JPH10304057A - Terminal equipment monitoring system and control method therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent a wrong set or unset state and also to prevent such a case where the supervisory control is impossible after a controller is started by setting automatically a circuit number for the supervisory control. SOLUTION: A remote supervisory controller 1 performs the supervisory control of terminal equipments 2-1, 2-2, 2-3 and 2-4. Each of equipments 2-1 to 2-4 which are connected together via a communication circuit 3 has an initialization part 4 which performs a prescribed arithmetic process based on its inherent number and automatically sets its circuit number. Thus, the controller 1 and every terminal equipment are connected to each other via a user circuit having an initialized number. The user circuit serves as the circuit exclusive for the supervisory control.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a terminal device monitoring system for monitoring and controlling a plurality of terminal devices via a communication line, and a control method therefor.

[0002]

2. Description of the Related Art For example, a large number of exchanges connected via a communication line are monitored and controlled using a remote monitoring and control device in order to secure the reliability of their operations and secure stable communication. . In this case, a part of the user line provided between the terminal device and the remote monitoring control device is used for the monitoring control data link of each terminal device. That is, when a new switch is connected to the line, a user line for a supervisory control data link is set in the switch. This setting is realized by the operator writing a specific line number in a nonvolatile memory or the like of the exchange. On the side of the remote monitoring control device, the device number of the exchange and the user line number for monitoring control are stored. In this way, the remote monitoring control device is connected to each exchange via its user line, and the monitoring control is executed.

[0003]

However, the above-mentioned prior art has the following problems to be solved.
When monitoring and controlling terminal devices such as a number of exchanges connected to a communication line, it is necessary for these devices to set separate user lines for monitoring and control. However, there are cases where the line number setting of the user line is wrong or the device is started up by forgetting such setting.
In such a case, since there is no data link between the remote monitoring control device and the terminal device, there is a problem that monitoring control cannot be performed. Without such a data link, the setting change cannot be controlled from the remote monitoring control device side in order to change the setting. Therefore, complicated processing such as the attendant going to the place where the corresponding terminal device is arranged and performing resetting is required.

[0004]

The present invention employs the following structure to solve the above problems. <Configuration 1> In a system in which a remote monitoring control device is connected to a plurality of terminal devices via a communication line, each terminal device to be monitored is assigned a unique device number in advance, and each terminal device is A terminal device monitoring system, comprising: an initial setting unit for initially setting a line number generated by performing predetermined arithmetic processing on the device number to a monitoring line number connected to the remote monitoring control device. .

<Configuration 2> When the remote monitoring control device performs monitoring control of a system connected to a plurality of terminal devices via a communication line, each terminal device to be monitored includes:
A unique device number is assigned in advance, and each terminal device initializes a line number generated by performing predetermined arithmetic processing on the device number to a monitoring line number connected to the remote monitoring control device. Characteristic terminal device monitoring and control method.

<Configuration 3> When the remote monitoring and control device performs monitoring control of a system connected to a plurality of terminal devices via a communication line, each terminal device to be monitored includes:
A unique device number is assigned in advance, and each terminal device initializes a line number generated by performing a predetermined arithmetic process on the device number to a monitoring line number connected to the remote monitoring control device, A terminal device monitoring and control method, wherein a notification of a change in the setting of the line number is sent from the remote monitoring and control device to change the contents of the initial setting.

[0007]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below using specific examples. <Example> FIG. 1 is a block diagram showing an example of a system according to the present invention. Remote monitoring control device 1 shown in FIG.
Monitors and controls the terminal devices 2-1, 2-2, 2-3, and 2-4 via the communication line 3. Note that the terminal device 2-1 directly connected to the remote monitoring control device 1 is a master device, and the other terminal devices 2-2, 2-3, and 2-4 are slave devices. These are exchanges each accommodating the communication line 3. The communication line 3 has a large number of logical user lines.

On the other hand, each terminal device 2-1, 2-2, 2-
Reference numerals 3 and 2-4 are mutually connected to the remote monitoring control device 1 via a user line having a preset line number.
This user line becomes a line for monitoring and control. In order to automatically set such a user line, each terminal device 2-
Each of 1, 2, 2-2, 2-4 is provided with an initial setting unit 4 as shown in the figure. The set line number is a TSI (time slot interchanger) 9
It is stored in a non-volatile memory (not shown).

The time slot interchanger 9 has a function of performing a process of exchanging time slots between an incoming highway and an outgoing highway of a time-division communication path. A user line is allocated to each time slot. One of the user lines is used for supervisory control. As a result, a data link is established between each slave device and the remote monitoring control device 1.

A schematic diagram of the entire remote monitoring system will be described with reference to FIG. In the example of this figure, the system is configured by connecting one master device 11 and many slave devices 12 to 15 to the communication line 3 having such a loop configuration. The slave devices 12 to 15 are arbitrarily added or stopped. When starting up each of the slave devices 12 to 15, the remote monitoring control device 1 and each of the slave devices 12 to 15
Establish a data link for monitoring and control between The present invention provides means for automatically and reliably performing this data link at the time of starting each slave device.

In this example, the device number of the master device 11 is 1, the device number of the slave device 12 is 2, the device number of the slave device 13 is 3, the device number of the slave device 14 is 4, and the device number of the slave device 15 is set in advance. Was set to 5. The device number is uniquely assigned in advance to distinguish each terminal device connected to the communication line 3 and stored in a nonvolatile memory or the like of each terminal device. In the present invention, this device number is used for initial setting of a line number for establishing a data link.

Returning to FIG. 1, the system operation of this embodiment will be described. The initial setting unit 4 provided in each terminal device 2-2, 2-3, 2-4 automatically generates a line number from the device number of each terminal device. In this example, the line number is generated by a simple arithmetic processing. Here, arithmetic processing is performed by the following equation (1). Line number = 6 × (device number−2) +1 (1)

As a result of such arithmetic processing, the device number 2
The line number of the terminal device 2-2 is 1, the line number of the terminal device 2-3 having the device number 3 is 7, and the terminal device 2 having the device number 4 is 2
The line number of -4 is 13. This result is also stored in the remote monitoring control device 1 as, for example, table data 5.
Thus, the remote monitoring control device 1 and each of the terminal devices 2-2, 2
A data link user line for monitoring and control is established between -3 and 2-4, and predetermined information exchange is performed.

FIG. 3 is a diagram for explaining the operation of the system of the present invention. With reference to this figure, the operation from the start-up of the system to the setting of the line number and its change processing will be described. First, when connecting the terminal device 2-1 to the communication line 3, the operator sets the device number of the device (step S1). Here, the device number is set to 2. The setting of the device number is performed by, for example, a dip switch. Next, when the power supply of the device is turned on, in step S2, the initial setting unit 4 reads the device number, and calculates the line number using the above-described equation (1).

The line number is 1 if the device number is 2. Then, in step S3, this line number is
It is stored in TSI9. Thus, the user line having the line number 1 is set as the data link between the remote monitoring control device 1 and the terminal device 2-1.

As described above, the data link is automatically established simultaneously with the start-up of the device, and the line number is set in correspondence with the unique device number. There is no duplication with this device. After the line number is set in this way, the remote monitoring control device 1 can freely change the line setting newly. In that case, in step S4, the remote monitoring control device 1 notifies the terminal device 2-1 of the setting change. Terminal device 2
The setting change unit 8 provided at -1 changes the line number to the number specified by the remote monitoring control device 1 in step S5. The result of the change is written into the TSI 9 again.

After the basic initial settings have been made in this way, the setting can be changed to an arbitrary line number by the remote monitoring control device 1. Of course, the change can be made by remote processing. In the case where the initial setting unit 4 attempts to calculate the line number, if there is any deficiency in the device number, an error or the like is notified to the operator, so that the initial setting error can be avoided.

[0018]

According to the system of the present invention having the above configuration, each terminal device to be subjected to remote monitoring control is provided with an initial setting unit for automatically generating a line number from the device number. As soon as the device is started up, a data link for fault monitoring is automatically established. by this,
The data link can be reliably established without error compared to a method of artificially inputting information for the data link into the terminal device.

In addition, since the data link can be established without errors in the initial state, any modification and change can be made by remote control from the remote monitoring control device, and the operator goes to the place where each terminal device is located. You can save time and effort. In the above example, the control of the exchange connected to the communication line has been described. However, the remote monitoring control device is connected between the various terminal devices to be subjected to the remote monitoring control and the remote monitoring control device. The present invention can be widely applied to a case where connection is made using an arbitrarily selected data link.

[Brief description of the drawings]

FIG. 1 is a block diagram of a system according to the present invention.

FIG. 2 is a schematic diagram of a remote monitoring system.

FIG. 3 is an explanatory diagram of the operation of the system of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Remote monitoring control device 2-1 to 2-4 Terminal device 3 Communication line 4 Initial setting part 5 Table data 9 TSI

Claims (3)

[Claims] In a system in which a remote monitoring control device is connected to a plurality of terminal devices via a communication line, each terminal device to be monitored is assigned a unique device number in advance, and each terminal device is A terminal device monitoring unit for initializing a line number generated by performing predetermined arithmetic processing on the device number to a monitoring line number connected to the remote monitoring control device. system. 2. When a remote monitoring control device performs monitoring control of a system connected to a plurality of terminal devices via a communication line, a unique device number is assigned to each terminal device to be monitored in advance. A terminal device monitoring / controlling method, wherein each terminal device initializes a line number generated by performing predetermined arithmetic processing on the device number to a monitoring line number connected to the remote monitoring / controlling device. . 3. When a remote monitoring control device performs monitoring control of a system connected to a plurality of terminal devices via a communication line, a unique device number is assigned to each terminal device to be monitored in advance. Each terminal device initializes a line number generated by performing predetermined arithmetic processing on the device number to a monitoring line number connected to the remote monitoring control device. A terminal device monitoring control method, wherein a notification of a number setting change is issued to change the contents of the initial setting.