatic tracking of the degraded vehicle according to the occupation or clear state of the SDD section and the degraded vehicle information from the TMC;

and the ATS displays the operation authorization distance of the degraded vehicle according to the information fed back by the TMC.

2. A method for managing the operation of degraded cars used in TACS system according to claim 1, characterized in that said TMC can automatically identify and generate degraded cars and notify ATS on the basis of a train failure or manual request by a dispatcher.

3. The method as claimed in claim 1, wherein the TMC receives a travel path request from the ATS and performs the following operations:

the TMC negotiates resource allocation with an SC corresponding to the position of the degraded train and an adjacent train according to the line running direction;

the method comprises the following steps that a degraded vehicle operation authorization area only authorizes a row of degraded vehicles to occupy, namely after an SDD corresponding to the degraded vehicle operation authorization area is occupied, an entrance protection signal machine of the degraded vehicle operation authorization area is closed;

and after the SDD corresponding to the degraded vehicle operation authorization area is cleared, the SC automatically identifies that the degraded vehicle completely enters the next degraded vehicle operation authorization area, and releases related resources.

4. The method for managing the operation of the degraded cars used in the TACS system according to claim 1, wherein the trains enter the TACS area from a non-TACS area, the ATS system allows the dispatcher to set a request for an operation path from an entrance thereof to the next platform, and the degraded cars are automatically generated after the operation authorized area of the degraded cars is locked;

only when the front traffic signal is open, the driver is allowed to start the degraded vehicle according to the traffic signal display.

5. The method as claimed in claim 1, wherein the TMC notifies the ATS and the trains adjacent thereto of the degraded vehicle information, the ATS negotiates a movement request with the TMC through a degraded vehicle operation path, and the trains communicating with the adjacent vehicles normally negotiate resource allocation with the SC to promote the running mix operation interval.

6. The method as claimed in claim 1, wherein the protection zone of the authorized zone for the operation of the downgraded car locked downstream is occupied, and after the protection zones of the authorized zone for the operation of the downgraded car are cleared, the SC considers that the downgraded car has entered the authorized zone for the operation of the downgraded car downstream, and allows the authorized zone for the operation of the downgraded car to be released.

7. The method for managing the operation of the degraded vehicle used in the TACS system according to claim 1, wherein the prompting and detecting of the operation authorization of the degraded vehicle includes:

the degraded vehicle authorizes the train to run through the signal machine permission state, and detects the movement of the degraded vehicle through the occupation and the clearance of the secondary detection equipment;

and when the degraded vehicle arrives at the next stop platform along the running direction of the train, the operation authorization area of the degraded vehicle is an outbound signal from the first platform to the next platform.

8. An apparatus for the degraded vehicle operation management method for TACS system of claim 1, characterized by comprising a train management platform TMC, an intelligent scheduling system ATS, a resource manager SC and a secondary detection device;

the train management platform TMC respectively performs information interaction with the intelligent scheduling system ATS, other trains with normal communication and the resource manager SC;

the ATS automatically sends a running path request to the TMC by combining with the information of the degraded vehicle provided by the TMC, the line position of the degraded vehicle, the state of secondary detection equipment, the running direction of the line and the destination;

the train management platform TMC requests resources from the resource manager SC according to the operation authorization area of the degraded vehicle, and automatically allocates and releases trackside resources corresponding to the operation authorization area of the degraded vehicle according to the movement of the degraded vehicle.

9. The apparatus of claim 8, wherein the apparatus implements automatic inter-station blocking for degraded vehicle operation by placing an outbound signal at an outbound port.

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