JPH08163125A - Network control and monitor system - Google Patents

Abstract

PURPOSE: To immediately recognize the state of a network by reporting the start and end points for control of a transmission device to a monitor monitoring device from a master monitoring device. CONSTITUTION: A master monitoring device 1 issues the start and end commands for a control operation and then receives an answer of the control result from a transmission device 3 that carried out those control commands. Thus a control start/end report means 1a is driven at every time point. Then the device 1 sends a control start/end report (2) to a monitor monitoring device 2. The device 2 can receive the report (2) from the device 1 via a device 3 (#1), a communication circuit 4 and a device 3 (#2) or via a public circuit 5. The device 2 receives a control start or end report through a communication reception means 2a and then sets or updates the contents of a state management table 2c through a state management means 2b.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plurality of transmission devices connected to each other by communication lines, a master monitoring device having a function of controlling / monitoring the operating state of each transmission device, and each transmission without control right. The present invention relates to a control / monitoring system in a network configured with a monitor that monitors the operating status of the device.

[0002] In recent years, the network scale has expanded with the increase in communication demand. In response to this, network monitoring is often performed at multiple bases. However, when performing operational control on a transmission device, it is desirable that the monitor monitoring device can also grasp the control status. It is rare. Further, when a plurality of monitoring devices are grounded in the network, it is desired that each monitoring device can accurately grasp the control state.

[0003]

2. Description of the Related Art FIG. 14 is an explanatory view of a conventional example. 14
A. Are connected to four transmission devices 90-1 to 90-4 by communication lines L1 to L5 as shown in the figure, a master monitoring device 91 is connected to the transmission device 90-1, and a monitor monitoring device 92 is connected to the network. It has a structure of. B. of FIG. As shown in Fig.
X, LAN, host device or terminal, monitoring device (master monitoring device or monitor monitoring device), etc. are accommodated via an interface (displayed by IF), and digital signals are multiplexed via each of these IFs for high speed operation. It is transmitted to the communication line, the digital signal from the communication line is separated, and each I
Output to F.

In this conventional network, the master monitoring device 91 performs various controls for each transmission device. In this case, the master monitoring device 91 specifies a transmission device, specifies a control operation to be executed, adds necessary data, and transmits a command. The control performed from the master monitoring device to each transmission device (including a remote transmission device) includes, for example, a loopback test, switching between the active system and the standby system of each duplicated part in the transmission device, and the communication line. Switching to a detour line, reverse switching back, downloading system data to a transmission device, reset (restart), etc.

This command is sent through a path of a control signal which is formed by a part of the band of the communication line. The transmission device which received this performs the control operation according to the command. The master monitoring device 91 that has sent this control command notifies the network manager (or maintenance person) of the control status by displaying the operating status and control status of each transmission device on the display provided in its own device. On the other hand, in the monitor monitoring device 92, only the data of the operating state (normal or abnormal) of the transmission device of the network and the communication line is collected in a constant cycle and displayed to the user of the monitor monitoring device 92 to notify it. .

[0006]

According to the above conventional example,
Since the master monitoring device has a function of generating various control commands to each transmission device and causing the transmission device to execute some control operation, the current control state of each transmission device (for example, during the loopback test) Holds the data of.
On the other hand, the monitor monitoring device does not have a function of controlling the transmission device, and the data of the control state in the transmission device is not supplied to the monitor monitoring device, but simply the data indicating the operation state of the network (excluding the data of the control execution state). All data) was collected and displayed.

Therefore, there occurs a situation in which the data representing the control state of each transmission device in the network does not match the data transmitted from the master monitoring device to the transmission device monitoring monitoring device.
In that case, the administrator who controls / monitors by the master monitoring device and the monitor monitoring device do not agree on the network status, and accurate network monitoring using the master monitoring device and the monitor monitoring device occurs. Could not be done.

For example, when the master monitoring device sends a control command for a loopback test to the transmission device to perform loopback at the transmission device, the monitor monitoring device does not know that the communication line is looped back at the transmission device. As a result, there was a problem that the line was mistakenly recognized as operating normally and operated incorrectly.

It is an object of the present invention to provide a control / monitoring system in a network that can prevent a situation in which the master monitoring device and each monitor monitoring device do not match the control status of each transmission device of the network.
Further, the present invention provides a control / monitoring method in a network that allows each monitor and monitoring apparatus to accurately grasp the current operating state (including the control state) of each transmission apparatus without imposing a load on the network and the master monitoring apparatus. The purpose is to provide. It is also an object of the present invention to be able to maintain the mutual connection of the master monitoring device, the monitor monitoring device, and the transmission device to monitor even in the event of a network failure.

[0010]

FIG. 1 is a block diagram of the first principle of the present invention, FIG. 2 is a block diagram of the second principle of the present invention, and FIG. 3 is a block diagram of the third principle of the present invention. Is a fourth principle configuration diagram of the present invention, FIG. 5 is a fifth principle configuration diagram of the present invention, FIG. 6 is a sixth principle configuration diagram of the present invention, and FIG. 7 is a seventh principle configuration diagram of the present invention. is there.

1 to 7, reference numeral 1 denotes an input / output device (not shown) that is connected to one transmission device in the network and has a function of managing the operating states of all the transmission devices in the network and controlling each transmission device. Equipped with a master monitoring device,
Reference numeral 2 is a monitor monitoring device for monitoring the operating states of all the transmission devices in the network, provided by one or more in the network, and a plurality of monitor monitoring devices 3 (# 1, # 2, ...) Are provided for various low speed devices not shown. A transmission device that multiplexes data (data of PBX, LAN, terminals, etc.) and transmits a high-speed digital signal through the communication line 4, 4 is a communication line, 5 is between the master monitoring device and each monitor monitoring device, and each transmission A public line that connects devices and monitors to communicate information.

Then, in FIG. 1, the master monitoring device 1
In the table, 1a is a control start / end notification means, 1b is a state management means, and 1c is a state management table.
2a is a notification receiving means, 2b is a state management means, and 2c is a state management table.

In FIG. 2, reference numerals 1b and 1c in the master monitoring device 1 are the same as those in FIG. 1, 1d is a control state notifying means, and the monitor monitoring device 2 has the same configuration as that in FIG. Reference numerals 1b, 1c and 1d in the master monitoring device 1 of FIG. 3 represent the same means as those in FIG. 2, 1e is a control operation detecting means, and the monitor monitoring device 2 has the same configuration as in FIGS. Prepare Further, in FIG. 4, 1f in the master monitoring device 1 is a notification receiving means, the monitor monitoring device 2 has the same configuration as in FIGS. 1 to 3, and 3a in the transmission device 3 is a control start / end notification means. Is.

In FIG. 5, 2a in the monitor monitoring device 2 is shown.
2 to 2c are the same as those in FIGS. 1 to 4, 2d is an operating state confirmation inquiry means for the transmission device, and 3b in the transmission device 3 is an inquiry response means. In FIG. 6, the master monitoring device 1
Reference numeral 1g is an inquiry response means, and 2a in the monitor monitoring device 2
2c are the same as those in the above figures, and 2e is an operation state confirmation inquiry means for the master. Further, in FIG. 7, reference numeral 1h in the master monitoring device 1 is the same as the operation state information notifying means, and 2a to 2c in the monitor monitoring device 2 are the same as those in the above figures.

According to the first principle of the present invention, the master monitoring device sends a notification to the monitor monitoring device each time the control of the transmission device is started or stopped, and the second principle is that the master monitoring device sends a notification at a predetermined time interval. The control state of each transmission device is notified to the monitor monitoring device, and according to the third principle, the control state is notified at the timing of starting and ending the control operation in the master monitoring device. Further, according to the fourth principle, each transmission device that has executed the control command notifies each monitoring device at the start and end of processing,
The principle of this is that the monitor monitoring device inquires of each transmission device about the operational status, and receives a response indicating the status from each transmission device. Further, according to the sixth principle, the monitor monitoring device inquires of the master monitoring device about the operational status and receives the status information as a response from the master monitoring device. According to the seventh principle, the operational status information is transmitted to the master monitoring device. The monitoring device notifies the monitor to the monitoring device.

[0016]

In FIG. 1, when the control operation is performed, the master monitoring device 1 specifies the address of the transmission device 3 to be controlled and issues a control command (command) (indicated by). This command is issued by the master monitoring device 1 and the transmission device 3 (#
It is supplied to the transmission device 3 (# 1) from the line connecting 1). Here, when the command is the destination (address) of another transmission device 3 other than the own device, the transmission device 3 (# 1) transmits to the communication line 4 toward each adjacent transmission device 3. It should be noted that each communication line 4 is provided with a control signal line assigned to a part of the band, through which control commands and notifications are transmitted and received, and the control commands are executed by the destination transmission device 3.

When the master monitoring device 1 issues a command to start the control operation and a command to end the control operation, and receives a response (not shown) as a control result from the transmission device 3 that has executed the command, each time Control start / end notification means 1a
Is driven. As a result, the control start notification and the control end notification are transmitted from the master monitoring device 1 to the monitor monitoring device 2 (displayed by). This notification is sent via the communication line in the network, that is, the transmission device 3 (# 1) to which the master monitoring device 1 is connected, the communication line 4, the transmission device 3 (#
Although it can be transmitted to the monitor monitoring device 2 via 2), it can also be transmitted via the public line 5. When the monitor monitoring device 2 receives the control start notification and the control end notification by the notification receiving unit 2a, the state managing unit 2b sets (or updates) the contents of the state managing table 2c.

In FIG. 2, the master monitoring device 1 is provided with a state management means 1b, and a state management table 1c is provided with information indicating the control states of the respective transmission devices, and the control state notification means 1d is driven at fixed time intervals. . As a result, the control status notifying means 1d notifies the monitor monitoring apparatus 2 of the control status (held in the status management table 1c) of each transmission apparatus at that time (displayed by). The transmission path at this time may be via the communication line 4 (via the transmission device) of the network or via the public line 5. In the monitor monitoring device 2, when the notification receiving means 2a receives the notification indicating the control status of each transmission device sent at the fixed time interval, the status managing table 2c is sent by the status managing means 2b as in the case of FIG. Set to.

Next, referring to FIG. 3, when the master monitoring device 1 becomes controllable by an administrator (which can be done by inputting a password), the control operation detecting means 1e detects this and starts the control operation. Timing signals are generated. As a result, the control state notification means 1d (the same means as in FIG. 2)
Is driven, and the control status of each transmission device at this time is notified to the monitor monitoring device 2 (displayed by). The control operation detecting means 1e generates an end timing signal when the control operation ends, and this signal drives the control state notifying means 1d to notify the monitor monitoring device 2 of the control state of each transmission device at that time. By receiving this notification, the monitor / monitor device 2 can recognize the control state of each transmission device. The control status notification at this time is also the same as in the case of FIG. 1 and FIG.
Can be sent via.

In the case of FIG. 4, the control start command and the control end command from the master monitoring device are issued to the transmission device 3 (in the example of this figure, transmission device 3 (# 2)). And (indicated by), the transmission device 3 (# 2) sends a notification of control start and control end to all monitoring devices (master monitoring device 1 and monitor monitoring device 2) at the time of control start and end by command. To do. The notification at this time is the transmission device 3
To network communication line (via other transmission device)
Or is transmitted via the public line 5.

In the case of FIG. 5, in each monitor monitoring device 2, the operation state confirmation inquiry means 2d is periodically activated, and an operation state confirmation inquiry command (command) for ascertaining the operation state is given to each transmission device. Issued (displayed in).
In each transmission device 3 that has received this command, the inquiry response means 3b is activated, the operating state of the own transmission device 3 at that time is detected, and a notice of operation is sent to the monitor monitor device 2 of the inquiry source (displayed by). . This notification is transmitted via the communication line 4 (via the transmission device) of the network or via the public line 5, and by receiving this notification from each transmission device, the monitor monitoring device 2 controls each transmission device. Recognize the state.

In the case of FIG. 6, when the operation status confirmation inquiry means 2e to the master of the monitor monitoring apparatus 2 is periodically activated, an operation status confirmation inquiry command (command) is sent to the master monitoring apparatus. (Displayed with). When the inquiry command is received by the master monitoring device 1, the inquiry response means 1g is driven. This inquiry response means 1g responds to the operational status (not only the control status) of each transmission device,
Information (contents of the status management table 1c) representing all statuses including alarm statuses, etc. is sent to (indicated by) the monitor monitoring device 2 of the inquiry source. When this notification is received by the monitor monitoring device 2, it is held in the state management table 2c by the state management means 2b. In this case as well, the communication path of the operation status confirmation inquiry (and the notification of the response) can be used either by the communication line in the network or the public line 5.

In the case of FIG. 7, the operation state information notifying means 1h which is periodically activated in the master monitoring device 1 is driven. When started, the operating status information notifying means 1h sends the operating status information (contents of the status management table 1c) of each transmission device to the monitor monitoring device 2 (displayed by). When the monitor monitoring device 2 receives this notification, the state management means 2
The status management table 2c is set by b. in this case,
The communication path of the operational status information notification can be either the communication line in the network or the public line 5. In the configuration of FIG. 2, only the control status is notified, but in FIG. 7, the operational status is notified.

[0024]

FIG. 8 shows an example of the configuration of a network in which the present invention is implemented. In FIG. 8, reference numerals 1 to 5 are the same as those in FIG.
1 corresponds to each part of the same reference numeral, 1 is a master monitoring device, 2-
Reference numerals 1 and 2 are monitor monitoring apparatuses, 3-1 to 3-5 are transmission apparatuses that perform information communication with each other via a communication line, and 4-1 to 4
-8 is a communication line composed of high-speed digital lines, 5-1 to 5-1
5-4 is a master monitoring device 1, each monitor monitoring device 2-1,
2-2 and the transmission devices 3-1 to 3-5 are public lines (for example, ISDN line) that perform information communication by interconnecting each other, and are used steadily for transmitting various signals. And may be used as a backup line for each of the communication lines 4-1 to 4-8.

In the following description of the embodiments, the "monitoring device" means the master monitoring device 1 and the monitor monitoring device 2. The master monitoring device 1 and the monitor monitoring device 2 both have a function of monitoring the "fault state" of the transmission device in the network, and the master monitoring device 1 has various control functions in addition to the monitoring function.

A unique device address (number) in the network is assigned to all transmission devices in the network for operation. The control instruction message transmitted from the master monitoring device 1 to the transmission device is called a “command” (displayed as CMD), and the result of controlling by the command in the transmission device is transmitted to the monitoring device. The response message that is shown is called "response" (displayed as RSP), and various messages that the transmission device notifies to all monitoring devices and all transmission devices in the network (one-way message that does not require a response)
Is called a "report" (displayed as RPT).

FIG. 9 is a block diagram of the monitoring device (master monitoring device, monitor monitoring device). In FIG. 9, 10 is a monitoring device, 11 is a communication processing unit that transmits and receives a message to and from a transmission device or another monitoring device via the communication line 4 or the public line 5, and 12 is a communication unit notified from the communication processing unit 11. The sentence is analyzed, the message (response (RSP) or report (RPT)) is notified to the state management unit 14 or the control management unit 13, and the control instruction message (command: CM) from the control management unit 13 is sent.
D) and a notification message (report) are sent to the communication processing unit 11 by a message processing unit, 13 generates a control instruction message (CMD) according to an instruction from the HMI unit 15, and sends it to the message processing unit 12. The transmission request is made, and the response message (RSP) indicating the control result transmitted from the message processing unit 12 is received, and the content is sent to the HMI unit 1.
5 is a control management unit to be transmitted to the mobile terminal 5.

Reference numeral 14 is a status management unit for managing the operational status of each transmission device in the network using the status management table 14a based on the response message (RSP) notified from the message processing unit 12, and 15 is A control instruction message (CMD) for each transmission device in the network receives an operation input by a network administrator (or a supervisor), and the control management unit 1
3 is an HMI (Human Machine Interface) that outputs the control result to the control management unit 13 and displays it on the screen. A network monitoring screen 16 displays the status of each transmission device and communication line of the network based on the data of the status management unit 14, and is controlled by the HMI unit 15.

FIG. 10 shows the transmission path of the control signal. The monitoring device 1 (2) shown in FIG. 10 representing the master monitoring device or the monitor monitoring device and the transmission device 3 are connected by a physical cable, and a part of the band of the high-speed digital line between the transmission devices is a control signal. Is dedicated to the transmission of. For example, 1.5
It monopolizes 9.6 Kbps in the communication line of Mbps.

FIG. 11 shows the structure of the state management table.
The status management unit (14 in FIG. 9) of the monitoring device (master or monitor) is provided with a status management table (14a in FIG. 9) for managing the control status of each transmission device in the network, as shown in FIG. In addition, a status management area is provided for each transmission device. The contents of each status management area are updated by the status management unit by receiving the response from the transmission device that received the command from the monitoring device and the report (status notification) of the transmission device from the message processing unit (12 in FIG. 9). To be done.

A specific example of control processing executed by the command from the master monitoring device 1 to the transmission device will be described.
There are the following. Loopback test: This is a test performed by forming a loopback path of a communication signal in each part of the transmission device. It is used to perform isolation when communication functions are compromised.

Device reset: A remote operation from the master monitoring device 1 resets (restarts) the transmission device. This is used when using the download function described later to send new system data to the transmission device and then shifting to the operation to which the data is applied.

Redundant switching: Various packages are mounted on the transmission device, but the main parts (bus part, clock supply part, interface part, etc.) have a redundant structure by duplication. On the other hand, the active system and the standby system are switched.

Detour switching: Transmission devices are usually connected to each other by a high-speed digital line, but in case of a line failure,
Prepare another high-speed digital line or ISDN line as a detour (backup) line in advance, and control switching (switching to the backup line) and switching back (switching from the backup line to the original line) for these. To do.

Download: System data is required to put the transmission device into the operating state, and this system data is downloaded from the master monitoring device to the transmission device via the control signal line.

Here, the command generated from the monitoring device,
The format of each message of the response and the report generated from the transmission device will be explained. Basically, it is composed of a header part and a data part. However, the data part exists in the download information (control processing of the above command. No.), switching system designation (similar), and information about the loopback mode and loopback point in the case of loopback, etc. Most of the others are composed only of the header part, and the following information is stored in each message. .

Device address: In the case of a command, "address of transmission device of destination" In case of response, "address of transmission device of issue source" In case of report, "address of transmission device of issue source" Message type: command, Code indicating whether it is a response or report Message code: In any case of a command, response, or report, a code indicating the control content is stored.

Data size: When the data part is added after the header part, the data size is stored. Next, the main operation of the monitoring device shown in FIG. 9 will be described.
When the master monitoring device 1 is controlled, it is necessary to input a password for the purpose of security check.

A message of a command for instructing a control operation is generated for the transmission device to be controlled, transmitted to the transmission device directly connected to the own device, and a state of waiting for a response is entered.

When a response is notified from the transmission device directly connected to the own device, it is identified as the completion of the control operation. If there is no response within the specified time, it is managed as if the control failed.

In a steady state, when a report is notified from a transmission device directly connected to the transmission device, each transmission device managed by the self-monitoring device is analyzed from the contents of the report as to which transmission device the report is related to. Update the status in the status management table.

Next, FIG. 12 shows a block diagram of the transmission device. Only two transmission devices (# 1 and # 2) are shown in FIG.
A high-speed digital line is arranged as a communication line 4 between two transmission devices, and high-speed units 32 are provided at both ends. When a plurality of communication lines are accommodated, a plurality of high-speed units corresponding to the respective communication lines are provided. 32 is provided.

In the transmission device (# 1, # 2), the control unit 30 controls the entire transmission device and controls / monitors by the monitoring device (master monitoring device 1 or monitor monitoring device 2) represented by 1 (2). The low-speed unit 31 performs transmission processing, and is connected to the high-speed unit 32 by a data interface that accommodates the host device 33, the terminal 35, and the like, and a voice interface that accommodates the PBX (private exchange) 34. High speed section 3
2 is a plurality of voices (digitized signals) from the low speed section 31
The data and the control signal from the control unit 30 are multiplexed and transmitted, and the multiplexed signal transmitted from the other party is separated into voice, data and control signals.

FIG. 13 shows the configuration of the control unit of the transmission device.
In the control unit 30 of the transmission device 3, 30a is a communication processing unit that performs message transmission / reception between adjacent devices connected via a communication line, and 30b analyzes the message notified from the communication processing unit 30a and performs control management. Unit 30c or monitoring device communication processing unit 3
0d is notified of a message, and a message processing unit for requesting the communication processing unit 30a to transmit a message requested to be transmitted from the control management unit 30c or the monitoring device communication processing unit 30d, and 30c is a control instruction transmission from the monitoring device. A statement (command: CMD) is received from the message processing unit 30b, a processing request is sent to the control processing unit 30e, and a control result message (response: RSP) requested by the control processing unit 30e and the control processing unit 30e. Is a control management unit for notifying the message processing unit 30b of the status notification (report: RPT). 30d notifies the message processing unit 30b of a message transmitted from the monitoring device connected to the own device, and also transmits a message addressed to the monitoring device connected to the own device notified from the message processing unit 30b. The monitoring device communication processing units 30d and 30e for notifying the sentence to other monitoring devices are the control management unit 3
The control processing is performed based on the control instruction message (command) requested by the control management unit 0c.
Is a control processing unit for notifying the user.

The operation of the transmission device when the control command is received will be described below in two cases, that is, when the monitoring device is connected to the self device and when it is not connected. (1) When the monitoring device is connected to the local device and receives a control command for the local device When a command from the monitoring device connected to the local device is received, it is determined whether the command is addressed to the local device.

When the command is addressed to the own device, the control process specified in the own device is executed, and when the command is completed, a response is transmitted to the monitoring device. At the same time as the above, a report indicating that the control is completed is sent to all transmission paths (routes) connected to the own transmission device. (2) When a control command is received from a monitoring device connected to the local device to another transmission device If the command in (1) above is determined to be a command addressed to another transmission device, the command is sent. All transmission lines (routes) connected to the own transmission device
Send to (relay command). (3) When receiving a control command from the adjacent transmission device to the own device When a command is received from the adjacent transmission device, it is determined whether the command is addressed to the own device.

When the command is addressed to the own device, the control process specified in the own device is executed, and when the command is completed, the response is transmitted to the monitoring device. At the same time as the above, a report to the effect that control has been completed is sent to all transmission paths (routes) connected to the local transmission device. (4) When a control command for another transmission device is received from an adjacent transmission device If it is determined in the above (3) that the command is addressed to another transmission device, the command is transmitted to the own transmission device. To all transmission paths (routes) connected to (relay command).

In a network composed of a monitoring device and a transmission device having the above-mentioned structure and function,
Control operation of the transmission device 3 by the master monitoring device 1, the master monitoring device 1 and each monitor monitoring device 2-1, 2-2,
Each method of the monitoring operation by the mutual operation of the transmission apparatus and the transmission apparatus will be described below. Note that (1) to (7) correspond to the respective principles shown in FIGS. 1 to 7 above.

In the following description, it is assumed that the master monitoring device 1 controls the transmission device 3-3 in the network shown in FIG. (1) A method in which the master monitoring device notifies the monitor monitoring device at the start / end time of control of the transmission device.

The master monitoring device 1 sends a control start notification to the monitor monitoring devices 2-1 and 2-2 at the start of control when a control command is issued to the transmission device 3-3. The monitor monitoring devices 2-1 and 2-2 that have received this notification recognize the transmission device 3-3 as the “control-in-progress state” (controlling to the state management area of the transmission device 3-3 in the state management table 14a). Set the data).

A communication line and a public line can be used as a transmission path for transmitting this notification.
The operation when each route is used will be described. a. When passing through a communication line The master monitoring device 1 transmits a "control start notification" to the transmission device 3-2 to which the own monitoring device is connected at the start of control (the command issuance) to the transmission device 3-3. To do. The transmission device 3-2 that has received this notification communicates with the communication lines 4-1 and 4-.
The notification is transmitted to the adjacent transmission devices 3-1 and 3-5 via 3. The transmission device 3-1 that received the notification
Sends the same notification to the monitor monitoring device 2-1 connected to its own device, and the transmission device 3-5 sends the same notification to the monitor monitoring device 2-2 connected to its own device. The monitor monitoring devices 2-1 and 2-2 that have received this notification recognize the transmission device 3-3 as the “in-control state” (set in the state management table). Similarly, when the master monitoring device 1 transmits a control end notification to the transmission device 3-2 at the control end time, the transmission device 3-2 transmits the transmission device 3-2 via the notification lines 4-1 and 4-3 as described above. When the control end notification is transmitted to 3-1 and 3-5, each of the transmission devices 3-1 and 3-5 transmits the notification to the monitor monitoring devices 2-1 and 2-2 connected thereto. As a result, each monitor monitoring device 2-1 and 2-2
Recognizes the transmission device 3-3 as "non-controlled".

B. When passing through a public line The master monitoring device 1 has each public line 5 between the monitor monitoring devices 2-1 and 2-2 established in advance at the time of starting control of the transmission device 3-3 (at the time of issuing a command). The control start notification is transmitted via -1, 5-2, and the monitor monitoring devices 2-1 and 2-2 that have received the notification recognize the transmission device 3-3 as the “in control state”. Similarly, when the control end notification is transmitted from the monitor monitoring device 1 via the public lines 5-1 and 5-2 at the end of the control, the transmission device 3-3 recognizes as the "non-controlled state".

According to the method (1), each monitor monitoring device 2 is immediately activated at the start / end of control of each transmission device.
The state can be recognized by -1, 2-2. (2) Method of notifying control information for each transmission device by the master monitoring device at specified time intervals a. Via communication line The master monitoring device 1 holds the control status of each transmission device in the status management table 14a (FIG. 9) according to the command issued to each transmission device and the response from the transmission device.
At a predetermined time interval, the control status of each transmission device in the master monitoring device 1 is collectively notified to the transmission device 3-2 to which the own monitoring device is connected. The transmission device 3-2 which has received the notification has the same communication line 4-as the above (1).
The same notification is transmitted to the transmission devices 3-1 and 3-5 via 1, 4-3, and the transmission monitoring devices 2-1 and 2-2 are notified from the transmission devices 3-1 and 3-5. , Each monitor monitoring device 2-
Each of 1 and 2 can recognize the state of each transmission device.

B. When passing through a public line The master monitoring device 1 collectively controls the states of the transmission devices in the master monitoring device 1 at predetermined time intervals, and the public lines 5-1 and 5-2 which are backup lines
Notify each monitor monitoring device 2-1 and 2-2 via the.

According to the method (2), since the notification is not generated every time the control state changes as in the above (1),
Since the number of times notification information is transmitted is reduced, the load on the network can be reduced. (3) Method of notifying at the start / end timing of control operation time zone in the master monitoring device The network administrator of the master monitoring device 1 often does not control and monitor the network at all times, and the control operation is sent to the network. Because of this, the lock state is set so that the operation control cannot be performed during the time when the operation control is not performed, but the lock is released and the control is enabled only after the password is entered. At the timing when the password is input by the administrator during the control operation time and the control operation is started, the control status of each transmission device in the master monitoring device 1 is changed to each monitor monitoring device 2-
Sent to 1, 2-2. Each monitor monitoring device 2-1 and 2
At -2, the state of each transmission device is recognized. Further, even at the timing when the control operation is completed in the master monitoring device 1, the control status of each transmission device at that time is monitored by each monitor monitoring device 2-.
Notify 1 and 2

From the master monitoring device 1 to each monitor monitoring device 2
The control states of the respective transmission devices transmitted to -1, 2-2 are the same as in (1) and (2) above. And a case of transmitting through a communication line as described in b. There is a case to transmit via a public line like.

Also in the case of the method (3), since the number of times of transmission of communication information from the master monitoring device to the monitor monitoring device is reduced as in the case of (2), the load on the network can be reduced. (4) Method of transmitting notification from monitoring device to each monitoring device at start / end of control At the start of control by command from master monitoring device 1, transmission device 3-3 sends control start notification to master monitoring device 1 and monitor It transmits to the monitoring devices 2-1 and 2-2. The master monitoring device 1 and the monitor monitoring device 2-1 which have received this notification
2-2 recognizes the transmission device 3-3 as a “control in progress” in the self-monitoring device. Similarly, the transmission device 3-3, which is the control target, sends a control end notification to the master monitoring device 1 and the monitor monitoring devices 2-1 and 2-2 when the control is ended by the command from the master monitoring device 1. Send. Receiving the notification, the master monitoring device 1, the monitor monitoring device 2-
1, 2-2 recognize the transmission device 3-3 in the self-monitoring device as "non-controlled state".

When transmitting control start / end notifications from the transmission device 3-3 to each monitoring device, there are cases where the communication is performed via a communication line and a public line. And b. The transmission is performed as follows.

A. Via communication line At the start of control, the transmission device 3-3 has the communication line 4-of FIG.
The control start notification is transmitted to the adjacent transmission devices 3-1 and 3-5 via 4, 4-5, and the transmission devices 3-1 and 3-5 which have received the notification are connected to their own devices. The notification is transmitted to the monitor monitoring devices 2-1 and 2-2. Each of the monitor monitoring devices 2-1 and 2-2 recognizes the state of the transmission device 3-3 as a “control in progress”. At the end of control, a notification of control end is sent from the transmission device 3-3 to the monitor monitoring devices 2-1 and 2-2 in the same manner, and the transmission device 3-3 is notified.
-3 is recognized as an "uncontrolled state". In this case, the master monitoring device 1 is also notified of control start and control end.

B. Via public line At the start of control and at the end of control, the transmission device 3-3 monitors the monitor device 2-1 through the public lines 5-1 and 5-2.
A control start notice and a control end notice are transmitted to 2-2, and each monitor monitoring device 2-1 and 2-2 recognizes the state of the transmission device 3-3 by the respective notices. In this case, the master monitoring device 1 is not notified.

In the case of this (4), the load for control and monitoring of the master monitoring device 1 can be reduced as compared with the case of the above (1) to (3) in which the notification is given from the master monitoring device 1. . (5) Method of inquiring from the monitor monitoring device to each transmission device to check the operation status The monitor monitoring devices 2-1 and 2-2 periodically transmit the transmission device 3-1, the transmission device 3-2, ... 3-5
Inquiries about the operational status are executed in the order of the transmission device 3-1.
For example, as a result of the inquiry to the transmission device 3-3, when a response (response) is received as “controlling state”, the monitor monitoring device at this point also causes the transmission monitoring device 3-3 to “controlling state” even in its own monitoring device. Recognize as.

The inquiry from the monitoring device to each transmission device to check the operational status is sent to the communication line 4-in the network.
1 to 4-8 or public line 5-1 to 5-4
Can be run via.

According to the method (5), each monitor monitoring device can collect the operation status of each transmission device independently of the master monitoring device, and the monitorer of the monitor monitoring device can accurately monitor each operating condition. The operating status of the transmission equipment can be grasped. (6) Method of inquiring from the monitor monitoring device to the master monitoring device to check the operation status The monitor monitoring devices 2-1 and 2-2 periodically execute an inquiry of the operation status confirmation of each transmission device. Upon receiving this inquiry, the master monitoring device 1 responds to the monitor monitoring device that issued the inquiry about the operational status of each transmission device managed by the own monitoring device. The monitor monitoring device that received this response
The operation status of each transmission device is grasped based on the response result.

Also in this case, the inquiry from the monitor monitoring device to the master monitoring device 1 for inquiring the operational status is periodically executed through the communication line in the network, and the monitor monitoring device and the master monitoring device 1 There is a method to execute periodically via the public line connecting the.

In the method (6), since the operating status of each transmission device held by the master monitoring device can be grasped from each monitor monitoring device, the data held by the master monitoring device is shared by each monitor monitoring device. It is possible to match the recognition of the operational status of each transmission device between the two. (7) Method in which the master monitoring device notifies each monitor monitoring device of the operating status of the transmission device The master monitoring device 1 sends the operating status information of each transmission device to the monitor monitoring devices 2-1 and 2-2. Notify periodically. Each monitor monitoring device 2-1 and 2-2 that received this notification
Understands the operating status of each transmission device based on the notification information.

Also in this case, a method of notifying the operating status information of each transmission device from the master monitoring device 1 to each monitor monitoring device 2-1 and 2-2 via the communication line in the network, and There is a method of notifying via the lines 5-1 and 5-2.

According to the method of (7), the master monitoring device and the monitor monitoring device can match the grasped contents of the operating states of the respective transmission devices as in the case of the above (6). In addition, each monitor monitoring device does not need to make an inquiry to the master monitoring device as in (6) above, which simplifies control.

[0068]

According to the present invention, in a network in which a plurality of transmission devices are connected by a communication line, and a master monitoring device having a control function and a plurality of monitor monitoring devices having only a monitoring function are connected to the transmission device, It becomes possible to accurately monitor the control status of each transmission device by a plurality of monitor monitoring devices in the network, and network monitoring operation can be performed accurately.

Specifically, according to the configuration in which the master monitoring device notifies the monitor monitoring device at the start / end time of control of the transmission device, each monitor monitoring device is immediately sent at the control start / end time of each transmission device. You can recognize the status with.

According to the configuration in which the master monitoring device notifies the control information to each transmission device at a specified time interval and the configuration in which the master monitoring device notifies the control information at the start / end timing of the control operation time zone, the number of transmissions of the notification information is increased. Since the load is reduced, the load on the network can be reduced.

According to the structure in which the transmission device transmits the notification to each monitoring device at the start / end of control, the load for monitoring the master monitoring device and the monitor monitoring device can be reduced. Further, according to the configuration in which the monitor monitoring device inquires of each transmission device about the operational status, each monitor monitoring device can accurately grasp the operational status of each transmission device independently of the master monitoring device.

According to the configuration in which the monitor monitoring device inquires of the master monitoring device about the operational status confirmation, the data held by the master monitoring device can be shared with each monitor monitoring device, so that the operating status of each transmission device can be grasped the same. be able to.

According to the configuration in which the master monitoring device notifies each monitor monitoring device of the operating state of the transmission device, the master monitoring device and the monitor monitoring device grasp the operating state of each transmission device in the same manner as the above-mentioned configuration. Can be matched with each other and control of each monitor monitoring device can be simplified.

Further, in the present invention, the load on the network can be reduced by using the communication path between the master monitoring device, the monitor monitoring device, and the transmission device via the public line, and also in the event of a network failure. control·
Monitoring is possible and the reliability of the system can be increased.

[Brief description of drawings]

FIG. 1 is a first principle configuration diagram of the present invention.

FIG. 2 is a second principle configuration diagram of the present invention.

FIG. 3 is a third principle configuration diagram of the present invention.

FIG. 4 is a fourth principle configuration diagram of the present invention.

FIG. 5 is a fifth principle configuration diagram of the present invention.

FIG. 6 is a sixth principle configuration diagram of the present invention.

FIG. 7 is a seventh principle configuration diagram of the present invention.

FIG. 8 is a diagram showing a configuration example of a network in which the present invention is implemented.

FIG. 9 is a configuration diagram of a monitoring device.

FIG. 10 is a diagram showing a transmission path of a control signal.

FIG. 11 is a diagram showing a configuration of a state management table.

FIG. 12 is a configuration diagram of a transmission device.

FIG. 13 is a diagram showing a configuration of a control unit of the transmission device.

FIG. 14 is an explanatory diagram of a conventional example.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 master monitoring device 1a control start / end notification means 1b status management means 1c status management table 2 monitor monitoring device 2a notification reception means 2b status management means 2c status management table 3 transmission device 4 communication line 5 public line

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI Technical indication H04M 3/22 Z

Claims (17)

[Claims] 1. A plurality of transmission devices connected to each other by a communication line, a master monitoring device having a function of controlling / monitoring an operating state of a transmission device connected to one of the plurality of transmission devices, and the plurality of transmission devices. In a control / monitoring system in a network that is connected to one of the transmission devices and has a monitor monitoring device that monitors the operating state of each transmission device without controlling the transmission device, the master monitoring device The control start and control end notifications are sent to each monitor monitoring device at the control start time and control end time in the operating state, and each monitor monitoring device receives the notification, and the current control status of each transmission device is received. A control / monitoring method in a network characterized by always recognizing 2. The control in a network according to claim 1, wherein the master monitoring device transmits a control start and control end notification to each monitor monitoring device via a communication line of the network. Monitoring method. 3. The monitor monitoring device according to claim 1, wherein the master monitoring device and the monitor monitoring device are connected to each other via a public line, and the master monitoring device sends notification of control start and control end to each monitor monitoring device. A control / monitoring method in a network characterized by transmitting via a public line. 4. The master monitoring device according to claim 1, wherein the master monitoring device holds a control state for each transmission device, and sets the control state of each transmission device to the monitor monitoring device at a preset time interval. A control / monitoring method in a network characterized by notifying. 5. The monitor monitor according to claim 1, wherein the master monitoring device holds a control state for each transmission device, and the monitor monitoring is performed at the first and last timings of a time zone in which operation control operation of the master monitoring device is possible. A control / monitoring system in a network, which notifies a control state of each of the transmission devices to the device. 6. A plurality of transmission devices mutually connected by a communication line, a master monitoring device connected to one of the plurality of transmission devices and having a control / monitoring function of an operating state, and a plurality of the transmission devices. In a control / monitoring method in a network configured with a monitor connected to one monitor that monitors the operating status of each transmission device without control rights,
The transmission device, which has received a control command for controlling the operating state from the master monitoring device, controls all the monitoring devices including the master monitoring device and the monitor monitoring device at the start time and the end time of the processing corresponding to the command. A control / monitoring system in a network, characterized in that notification of start and control end is given, and each monitor monitoring device receives the communication and recognizes a control state of each transmission device. 7. The transmission device according to claim 6, wherein the transmission device notifies all of the monitoring devices via a communication line in the network at a start point and an end point of processing by the control command. Control / monitoring method for networks. 8. The transmission device according to claim 6, wherein each of the transmission devices and the monitor monitoring device are connected to each other via a public line, and the transmission device performs all of the processing at the start point and the end point of the processing according to the control command. A control / monitoring method in a network, which notifies a monitoring device of control start and end via the public line. 9. A plurality of transmission devices connected to each other by a communication line, a master monitoring device connected to one of the plurality of transmission devices and having a control / monitoring function of an operating state, and a plurality of the transmission devices. In a control / monitoring method in a network configured with a monitor connected to one monitor that monitors the operating status of each transmission device without control rights,
The monitor monitoring device periodically issues a command for grasping the operating state of each transmission device to the network, and receives the response contents from each transmission device to the command to recognize the control state of each transmission device. A control / monitoring method in a network characterized by the following. 10. The command issued from the monitor monitoring device according to claim 9, is periodically issued to each transmission device via the communication line in the network,
A control / monitoring system in a network, wherein a response from each of the transmission devices is received via the communication line. 11. The method according to claim 9, wherein the monitor monitoring device and each transmission device in the network are connected to each other via a public line, and the command issued from the monitor monitoring device is sent via the public line. A control / monitoring system in a network, characterized in that a response is transmitted from each transmission device and received from the public line. 12. A plurality of transmission devices connected to each other by a communication line, a master monitoring device connected to one of the plurality of transmission devices and having a function of controlling / monitoring an operating state, and a plurality of the transmission devices. In a control / monitoring system in a network configured with a monitor monitoring device that is connected to one and monitors the operating state of each transmission device without controlling the transmission device, the monitor monitoring device is configured so that the master monitoring device controls each transmission device. A control / monitoring method in a network characterized by periodically issuing a command to grasp the operating status of each and recognizing the control status of each transmission device based on the response content. 13. The control / monitoring method in a network according to claim 12, wherein the monitor monitoring device periodically issues the command via a communication line in the network. 14. The monitor monitoring device and the master monitoring device according to claim 12, wherein the monitor monitoring device and the master monitoring device are connected to each other via a public line, and the monitor monitoring device periodically issues the command via the public line. A control / monitoring method in a network characterized by the following. 15. A plurality of transmission devices connected to each other by a communication line, a master monitoring device connected to one of the plurality of transmission devices and having a control / monitoring function of an operating state, and a plurality of the transmission devices. In a control / monitoring system in a network configured with a monitor monitoring device that is connected to one and has no control right and monitors the operating state of each transmission device, the master monitoring device transmits each transmission to all monitor monitoring devices. In a network characterized by periodically issuing a command notifying the operating state of the device, the monitor monitoring device recognizes the control state of each transmission device according to the notification content sent from each monitor monitoring device in response to the command. Control / monitoring method. 16. The control according to claim 15, wherein the command issued from the master monitoring device to all monitor monitoring devices is periodically transmitted via a notification line in the network.・ Monitoring method. 17. The monitor monitoring device and the master monitoring device are connected to each other by a public line according to claim 15, and the master monitoring device issues a command issued to all monitor monitoring devices to the public line. A control / monitoring method in a network that is periodically transmitted via a network.