JP2014022878A - Communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication system that is able to adequately cope with a line failure due to a cause other than maintenance work while monitoring line failures during maintenance work in the case where maintenance work causing a line failure is conducted in a communication system.SOLUTION: A communication system according to the invention comprises: a plurality of devices each of which comprises a detachable interface part; a plurality of lines which make communication between the devices possible via the interface parts; a maintenance terminal 204 which, if maintenance work involving removal of the interface part on at least one line is conducted, functions as a setting unit to set a maintenance mode to the line before the maintenance work; and a notification unit for notifying the respective devices whether or not the maintenance mode is set to the lines.

Description

  The present invention relates to a communication system, and more particularly to a communication system when maintenance work is performed on a line in the system.

  In a communication system that controls the operation of a train as an example of a communication system, a leaky coaxial cable (LCX: Leaky Coa Xial Cable) is laid along a track, so that radio waves leaking from it are received, and the train and the ground Communicate with.

  The communication system is constructed from a host system, a central device, a control station device, a base station device, a repeater, and a mobile station mounted on a train. Each device can communicate with each other via a predetermined line.

  Digital communication is performed between each device, and when a line failure occurs, a communication device (including another communication system communicating with the communication system) is notified (patent) Reference 1).

JP 2008-11310 A (page 24, FIG. 7)

  When performing maintenance work (system inspection, equipment update, equipment replacement, etc.) in a communication system, it is necessary not to misidentify a line failure caused by the maintenance work as a line failure due to equipment failure, etc. . This is because it is unnecessary to perform an operation for resolving a failure caused by a line failure caused by maintenance work. Therefore, it can be set in advance not to detect the line failure itself while performing the work.

  However, in such a setting, there is a problem that a line failure cannot be monitored during maintenance work.

  The present invention has been made to solve the above-described problems. When performing maintenance work in which a line failure occurs in a communication system, the maintenance is performed while monitoring the line trouble during the maintenance work. An object of the present invention is to provide a communication system that can appropriately cope with a line failure caused by causes other than work.

  A communication system according to an aspect of the present invention includes a plurality of devices each including an attachable / detachable interface unit, a plurality of lines that enable communication between the devices through the interface unit, and at least one of the lines When the maintenance work is performed by removing the interface unit, the setting unit that sets the maintenance mode for the line before the maintenance work, and whether or not the maintenance mode is set for the line to each of the devices. And a notification unit for notifying.

  According to the above aspect of the present invention, when maintenance work is performed, a setting unit that sets a maintenance mode for the line before the maintenance work, and whether or not the maintenance mode is set for the line. By providing a notification unit that notifies the device, when performing maintenance work in which a line failure occurs in the communication system, the line failure during the maintenance work is monitored and a line failure due to a cause other than the maintenance work is detected. Can be dealt with appropriately.

It is a figure which shows notionally the structure of the communication system regarding embodiment of this invention. It is a flowchart which shows operation | movement of the communication system regarding embodiment of this invention. It is a figure which shows notionally the structure of the control station apparatus regarding embodiment of this invention. It is a figure which shows notionally the structure of the control station apparatus regarding embodiment of this invention. It is a figure which shows notionally the structure of the base station apparatus regarding embodiment of this invention. It is a figure which shows notionally the structure of the relay machine regarding embodiment of this invention. It is the figure which showed the state of the line | wire etc. in a central apparatus. It is a figure which shows the line structure between control station apparatuses.

  Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

<Embodiment>
<Configuration>
FIG. 1 is a diagram conceptually illustrating an example of a configuration of a communication system 100 according to the present embodiment of the present invention. As shown in FIG. 1, the communication system 100 includes a central device 101 that manages the entire communication system 100, a plurality of control station devices 102 that can communicate with the central device 101, and a plurality of control station devices 102 that can communicate with the control station device 102. A base station device 103; a plurality of relay devices 104 capable of communicating with the base station device 103; and a mobile station 105 (which can be assumed to be a train or the like) that performs wireless communication with the relay device 104. Each device communicates with each other via a wired or wireless line. Further, the communication system 100 can communicate with another communication system 200.

  FIG. 2 is a diagram conceptually showing the configuration of the central apparatus 101 according to this embodiment of the present invention. As shown in FIG. 2, the central device 101 includes another central device interface unit 201, a control unit 202, a maintenance terminal interface unit 203, a maintenance terminal 204, and a control station device interface unit 205.

  The other central apparatus interface unit 201 is mounted on, for example, a detachable substrate and is detachable from the main body of the central apparatus 101. An interface between the control unit 202 and the central apparatus (not shown) of the other communication system 200 is provided. Do.

  The control unit 202 manages the central device 101 and the communication system 100 as a whole.

  The maintenance terminal interface unit 203 is mounted on a detachable board, for example, and is detachable from the central apparatus 101 main body, and performs an interface between the control unit 202 and the maintenance terminal 204. Further, it communicates with the maintenance terminal 204 in the state of each device.

  The maintenance terminal 204 as a setting unit is operated by an operator to perform maintenance work (equipment inspection, equipment update, equipment replacement, etc.), specifically, before starting the interface part removal work, The maintenance mode is set to the connected line through the interface section. Here, the maintenance mode is a mode that is set for the line to which the interface unit that is the object of the maintenance work is connected. Even when a line failure is detected, it is not considered that a line failure has occurred due to a device failure or the like, but is regarded as a line failure caused by maintenance work. Here, the line failure means that the line is disconnected or the communication speed becomes lower than a predetermined communication speed. When the maintenance mode is not set, the normal mode is set.

  The control station apparatus interface unit 205 is detachable and provides an interface between the control unit 202 and the control station apparatus 102.

<Operation>
Next, an outline of the operation of the communication system 100 when performing maintenance work will be described with reference to FIG. FIG. 3 is a flowchart showing the operation of the communication system 100.

  First, the maintenance terminal is operated by an operator before the maintenance work is started, and as shown in FIG. 7, the own apparatus mode of the interface unit that is the object of the maintenance work is set to the maintenance mode. With this setting, the maintenance mode is set for the line connected to the interface unit (step S1). Here, the own device mode is a mode related to the interface unit of the own device. There is a counter device mode as a mode corresponding to the own device mode. The counter device mode is a mode related to the interface unit of the counter device. The opposite device is a device that communicates with the own device via a line connected to an interface unit to be subjected to maintenance work.

  Next, whether or not the maintenance mode is set for the line is notified to each device in the communication system and further in another communication system by the control unit as the notification unit (step S2).

  Next, a line failure is detected in the communication system (step S3).

  Next, the control unit as the identification unit identifies whether the line in which the line failure is detected is a line for which the maintenance mode is set (step S4), and when the maintenance mode is set (YES) ) Go to step S5, and if the maintenance mode is not set (NO), go to step S6.

  In step S5, the line failure is identified as a line failure associated with maintenance work.

  In step S6, the line failure is identified as a line failure due to equipment failure or the like.

  Hereinafter, the operation of the communication system 100 when the central apparatus 101 having the configuration shown in FIG. 2 is used will be specifically described.

  First, the maintenance terminal 204 is operated by an operator before the maintenance work is started, and the other central apparatus interface unit 201 connected to the other central apparatus line 2 and the line 2 for the control station apparatus B to be replaced in this maintenance work. The own apparatus mode of the connected control station apparatus interface unit 205 is set and inputted to set the maintenance mode.

  The maintenance terminal interface unit 203 that has received the setting input from the maintenance terminal 204 transmits information indicating the setting input to the control unit 202.

  The control unit 202 changes the state management database (database for managing the state of each line) of the corresponding line (the line 2 for the other central apparatus and the line 2 for the control station apparatus B). With this setting, the maintenance mode is set for the line 2 for the other central apparatus connected to the other central apparatus interface unit 201 and the line 2 for the control station apparatus B connected to the control station apparatus interface unit 205.

  Next, the control unit 202 notifies the central device (not shown) of the other communication system 200 via the other central device interface unit 201 of the presence / absence of the line maintenance mode setting (local device mode, opposite device mode). To do. Further, the control unit 202 notifies the control station device 102 of the presence / absence of the maintenance mode setting of the line (own device mode, opposite device mode) via the control station device interface unit 205. Whether or not the maintenance mode is set can be determined based on whether or not one of the own device mode and the opposite device mode is the maintenance mode.

  On the other hand, the control unit 202 acquires information regarding a line failure detected for one or more lines in the communication system 100. The detection is performed by, for example, a detection unit (not shown) provided in the communication system 100.

  The control unit 202 that has acquired the information regarding the line failure can identify whether or not the maintenance mode is set for the line in which the line failure is detected. When the maintenance mode is set for the line in which the line failure is detected, the line failure is identified as a line failure associated with the maintenance work. When the maintenance mode is not set for the line in which the line failure is detected, the line failure is identified as a line failure due to a device failure or the like. The identification operation may be performed by any device in the communication system 100 or the other communication system 200, and may be performed by a device that has acquired information regarding a line failure.

  The above identification is performed with reference to the state of each line as shown in FIG.

  As shown in FIG. 7, the information regarding each line includes the line state, the own apparatus mode, and the opposite apparatus mode. Here, the line state is information indicating the current state of the line. “Normal” indicates that no line failure is currently detected, and “abnormal” indicates that a line failure is currently detected. The information is set based on information detected by the detection unit.

  During the above identification operation, check whether the own device mode or the opposite device mode is the maintenance mode for the line whose state is "abnormal". If the line status “abnormality”, that is, the line failure is identified as being caused by maintenance work and the maintenance mode is not entered, the line status “abnormality” And so on.

  In FIG. 7, the line 2 for the other central apparatus is a line in which the other central apparatus interface unit 201 whose board is replaced in this maintenance work is connected to the own apparatus side, so that the own apparatus mode is set to the maintenance mode. Also, because the interface card is being inspected, a line failure has occurred and the line status is displayed as “abnormal”.

  Further, in FIG. 7, the line 2 for the control station apparatus B is a line in which the control station apparatus interface unit 205 whose board is replaced in this maintenance work is connected to the own apparatus side, so that the own apparatus mode is set to the maintenance mode. However, since the maintenance work has been completed, there is no current line failure and the line status is displayed as “normal”.

  In FIG. 7, the line 2 for the control station apparatus A is a line to which the central apparatus 101 is connected via an interface unit different from the control station apparatus interface unit 205, and the own apparatus mode is not set to the maintenance mode. However, since the opposite device connected to the line is performing maintenance work, the opposite device mode is displayed as maintenance mode, and the line status is displayed as “abnormal”.

  By such an operation, for example, even if the maintenance work is not properly communicated in advance, the maintenance terminal is set so that the line on which the worker performs the maintenance work is set to the maintenance mode via the maintenance terminal 204. By making a change input from 204, it is possible to identify whether the detected line failure is a line failure due to a device failure or a line failure due to maintenance work. Therefore, it is possible to appropriately cope with a line failure due to a device failure or the like without stopping the function of detecting a line failure, and it is possible to improve maintenance response efficiency.

  The maintenance mode can be canceled by the operator operating the maintenance terminal 204. However, a time for performing the maintenance work is set in advance, and automatically when the time has elapsed. The maintenance mode may be set to be released. Furthermore, a warning may be displayed on a screen provided in the maintenance terminal 204 when a predetermined time has elapsed since the maintenance mode was set.

  The maintenance mode is set from the interface unit that is the target of the maintenance work, but is set through another interface unit that is not the target of the maintenance work (for example, the interface unit on the opposite device side). May be.

<Modification 1>
In the above embodiment, the central apparatus 101 includes the maintenance terminal 204 and the like, and the line maintenance mode is set. However, the control station apparatus 102 may include the function.

  FIG. 4 is a diagram conceptually showing the configuration of the control station apparatus 102 in the communication system 100 according to the embodiment of the present invention. As shown in FIG. 4, the control station device 102 includes a central device interface unit 211, a control unit 212, a maintenance terminal interface unit 213, a maintenance terminal 214, a base station device interface unit 215, and other control station device interfaces. Part 216.

  The central device interface unit 211 is detachable and provides an interface between the control unit 212 and the central device 101.

  The control unit 212 manages the control station apparatus 102.

  The maintenance terminal interface unit 213 is detachable and provides an interface between the control unit 212 and the maintenance terminal 214. Further, it communicates with the maintenance terminal 214 in the state of each device.

  The maintenance terminal 214 is operated by an operator to set a maintenance mode via an interface unit that is replaced by a substrate before the maintenance work (for example, equipment inspection, equipment update, equipment replacement, etc.) is started. And release.

  The base station apparatus interface unit 215 is detachable and provides an interface between the control unit 212 and the base station apparatus 103.

  The other control station apparatus interface unit 216 is detachable and provides an interface between the control unit 212 and the other control station apparatus 102 in the communication system 100.

  In the above embodiment, the maintenance mode setting operation in the central apparatus 101 is described, but the control station apparatus 102 can perform the same processing.

  As shown in FIG. 8, for example, the line between the central apparatus 101 and the first control station apparatus among the plurality of control station apparatuses 102 becomes an all-line failure (disconnection) before the maintenance work is performed. In such a case, the first control station device cannot notify the central device 101 as the opposite device of the presence or absence of the line maintenance mode setting.

  In preparation for such a case, the second control station device or the third control station device in which a line is connected to the central device 101 among the plurality of control station devices 102 in the same manner as the first control station device. Thus, the presence / absence of the maintenance mode setting of the line can be notified.

  In the above operation, the priority of detours via lines connected to other control station apparatuses is defined in the control unit 212 of the control station apparatus 102, and all the lines with the central apparatus 101 are line faults. In such a case, it can be realized by performing communication with the central apparatus 101 via another control station apparatus (second control station apparatus or third control station apparatus) according to the detour order.

<Modification 2>
In the above embodiment, the central apparatus 101 includes the maintenance terminal 204 and the like, and the line maintenance mode is set. However, the base station apparatus 103 may include the function.

  FIG. 5 is a diagram conceptually illustrating the configuration of the base station apparatus 103 in the communication system 100 according to the embodiment of the present invention. As shown in FIG. 5, the base station apparatus 103 includes a control station apparatus interface unit 221, a control unit 222, a maintenance terminal interface unit 223, a maintenance terminal 224, and a repeater interface unit 225.

  The control station apparatus interface unit 221 is detachable and provides an interface between the control unit 222 and the control station apparatus 102.

  The control unit 222 manages the base station apparatus 103.

  The maintenance terminal interface unit 223 is detachable and provides an interface between the control unit 222 and the maintenance terminal 224. In addition, it communicates with the maintenance terminal 224 in the state of each device.

  The maintenance terminal 224 is operated by an operator, and sets and cancels the maintenance mode via the interface unit that replaces the substrate in the maintenance work before the maintenance work starts.

  The repeater interface unit 225 is detachable and provides an interface between the control unit 222 and the repeater 104.

  In the above embodiment, the maintenance mode setting operation in the central apparatus 101 is described, but the base station apparatus 103 can perform the same processing.

<Modification 3>
In the above-described embodiment, the central apparatus 101 includes the maintenance terminal 204 and the like, and the line maintenance mode is set. However, the relay device 104 may include the function.

  FIG. 6 is a diagram conceptually showing the configuration of the repeater 104 in the communication system 100 according to the embodiment of the present invention. As shown in FIG. 6, the repeater 104 includes a base station apparatus interface unit 231, a control unit 232, a maintenance terminal interface unit 233, a maintenance terminal 234, a mobile station interface unit 235, and another repeater interface unit 236. With.

  The base station apparatus interface unit 231 is detachable and provides an interface between the control unit 232 and the base station apparatus 103.

  The control unit 232 manages the relay device 104.

  The maintenance terminal interface unit 233 is detachable and provides an interface between the control unit 232 and the maintenance terminal 234. In addition, it communicates with the maintenance terminal 234 in the state of each device.

  The maintenance terminal 234 is operated by an operator, and sets and cancels the maintenance mode via the interface unit that replaces the substrate in the maintenance work before the maintenance work is started.

  The mobile station interface unit 235 is detachable and provides an interface between the control unit 232 and the mobile station 105.

  The other repeater interface unit 236 is detachable and provides an interface between the control unit 232 and the other repeater 104 in the communication system 100.

  In the above embodiment, the maintenance mode setting operation in the central apparatus 101 has been described, but the same processing can also be performed in the repeater 104.

<Effect>
According to the embodiment of the present invention, a communication system includes a plurality of devices each having an attachable / detachable interface unit, a plurality of lines enabling communication between the devices via the interface unit, and at least one line. When the maintenance work is performed by removing the interface unit, the maintenance terminal 204 as a setting unit for setting the maintenance mode for the line and whether or not the maintenance mode is set for the line before the maintenance work And a control unit 202 as a notification unit for notifying the user.

  According to such a configuration, by notifying the presence or absence of the maintenance mode setting of each line, the line trouble detected during the maintenance work is monitored, and the detected line trouble is caused by the maintenance work. It is possible to determine whether it is a line fault due to other causes or not and to deal with each appropriately.

  Further, according to the embodiment of the present invention, the control unit 202 as a notification unit notifies a counter device that is a device that performs communication via a line in which the maintenance mode is set.

  According to such a configuration, it is possible to grasp the progress of the maintenance work from the opposite device side to the device on which the maintenance work is performed by a simple method of setting operation at the maintenance terminal 204.

  Further, according to the embodiment of the present invention, when the control unit 202 as a notification unit performs notification to the opposite device, the notification is performed via a detour route other than the line for which the maintenance mode is set.

  According to such a configuration, even when a line for which the maintenance mode is set becomes an all-line failure (disconnection), it is possible to notify the opposite apparatus via the detour.

  Further, according to the embodiment of the present invention, the control unit 202 as the notification unit notifies the other communication system 200 that can communicate with the communication system 100.

  According to such a configuration, the progress of maintenance work and the like can be grasped in the other communication system 200.

  Further, according to the embodiment of the present invention, a detection unit that detects a line failure of a plurality of lines, and a control as an identification unit that identifies whether or not the maintenance mode is set for the line in which the line failure is detected. Unit 202.

  According to such a configuration, the control unit 202 as the identification unit is detected using the information on the line failure detected by the detection unit and the information on whether or not the maintenance mode is set on the line. It is possible to identify whether the line failure is a line failure due to maintenance work or a line failure due to other causes. Therefore, it is possible to select a line failure due to other causes and appropriately deal with it.

  In the present invention, any component in the present embodiment can be modified or omitted within the scope of the invention.

  100, 200 Communication system, 101 Central device, 102 Control station device, 103 Base station device, 104 Relay station, 105 Mobile station, 201 Other central device interface unit, 202, 212, 222, 232 Control unit, 203, 213, 223 , 233 Maintenance terminal interface section, 204, 214, 224, 234 Maintenance terminal, 205, 221 Control station apparatus interface section, 211 Central apparatus interface section, 215, 231 Base station apparatus interface section, 216 Other control station apparatus interface section, 225 Repeater interface unit, 235 Mobile station interface unit, 236 Other repeater interface unit.

Claims (11)

A plurality of devices each having a detachable interface unit;
A plurality of lines that enable communication between the devices through the interface unit;
When maintenance work is performed by removing the interface unit in at least one of the lines, a setting unit that sets a maintenance mode for the line before the maintenance work;
A notification unit that notifies each of the devices whether or not the maintenance mode is set for the line;
Communications system. The notification unit performs the notification to a counter device that is the device that performs communication via the line in which the maintenance mode is set.
The communication system according to claim 1. When the notification unit performs the notification to the opposite device, it is performed via a detour route other than the line set with the maintenance mode,
The communication system according to claim 2. The notification unit performs the notification to another communication system capable of communicating with the communication system.
The communication system according to any one of claims 1 to 3. The plurality of devices include
A central device for managing the entire communication system;
A control station device capable of communicating with the central device;
A base station device capable of communicating with the control station device;
Including a repeater capable of communicating with the base station device,
The communication system according to any one of claims 1 to 4. The central device includes the setting unit and the notification unit, respectively.
The communication system according to claim 5. The control station apparatus includes the setting unit and the notification unit, respectively.
The communication system according to claim 5. The base station device includes the setting unit and the notification unit, respectively.
The communication system according to claim 5. The relay device includes the setting unit and the notification unit, respectively.
The communication system according to claim 5. The communication system is a communication system that performs wireless communication with a train,
The communication system according to claim 1. A detection unit for detecting a line failure of the plurality of lines;
An identification unit for identifying whether or not the maintenance mode is set for the line in which the line failure is detected,
The communication system according to claim 1.

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