CN211207963U - Standard operation comparison system for flat shunting based on digital voice - Google Patents

Abstract

The utility model discloses a standardized operation of flat shunting compares system based on digital voice, including train management platform, shunting operation communication module, the handheld platform of flat shunting, flat shunting machine controller and flat shunting district long platform, train management platform is including the wireless communication module that meets in proper order, signaling receiver, data encapsulation module and platform data contrast module, and data encapsulation module's input has connect the node identification and sets up the unit, and platform data contrast module has connect the file manager, and the file manager has connect operation flow input module. The utility model discloses the standardized shunting operation flow and the standardized shunting operation flow of storage are compared with node identification corresponding relation in received shunting signaling and the train management platform to export the shunting signaling in the standardized shunting operation flow through the back in the contrast, turn into the shunting signaling of standardized form with the nonstandard or nonstandard shunting signaling, improved accuracy and the efficiency that the shunting operation was handled.

Description

Standard operation comparison system for flat shunting based on digital voice

Technical Field

The utility model belongs to the technical field of the railway safety control, concretely relates to standardized operation of flat shunting compares system based on digital voice.

Background

In the railway transportation production process, except for the arrival, departure, passing and operation of trains in the stations, all purposeful movement of rolling stock is generally called shunting. The flat shunting system is an important safety device for preventing the accidents of extrusion, collision and impact of shunting operation and the personal casualty accidents of shunting operation personnel.

The completion of the flat shunting task is realized by the communication between operators such as a shunting chief and a shunting worker, at present, a flat shunting system comprises a district long platform, a portable platform used by a dispatcher and a machine controller of a locomotive driver, and the three are mainly transmitted by wireless communication for shunting instructions. The safety requirement of the flat shunting operation on the wireless communication service is higher, and the transmission speed of the signaling is required to be fast, accurate and reliable, so that the working efficiency is improved.

The signaling is divided into analog signals and digital signaling according to signal forms. The information is easily lost when the analog signal is transmitted in the air, or the analog signal is interfered by external connection, the information transmission is incomplete, and an error instruction occurs. The limited coding capacity and lower transmission speed of analog signaling have not been able to accommodate the needs of wireless communication development. With the rapid development of integrated circuit technology and computer technology, the level of production technology has rapidly increased, and from the mid-eighties of the last century, analog signaling has been converted to digital signaling, and digital signaling technology has been increasingly used.

The communication content of the flat shunting comprises voice signaling, color lamp signaling, signal flag signaling, siren signaling and the like. The voice signaling is transmitted and recognized in a voice mode, but the voice input is influenced by factors such as an unfriendly environment, various different speaking modes, pronunciation accuracy, radio reception capacity and the like, so that the problem that the voice signaling is not standard exists.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem lie in not enough to above-mentioned prior art, a standardized operation of shunting compares system based on digital voice is provided, a structure is simple, and reasonable design, standardized shunting operation flow and the standardized shunting operation flow of storage are compared with node sign corresponding relation in shunting signaling and the train management platform of handheld platform of shunting of plane and the input of plane shunting machine controller, and output standardized shunting operation flow and node sign corresponding relation after the contrast, the shunting signaling that turns into standardized form with unnormal or nonstandard shunting signaling, the accuracy and the efficiency of shunting operation processing have been improved.

In order to solve the technical problem, the utility model discloses a technical scheme is: standardized operation of flat shunting compares system based on digital pronunciation its characterized in that: comprises a train management platform, a shunting operation communication module, a plane shunting handheld platform, a plane shunting machine controller and a plane shunting area long platform which are in wireless communication connection with the train management platform, the train management platform comprises a wireless communication module, a signaling receiver, a data encapsulation module and a platform data comparison module which are connected in sequence, the input end of the data encapsulation module is connected with a node identification setting unit, the platform data comparison module is connected with a file manager for storing the operation flow and the corresponding relation between the operation flow and the node identification, the file manager is connected with a work flow input module for inputting work flows and the corresponding relation between the work flows and the node identifications, the platform data comparison module is in communication connection with the shunting operation communication module, and the wireless communication module is in communication connection with the plane shunting handheld platform, the plane shunting machine controller and the plane shunting area long platform.

The above-mentioned standardized operation of flat shunting compares system based on digital pronunciation, its characterized in that: the signaling receiver is connected with a memory.

The above-mentioned standardized operation of flat shunting compares system based on digital pronunciation, its characterized in that: the shunting operation communication module comprises a wireless communication unit and a data transmission line.

The above-mentioned standardized operation of flat shunting compares system based on digital pronunciation, its characterized in that: the handheld platform of flat shunting includes handheld platform control panel, first power module, first signaling collector, first channel machine and first signaling display module, it has first audio encoder to connect between handheld platform control panel and the first signaling collector, it has first communication module to connect between handheld platform control panel and the first channel machine, it has first audio decoder and first data contrast module to connect in proper order between handheld platform control panel and the first signaling display module, first data contrast module has connect first standard signaling memory, and first power module provides the electric energy for the power consumption module in the handheld platform of flat shunting.

The above-mentioned standardized operation of flat shunting compares system based on digital pronunciation, its characterized in that: the handheld station control board is also connected with a specific person voice recognition module.

The above-mentioned standardized operation of flat shunting compares system based on digital pronunciation, its characterized in that: the plane shunting machine controller comprises a machine controller control panel, a second power supply module, a second signaling collector, a second channel machine and a second signaling display module, a second audio encoder is connected between the machine controller control panel and the second signaling collector, a second communication module is connected between the machine controller control panel and the second channel machine, a second audio decoder and a second data comparison module are sequentially connected between the machine controller control panel and the second signaling display module, the second data comparison module is connected with a second standard signaling memory, and the second power supply module provides electric energy for a power utilization module in the plane shunting machine controller.

The above-mentioned standardized operation of flat shunting compares system based on digital pronunciation, its characterized in that: the plane shunting district long platform includes district long platform control panel, third power module, third channel machine and third signaling display module, it has third communication module to connect between machine controller control panel and the third channel machine, it has third audio decoder and third data contrast module to connect gradually between machine controller control panel and the third signaling display module, third data contrast module has connect the third standard signaling memory, and third power module provides the electric energy for the power consumption module in the plane shunting district long platform.

The above-mentioned standardized operation of flat shunting compares system based on digital pronunciation, its characterized in that: and a platform decoder is connected between the signaling receiver and the memory.

Compared with the prior art, the utility model has the following advantage:

1. the utility model has the advantages of simple structure and reasonable design, realize and use convenient operation.

2. The utility model discloses be provided with node identification and set up the unit for carry out logic node identification setting to signaling receiver received shunting signaling, make things convenient for the flow management of shunting signaling.

3. The utility model discloses be provided with operation flow input module for staff's input, correction and delete standardized shunting operation flow and node identification corresponding relation, excellent in use effect.

4. The utility model discloses the standard shunting operation flow and the standardized shunting operation flow of storage are compared in the shunting signaling of handheld platform of plane shunting and the input of plane shunting machine controller and the train management platform with node identification corresponding relation, and the standardized shunting operation flow and the node identification corresponding relation of storage in the contrast through back output train management platform, realized will be because the shunting signaling that phenomenon such as handheld platform of plane shunting and plane shunting machine controller input custom or input error leads to is not standard or nonstandard shunting signaling turns into the shunting signaling of standardized form, the accuracy and the efficiency of shunting operation processing have been improved.

To sum up, the utility model has the advantages of simple structure and reasonable design, standardized shunting operation flow and the standardized shunting operation flow of saving are compared with node identification corresponding relation in the shunting signaling of handheld platform of plane shunting and the input of plane shunting machine accuse ware and the train management platform to export standardized shunting operation flow and node identification corresponding relation after the contrast is passed through, turn into the shunting signaling of standardized form with the shunting signaling of non-standard or non-standard, improved accuracy and the efficiency that the shunting operation was handled.

The technical solution of the present invention is further described in detail by the accompanying drawings and examples.

Drawings

Fig. 1 is a schematic block diagram of the circuit of the present invention.

Fig. 2 is a schematic circuit diagram of the flat shunting handheld station of the present invention.

Fig. 3 is the circuit schematic block diagram of the planar shunting machine controller of the present invention.

Fig. 4 is a schematic circuit diagram of the long platform in the shunting plane of the present invention.

Description of reference numerals:

1-a console control panel; 10-a first data comparison module; 11-a first signaling collector; 12-a first audio encoder; 13-a first channel machine; 14 — a first communication module; 15-specific person voice recognition module; 16 — a first power supply module; 17-a first signaling display module; 18-a first audio decoder; 19-first standard signalling memory; 2-machine control panel; 21-a second signaling collector; 22-a second audio encoder; 23-a second channel machine; 24-a second communication module; 25-a second power supply module; 26-a second data comparison module; 27-a second signaling display module; 28-a second audio decoder; 29-second standard signaling memory; 3-control board of district growing platform; 31 — a third audio decoder; 32-third standard signaling memory; 33-a third channel machine; 34-a third communication module; 35-a third power supply module; 36-third data comparison module; 37-third signaling display module; 4-train management platform; 40-a wireless communication module; 41-a signaling receiver; 42-a platform decoder; 43-a memory; 44-node identification setting unit; 45-data encapsulation module; 46-platform data comparison module; 47 — a workflow input module; 48-file manager; 5, a long platform of a plane shunting area; 6-planar shunting locomotive controller; 7-a flat shunting handheld platform; 8-shunting operation communication module.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and embodiments of the present invention.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are, for example, capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Spatially relative terms, such as "above … …," "above … …," "above … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

As shown in fig. 1 to 4, the present invention comprises a train management platform 4, a shunting operation communication module 8, and a flat shunting handheld 7, a flat shunting controller 6 and a flat shunting section bar 5 connected with the train management platform 4 in a wireless communication manner, wherein the train management platform 4 comprises a wireless communication module 40, a signaling receiver 11, a platform decoder 42, a data encapsulation module 45 and a platform data comparison module 46 connected in sequence, the input end of the data encapsulation module 45 is connected with a node identifier setting unit 44, the platform data comparison module 46 is connected with a file manager 48 for storing a standardized shunting operation flow and a corresponding relationship between the standardized shunting operation flow and the node identifier, the file manager 48 is connected with an operation flow input module 47 for inputting the standardized shunting operation flow and the corresponding relationship between the standardized shunting operation flow and the node identifier, the platform data comparison module 46 is in communication connection with the shunting operation communication module 8, and the wireless communication module 40 is in communication connection with the plane shunting handheld platform 7, the plane shunting machine controller 6 and the plane shunting section long platform 5.

In specific implementation, the planar shunting handheld station 7 and the planar shunting controller 6 are provided with a signaling acquisition module and a channel machine connected with the signaling acquisition module. The planar shunting handheld platform 7 and the planar shunting controller 6 have a shunting instruction sending function, a voice communication function, a shunting instruction voice prompt function, a shunting operation sheet receiving, storing and displaying function and the like, and the planar shunting district platform 5 has a voice communication function, a shunting instruction voice prompt function, a shunting operation sheet receiving, storing and displaying function and the like. Therefore, the shunting command can be sent through the plane shunting handheld platform 7 and the plane shunting machine controller 6.

The workflow and the correspondence between the workflow and the node id can be input through the workflow input module 47, and the file manager 48 stores the workflow and the correspondence between the workflow and the node id. The operation process is the mapping relation between a plurality of shunting signaling and the node identification.

The non-communication module 40 receives shunting signaling sent by the planar shunting handheld platform 7 and the planar shunting machine controller 6, and transmits the received shunting signaling to the signaling receiver 41 through a data transmission line, the signaling receiver 41 receives shunting signaling sent by the planar shunting handheld platform 7 and the planar shunting machine controller 6, the signaling receiver 41 is connected with a memory 42, the signaling receiver 41 stores the received shunting signaling in the memory 42, meanwhile, the signaling receiver 41 transmits the received shunting signaling to the data encapsulation module 45, the data encapsulation module 45 performs data encapsulation on the shunting signaling and a logical node identifier set by the node identifier setting unit, and transmits the data packet to the platform data comparison module 46.

The platform data comparison module 46 retrieves the operation flows and the corresponding relations between the operation flows and the node identifiers stored in the file manager 48, compares the shunting signaling and the logical node identifiers in the data packets with the operation flows and the corresponding relations between the operation flows and the node identifiers in the file manager 48, and if the logical node identifiers in the data packets are consistent with the node identifiers in the file manager 48 but the shunting signaling corresponding to the logical node identifiers in the data packets are not consistent with the operation flows corresponding to the node identifiers in the file manager 48, the comparison fails, and it is considered that the shunting operation signaling sent by the planar shunting handheld platform 7 and the planar shunting machine controller 6 is not standard. Otherwise, the comparison is successful, and the shunting operation signaling sent by the planar shunting handheld platform 7 and the planar shunting machine controller 6 is considered to meet the shunting standard, and at this time, the platform data comparison module 46 sends the operation flow corresponding to the node identifier and the node identifier in the file manager 48 through the shunting operation communication module 8, so that the shunting signaling with non-standard or non-standard shunting signaling caused by the phenomena of input habits or input errors of the planar shunting handheld platform 7 and the planar shunting machine controller 6 is converted into the shunting signaling in a standardized form, and the accuracy and the efficiency of shunting operation processing are improved.

In actual use, the shunting operation communication module 8 is connected with a shunting terminal, and the shunting terminal comprises a mobile phone, a computer and a management platform.

In this embodiment, the shunting operation communication module 8 includes a wireless communication unit and a data transmission line.

In this embodiment, the handheld console 7 of the flat shunting comprises a handheld console control panel 1, a first power supply module 16, a first signaling collector 11, a first channel machine 13 and a first signaling display module 17, a first audio encoder 12 is connected between the handheld console control panel 1 and the first signaling collector 11, a first communication module 14 is connected between the handheld console control panel 1 and the first channel machine 13, a first audio decoder 18 and a first data comparison module 10 are sequentially connected between the handheld console control panel 1 and the first signaling display module 17, the first data comparison module 10 is connected with a first standard signaling memory 19, and the first power supply module 16 provides electric energy for a power utilization module in the handheld console 7 of the flat shunting.

In practical use, when the mobile phone is to send a shunting signaling, the first signaling collector 11 comprises a voice input module, the voice signaling is input through the voice input module, the first audio encoder 12 encodes the voice signaling, converts the encoded voice signaling into a digital audio signal and transmits the digital audio signal to the mobile phone control board 1, the mobile phone control board 1 transmits the digital audio signal to the first channel machine 13 through the first communication module 14, and the first channel machine 13 transmits the digital audio signal.

When the handheld station receives a shunting signaling, the first channel machine 13 receives a digital audio signal and transmits the digital audio signal to the handheld station control board 1 through the first communication module 14, the handheld station control board 1 transmits the digital audio signal to the first audio decoder 18, the first audio decoder 18 converts the digital audio signal into an analog voice signal, the first data comparison module 10 is used for checking the analog voice signal transmitted by the first audio decoder 18 with a railway voice signaling standard table stored in the first standard signaling memory 19, and transmits a corresponding standard voice signaling to the first signaling display module 17 when the checking is consistent, and the first signaling display module 17 outputs the standard voice signaling through the voice playing module.

Compare in button transmission shunting signaling, speech recognition can be faster, more accurate transmit, compare the mode transmission shunting signaling of discernment through speech signaling, and intelligent degree is high and use easy and simple to handle, reduced shunting signaling maloperation's probability, excellent in use effect.

In this embodiment, a platform decoder 42 is connected between the signaling receiver 41 and the memory 43.

In this embodiment, the console control board 1 is further connected to a specific person voice recognition module 15. In practical use, the speaker-specific speech recognition module 15 can only recognize the speech of one person or a plurality of persons, and it should be noted that, in this embodiment, the speaker-specific speech recognition module 15 adopts an RSC-4X series chip, and the console control board 1 adopts a single chip microcomputer chip.

The operator's voice is first input through the person-specific voice recognition module 15 and the handheld station control board 1 stores the operator's voice in the first standard signaling memory 19. In the working process, the speaker-specific voice recognition module 15 performs voice recognition comparison on the voice signaling input through the first signaling collector 11 and the voice of the staff stored in the first standard signaling storage 19, and when the recognition comparison is passed, that is, the staff inputs the voice signaling, the handheld station control panel 1 sends out the digital audio signal encoded by the voice; when the identification comparison fails, that is, the voice signaling is not sent by the staff, the handheld station control board 1 does not process the voice signaling. Through setting up specific people speech recognition module 15, increased the service authority of handheld platform, avoided handheld platform by malicious utilization, avoided the emergence of shunting accident.

In this embodiment, the planar shunting machine controller 6 includes a machine controller control panel 2, a second power supply module 25, a second signaling collector 21, a second channel machine 23, and a second signaling display module 27, a second audio encoder 22 is connected between the machine controller control panel 2 and the second signaling collector 21, a second communication module 24 is connected between the machine controller control panel 2 and the second channel machine 23, a second audio decoder 28 and a second data comparison module 26 are sequentially connected between the machine controller control panel 2 and the second signaling display module 27, the second data comparison module 26 is connected to a second standard signaling memory 29, and the second power supply module 25 provides electric energy for a power utilization module in the planar shunting machine controller 6.

In practical use, when the controller is about to send a shunting signaling, the second signaling collector 21 includes a voice input module, the voice signaling is input through the voice input module, the second audio encoder 22 encodes the voice signaling, converts the encoded voice signaling into a digital audio signal and transmits the digital audio signal to the controller control board 2, the controller control board 2 transmits the digital audio signal to the second channel machine 23 through the second communication module 24, and the second channel machine 23 transmits the digital audio signal.

When the locomotive controller receives the shunting signaling, the second channel machine 23 receives the digital audio signal and transmits the digital audio signal to the machine controller panel 2 through the second communication module 24, the machine controller panel 2 transmits the digital audio signal to the second audio decoder 28, the second audio decoder 28 converts the digital audio signal into an analog voice signal, the second data comparison module 26 is used for checking the analog voice signal transmitted by the second audio decoder 28 with the railway voice signaling standard table stored in the second standard signaling memory 29 and transmitting the corresponding standard voice signaling to the second signaling display module 27 when the checking is consistent, and the second signaling display module 27 outputs the standard voice signaling through the voice playing module.

In this embodiment, the planar shunting district station 5 includes a district station control board 3, a third power supply module 35, a third channel machine 33 and a third signaling display module 37, a third communication module 34 is connected between the district station control board 3 and the third channel machine 33, a third audio decoder 31 and a third data comparison module 36 are sequentially connected between the district station control board 3 and the third signaling display module 37, the third data comparison module 36 is connected with a third standard signaling memory 32, and the third power supply module 35 provides electric energy for an electricity utilization module in the planar shunting district station 5.

When the head office receives the shunting signaling, the third channel machine 33 receives the digital audio signal and transmits the digital audio signal to the head office control board 3 through the third communication module 34, the head office control board 3 transmits the digital audio signal to the third audio decoder 31, the third audio decoder 31 converts the digital audio signal into an analog voice signal, the third data comparison module 36 is used for checking the analog voice signal transmitted by the third audio decoder 31 with the railway voice signaling standard table stored in the third data comparison module 36, and transmits the corresponding standard voice signaling to the third signaling display module 37 when the checking is consistent, and the third signaling display module 37 outputs the standard voice signaling through the voice playing module.

Wherein those matters not described in detail in the specification are prior art known to those skilled in the art.

The aforesaid, only be the embodiment of the utility model discloses an it is not right the utility model discloses do any restriction, all according to the utility model discloses the technical entity all still belongs to any simple modification, change and the equivalent structure change of doing above embodiment the utility model discloses technical scheme's within the scope of protection.

Claims (8)

1. Standardized operation of flat shunting compares system based on digital pronunciation its characterized in that: the system comprises a train management platform (4), a shunting operation communication module (8), and a plane shunting handheld platform (7), a plane shunting machine controller (6) and a plane shunting section long platform (5) which are in wireless communication connection with the train management platform (4), wherein the train management platform (4) comprises a wireless communication module (40), a signaling receiver (41), a data encapsulation module (45) and a platform data comparison module (46) which are sequentially connected, the input end of the data encapsulation module (45) is connected with a node identification setting unit (44), the platform data comparison module (46) is connected with a file manager (48) which is used for storing a standardized shunting operation flow and the corresponding relation between the standardized shunting operation flow and the node identification, the file manager (48) is connected with an operation flow input module (47) which is used for inputting the standardized shunting operation flow and the corresponding relation between the standardized shunting operation flow and the node identification, platform data contrast module (46) and shunting operation communication module (8) communication connection, wireless communication module (40) and the handheld platform of plane shunting (7), plane shunting machine accuse ware (6) and the long platform of plane shunting (5) all communication connection.

2. The digital voice-based flat shunting standardized operation comparison system according to claim 1, characterized in that: the signaling receiver (41) is connected with a memory (43).

3. The digital voice-based flat shunting standardized operation comparison system according to claim 1, characterized in that: the shunting operation communication module (8) comprises a wireless communication unit and a data transmission line.

4. The digital voice-based flat shunting standardized operation comparison system according to claim 1, characterized in that: the plane shunting handheld station (7) comprises a handheld station control board (1), a first power supply module (16), a first signaling collector (11), a first channel machine (13) and a first signaling display module (17), a first audio encoder (12) is connected between the handheld station control board (1) and the first signaling collector (11), a first communication module (14) is connected between the handheld station control board (1) and the first channel machine (13), a first audio decoder (18) and a first data comparison module (10) are sequentially connected between the handheld station control board (1) and the first signaling display module (17), the first data comparison module (10) is connected with a first standard signaling memory (19), and the first power supply module (16) provides electric energy for a power utilization module in the plane shunting handheld station (7).

5. The digital voice-based flat shunting standardized operation comparison system according to claim 4, characterized in that: the handheld station control board (1) is also connected with a specific person voice recognition module (15).

6. The digital voice-based flat shunting standardized operation comparison system according to claim 1, characterized in that: the plane shunting machine controller (6) comprises a machine controller control panel (2), a second power supply module (25), a second signaling collector (21), a second channel machine (23) and a second signaling display module (27), a second audio encoder (22) is connected between the machine controller control panel (2) and the second signaling collector (21), a second signaling module (24) is connected between the machine controller control panel (2) and the second channel machine (23), a second audio decoder (28) and a second data comparison module (26) are sequentially connected between the machine controller control panel (2) and the second signaling display module (27), the second data comparison module (26) is connected with a second standard signaling memory (29), and the second power supply module (25) provides electric energy for a power utilization module in the plane shunting machine controller (6).

7. The digital voice-based flat shunting standardized operation comparison system according to claim 1, characterized in that: the plane shunting district long platform (5) includes district long platform control panel (3), third power module (35), third channel machine (33) and third signaling display module (37), it has third signaling module (34) to connect between district long platform control panel (3) and third channel machine (33), it has third audio decoder (31) and third data contrast module (36) to connect gradually between district long platform control panel (3) and third signaling display module (37), third data contrast module (36) have connect third standard signaling memory (32), and third power module (35) provides the electric energy for the power module in plane shunting district long platform (5).

8. The digital voice-based flat shunting standardized operation comparison system according to claim 2, characterized in that: and a platform decoder (42) is connected between the signaling receiver (41) and the memory (43).

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