JP4077453B2 - PATH SETTING METHOD, TRANSMISSION DEVICE USING SAME, MONITORING CONTROL DEVICE, AND RECORDING MEDIUM CONTAINING THE PROGRAM - Google Patents

Description

  The present invention relates to a path setting method, a transmission apparatus using the same, a monitoring control apparatus, and a recording medium recording the program, a path setting method for setting a path in a network, a transmission apparatus using the same, a monitoring control apparatus, and the like. The present invention relates to a recording medium on which the program is recorded.

  FIG. 1 and FIG. 2 show an example of a conventional network configuration. The transmission device A shown in FIG. 1 accommodates the low-speed transmission devices a1 to aN on the low-speed side, the transmission device B accommodates the low-speed transmission devices b1 to bN on the low-speed side, and the transmission devices A and B transmit on the high-speed side. Opposite connection is established through a road. The transmission apparatus C shown in FIG. 2 accommodates the low-speed transmission apparatuses c1 to cN and b2 on the low speed side, and the transmission apparatus D accommodates the low-speed transmission apparatuses d1 to bN on the low speed side and is opposed to each other via the transmission path on the high speed side. Has been.

  The low-speed transmission devices a1 (ch1) and b1 (ch1), a2 (ch2) and b2 (ch2), aN (chN) and bN (chN) are connected to each other via a high-speed transmission line, and the low-speed transmission device c1 ( ch1) and d1 (ch1), b2 (ch2) and d2 (ch2), cN (chN) and dN (chN) are connected to each other via the high-speed transmission line, and the monitoring control connected to the transmission apparatus A It is essential that the device E creates “path setting information” for each of the transmission devices A, B, C, and D, sends a “path setting command” to each transmission device, and sets the path.

  In addition, as what automatically sets slave station setting information when adding a slave monitoring control station to a parent monitoring control station of a communication system, for example, one described in Patent Document 1 is known. For example, a device described in Patent Document 2 is known as an initial load of a control program to a terminal connected to a control device via a line.

Patent Document 1
Japanese Patent Laid-Open No. 11-127124 Patent Document 2
JP 59-139424 A

  Conventionally, when adding a transmission device connected to the low-speed side or changing the bandwidth allocation (transmission rate change), the monitoring control device E recreates the “path setting information” for each opposing transmission device. Therefore, it is indispensable to transmit and execute the “path setting command” again to each transmission apparatus. When the network becomes large, there is a problem that it takes time and effort to construct the network.

  In addition, when the network becomes large, the conventional method of resetting the path setting of each transmission device every time the path setting of the low-speed transmission device is changed takes time and artificially passes the path for each device. There is a problem that data loss or error due to operation mistakes may occur due to setting.

  It is a general object of the present invention to provide a path setting method, a transmission apparatus and a monitoring control apparatus using the same, and a recording medium recording the program, which solve the above-described problems of the prior art.

  A more detailed object of the present invention is to eliminate the time and labor required for network construction and path setting change, and to prevent a data loss or error due to path setting change, a transmission apparatus using the same, and a transmission apparatus using the same It is an object of the present invention to provide a monitoring control device and a recording medium recording the program.

In order to achieve this object, the path setting method according to the present invention recognizes that an opposing transmission apparatus is connected via a transmission path, and the transmission apparatus that has recognized the connection sends a path setting information transmission request to the transmission apparatus. Based on the path setting information transmission request transmitted to the opposite transmission apparatus and received by the opposite transmission apparatus, the held path setting information is transmitted to the transmission apparatus that has recognized the connection, and the path setting information The transmission device that has established the path within itself and that has recognized the connection is configured to establish the communication path between both transmission devices by performing the path setting within the device based on the received path setting information. Is done.

  According to such a path setting method, time and labor required for network construction and path setting change can be omitted, and data loss and error due to path setting change can be prevented.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 3 shows a network configuration diagram of the first embodiment of the present invention. In the figure, in the transmission apparatus A, the monitoring control apparatus I / F unit A-1 communicates with the monitoring control apparatus E. The low speed side transmission path I / F part A-2 performs transmission path connection with the low speed side transmission apparatus. The high-speed transmission line I / F unit A-3 connects to the transmission device on the high-speed side. The monitoring unit A-4 periodically monitors the device itself and notifies the control unit. The storage unit A-5 holds information such as path setting information.

  The control unit A-6 transmits / receives a command / response to / from the monitoring control device A-1, and data of the low-speed transmission line I / F unit A-2 and the high-speed transmission line I / F unit A-3. A transmission / reception function, a function for recognizing the monitoring state collected by the monitoring unit A-4, a function for reading path setting information held in the storage unit A-5, and path setting information received from the monitoring control device or the opposite device. It has a function of writing and a function of setting a path in the own apparatus based on “path setting information”.

  Similarly, in the transmission apparatus B, the monitoring control apparatus I / F unit B-1 performs communication when connected to the monitoring control apparatus G. The low-speed transmission line I / F part B-2 performs transmission line connection with the low-speed transmission apparatus. The high-speed side transmission path I / F part B-3 is connected to the transmission device on the high-speed side. The monitoring unit B-4 periodically monitors the device itself and notifies the control unit. The storage unit B-5 holds information such as path setting information.

  The control unit B-6 transmits / receives a command / response to / from the monitoring control device B-1, and data of the low-speed transmission line I / F unit B-2 and the high-speed transmission line I / F unit B-3. A transmission / reception function, a function for recognizing the monitoring state collected by the monitoring unit B-4, a function for reading path setting information stored in the storage unit B-5, and path setting information received from the monitoring control device or the opposite device. It has a function of writing and a function of setting a path in the own apparatus based on “path setting information”.

  The monitoring control device E is connected to, for example, the transmission device A, and monitors the network by monitoring the operation status of each transmission device constituting the network.

  Transmission device A is connected to low speed transmission devices a1, a2 and aN via transmission lines on the low speed side, and transmission device B is connected to low speed transmission devices b1, b2 and bN via transmission lines to transmit data. Device A and transmission device B are connected via a transmission line on the high speed side. The low-speed transmission devices a1 (ch1) and b1 (ch1), a2 (ch2) and b2 (ch2), and aN (chN) and bN (chN) are connected to each other via a high-speed transmission path.

  FIG. 4 shows a flowchart of the first embodiment of the path setting process executed by the control units A-6 and B-6. This process is repeatedly executed every predetermined time. In the figure, in step S10, the monitoring units A-4 and B-4 determine whether or not the connection of the opposing transmission apparatus is recognized on the transmission line, and if so, the path is set in the transmission line in step S12. Information is transmitted, and a path is set based on the path setting information in step S13. In the path setting information, channel ch1 is set in time slot TS0, channel ch2 is set in time slots TS1 and TS2, channel chN is set in time slots TS3 to TS5, channel ch3 is set in time slot TS6, and the like. Information.

  If there is no recognition in step S10, it is determined in step S14 whether or not path setting information has been received. If there is no reception, the process proceeds to step S10. When path setting information is received, a path is set based on the path setting information received in step S16.

  In FIG. 3, when the monitoring unit A-4 of the transmission device A recognizes the connection of the transmission line with the transmission device B, the monitoring unit A-4 notifies the control unit A-6 of the monitoring state of “recognized transmission line connection”. (Or the control unit A-6 confirms the monitoring state of the monitoring unit.) The control unit A-6 that has recognized the connection confirmation with the transmission apparatus B receives the “path setting information” stored in the storage unit A-5. ”Is set, and the path setting in the own apparatus that performs transmission to the transmission apparatus B via the high-speed side transmission path I / F unit A-3 is performed.

  The transmission apparatus B that has received the “path setting information” via the high-speed-side transmission path I / F unit B-3 holds the received path setting information in the storage unit B-5 in the control unit B-6. By setting a path within the own apparatus, a communication path between the transmission apparatuses A and B can be established, and a communication path between the low-speed transmission apparatuses can be established.

  FIG. 5 shows a network configuration diagram of the second embodiment of the present invention. Since the apparatus configuration in this embodiment is the same as that in FIG. 3, the same reference numerals are given to the same parts, and the description thereof is omitted. In this embodiment, path setting information is transmitted from the transmission apparatus B to the transmission apparatus A.

  FIG. 6 shows a flowchart of a second embodiment of the path setting process executed by the controllers A-6 and B-6. This process is repeatedly executed every predetermined time. In the figure, it is determined in step S20 whether or not the monitoring units A-4 and B-4 have recognized the connection of the opposing transmission devices on the transmission line, and if so, a path is set in the transmission line in step S22. Send an information transmission request.

  If there is no recognition in step S20, it is determined whether or not path setting information is received in step S24. If there is no reception, it is determined whether or not a path setting information transmission request is received in step S25. When a path setting information transmission request is received, the path setting information requested in step S26 is transmitted, and a path is set based on the path setting information in step S27. If the path setting information transmission request has not been received, the process proceeds to step S20. On the other hand, when path setting information is received in step S24, a path is set based on the path setting information received in step S28.

  In FIG. 5, when the monitoring unit A-4 of the transmission device A recognizes the connection of the transmission line with the transmission device B, the monitoring unit A-4 notifies the control unit A-6 of the monitoring state “transmission line connection recognized”. (Or the control unit A-6 confirms the monitoring state of the monitoring unit.) The control unit A-6 that recognizes the connection confirmation with the transmission device B, via the high-speed transmission line I / F unit A-3, A “path setting information transmission request” is transmitted to the transmission apparatus B.

  The transmission apparatus B that has received the “path setting information transmission request” via the high-speed-side transmission line I / F unit B-3 receives the “path setting information” stored in the storage unit B-5 in the control unit B-6. ”And“ path setting information ”is transmitted as a response to the transmission apparatus A via the high-speed-side transmission path I / F unit B-3, and the path setting in the apparatus itself is performed. In the transmission device A, the “path setting information” that is a response from the transmission device B is received via the high-speed transmission line I / F unit A-3, and the received “path setting information” is received in the control unit A-6. Is stored in the storage unit A-5 and the path within the own apparatus is set, whereby the communication path between the transmission apparatuses A and B can be established and the communication path between the low-speed transmission apparatuses can be established.

  FIG. 7 shows a flowchart of a third embodiment of the path setting process executed by the controllers A-6 and B-6. This process is repeatedly executed every predetermined time. In the figure, it is determined in step S30 whether or not the monitoring units A-4 and B-4 have recognized the connection of the opposing transmission devices on the transmission line, and if so, the storage unit A of the own device is determined in step S32. It is confirmed whether or not the path setting information related to the transmission path is held in −5 and B-5.

  If the path setting information is held in step S32, the path setting information is transmitted to the transmission path in step S34, and a path is set based on the path setting information in step S35. Thereafter, in step S36, it is determined whether or not a path setting completion notification is received within a predetermined time. Only when no path setting completion notification is received, the process proceeds to step S34 and steps S34 and S36 are repeated.

  On the other hand, if the path setting information is not held in step S32, a path setting information transmission request is transmitted to the transmission path in step S38. Thereafter, in step S40, it is determined whether or not the path setting information is returned within a predetermined time. Only when the path setting information is not returned, the process proceeds to step S38, and steps S38 and S40 are repeated.

  Further, if the connection of the transmission apparatus is not recognized in step S30, it is determined whether or not the path setting information is received in step S42, and if not received, the process proceeds to step S30. If path setting information is received, a path is set based on the path setting information received in step S44.

  When the monitoring unit A-4 of the transmission device A shown in FIG. 5 recognizes the connection of the transmission line with the transmission device B, the monitoring unit A-4 notifies the control unit A-6 of the monitoring state of “recognized transmission line connection”. (Or the control unit A-6 confirms the monitoring state of the monitoring unit.) The control unit A-6 that has recognized the connection confirmation with the transmission apparatus B receives the “path setting information” stored in the storage unit A-5. If it is held, the path is set by the method of the first embodiment, and if not held, the path is set by the method of the second embodiment, so that communication between the transmission apparatuses A and B is performed. A path can be established, and a communication path between low-speed transmission apparatuses can be established.

  FIG. 8 shows a network configuration diagram of the fourth embodiment of the present invention. Since the apparatus configuration in this embodiment is the same as that in FIG. 3, the same reference numerals are given to the same parts, and the description thereof is omitted. In this embodiment, path setting information is transmitted from the monitoring control apparatus E to the transmission apparatus A.

  FIG. 9 shows a flowchart of a fourth embodiment of the path setting process executed by the controller A-6. This process is repeatedly executed every predetermined time. In the figure, in step S50, it is determined whether or not path setting information is received from the monitoring control apparatus E via the monitoring control apparatus I / F unit A-1, and if received, the path setting information received in step S52. Set the path based on. Next, in step S54, the path setting information is transmitted to the transmission apparatus B via the transmission path.

  In FIG. 8, the control unit A-6 that has received “path setting information” from the monitoring control apparatus E connected to the transmission apparatus A via the monitoring control apparatus I / F unit A-1 receives the received “path setting information”. "Is stored in the storage unit A-5, the path setting in the own apparatus is performed, and" path setting information "is transmitted to the transmission apparatus B via the high-speed transmission path I / F part A-3.

  The transmission apparatus B that has received the “path setting information” via the high-speed-side transmission path I / F unit B-3 holds the received “path setting information” in the storage unit B-5 in the control unit B-6. At the same time, by setting a path in the own apparatus, a communication path between the transmission apparatuses A and B can be established, and a communication path between the low-speed transmission apparatuses can be established.

  FIG. 10 shows a network configuration diagram of the fifth embodiment of the present invention. Since the apparatus configuration in this embodiment is the same as that in FIG. 3, the same reference numerals are given to the same parts, and the description thereof is omitted. In this embodiment, a path setting command is transmitted from the monitoring control apparatus E to the transmission apparatus A.

  FIG. 11 shows a flowchart of the fifth embodiment of the path setting process executed by the controller A-6. This process is repeatedly executed every predetermined time. In the figure, in step S60, it is determined whether or not a path setting command is received from the monitoring control apparatus E via the monitoring control apparatus I / F unit A-1. If received, the process proceeds to step S62, and the transmission apparatus B Send a path setting transmission request to.

  Next, in step S64, it is determined whether path setting information is received from the transmission apparatus B. If received, a path is set based on the path setting information received in step S66.

  In FIG. 10, the control unit A-6, which has received the “path setting command” from the monitoring control device E connected to the transmission device A via the monitoring control device I / F unit A-1, A “path setting information transmission request” is transmitted to the transmission apparatus B via the F unit A-3. The transmission apparatus B that has received the “path setting information transmission request” via the high-speed-side transmission line I / F unit B-3 receives the “path setting information” stored in the storage unit B-5 in the control unit B-6. ”And“ path setting information ”is transmitted as a response to the transmission apparatus A via the high-speed-side transmission path I / F unit B-3, and the path setting in the apparatus itself is performed.

  In the transmission apparatus A, the response from the transmission apparatus B is received via the high-speed transmission line I / F section A-3, and the “path setting information” received by the control section A-6 is stored in the storage section A-5. The communication path between the transmission apparatuses A and B can be established and the communication path between the low-speed transmission apparatuses can be established by holding and setting the path in the own apparatus.

  FIG. 12 shows a flowchart of the sixth embodiment of the path setting process executed by the controller A-6. This process is repeatedly executed every predetermined time. In the figure, in step S70, it is determined whether or not a path setting command is received from the monitoring control apparatus E via the monitoring control apparatus I / F unit A-1, and if it is received, the process proceeds to step S72. It is confirmed whether or not path setting information relating to the transmission path is held in the storage unit A-5.

  If the path setting information is held in step S72, the process shown in FIG. 9 is executed in step S74. If the path setting information is not held, the process shown in FIG. 10 is executed.

  In FIG. 10, the control unit A-6 that has received the “path setting command” from the monitoring control device E connected to the transmission device A via the monitoring control device I / F unit A-1 stores in the storage unit A-5. When the “path setting information” is held, the path setting is performed by the method of FIG. 9, and when the “path setting information” is not held, the path setting is performed by the method of FIG. And a communication path between the low-speed transmission devices can be established.

  FIG. 13 shows a network configuration diagram of the seventh embodiment of the present invention. This embodiment is a modification of the embodiment of FIG. 8, and the same parts are denoted by the same reference numerals and the description thereof is omitted.

  FIG. 14 shows a flowchart of a first embodiment of the path setting control process executed by the monitoring control apparatus E. In the figure, it is determined whether or not a new transmission device has been recognized in step S80. If there is a new transmission device recognition, path setting information is transmitted to the transmission device A in step S82. Thereafter, in step S84, it is determined whether or not there is a path setting completion notification from the transmission apparatus A within a predetermined time. If there is no notification, step S82 is repeated.

  In FIG. 13, when the transmission apparatus B is additionally connected to the high-speed transmission line of the transmission apparatus A, the monitoring unit A-4 of the transmission apparatus A recognizes the connection of the transmission apparatus B and notifies the monitoring control apparatus E accordingly. To do. The monitoring and control apparatus recognizes that the transmission apparatus B is newly connected in the network, and transmits “path setting information” to the transmission apparatus A.

  The control unit A-6 that has received the “path setting information” via the monitoring visual control device I / F unit A-1 transmits the “path setting information” stored in the storage unit A-5 to the high-speed transmission line I / F. It transmits to the transmission apparatus B via the F unit A-3 and sets a path in the own apparatus.

  The transmission apparatus B that has received the “path setting information” via the high-speed-side transmission path I / F unit B-3 holds the received “path setting information” in the storage unit B-5 in the control unit B-6. At the same time, by setting a path in the own apparatus, a communication path between the transmission apparatuses A and B can be established, and a communication path between the low-speed transmission apparatuses can be established.

  FIG. 15 shows a network configuration diagram of the eighth embodiment of the present invention. This embodiment is a modification of the embodiment of FIG. 10, and the same parts are denoted by the same reference numerals and the description thereof is omitted.

  FIG. 16 shows a flowchart of a second embodiment of the path setting control process executed by the monitoring control apparatus E. In the figure, it is determined in step S86 whether or not a new transmission device has been recognized. If there is a new transmission device recognition, a path setting command is transmitted to the transmission device A in step S88. Thereafter, in step S89, it is determined whether or not there is a path setting completion notification from the transmission apparatus A within a predetermined time. If there is no notification, step S88 is repeated.

  In FIG. 15, when the transmission device B is additionally connected to the high-speed transmission line of the transmission device A, the monitoring unit A-4 of the transmission device A recognizes the connection of the transmission device B and notifies the monitoring control device E of that fact. To do. The monitoring control apparatus recognizes that the transmission apparatus B is newly connected in the network, and transmits a “path setting command” to the transmission apparatus A.

  The control unit A-6 that has received the “path setting command” via the monitoring visual control device I / F unit A-1 sends “path setting” to the transmission device B via the high-speed-side transmission path I / F unit A-3. Send "Information transmission request". The transmission apparatus B that has received the “path setting information transmission request” via the high-speed-side transmission line I / F unit B-3 receives the “path setting information” stored in the storage unit B-5 in the control unit B-6. ”And“ path setting information ”is transmitted as a response to the transmission apparatus A via the high-speed transmission line I / F unit B-3.

  In the transmission apparatus A, the response of the “path setting information” from the transmission apparatus B is received via the high-speed side transmission path I / F unit A-3, and the received “path setting information” in the control unit A-6. Is stored in the storage unit A-5 and a path is set in the own apparatus, so that a communication path between the low-speed transmission apparatuses can be established.

  FIG. 17 shows a flowchart of a modification of the third embodiment of the path setting process executed by the control units A-6 and B-6. In the figure, the same parts as those in FIG. In this modification, steps S46 and S47 are executed instead of step S40.

  In FIG. 17, it is determined in step S30 whether or not the monitoring units A-4 and B-4 have recognized the connection of the transmission apparatuses facing each other on the transmission path. It is confirmed whether or not the path setting information related to the transmission path is held in −5 and B-5.

If the path setting information is held in step S32, the path setting information is transmitted to the transmission path in step S34, and a path is set based on the path setting information. Thereafter, in step S36, it is determined whether or not a path setting completion notification is received within a predetermined time. Only when no path setting completion notification is received, the process proceeds to step S34 and steps S34 and S36 are repeated.

  On the other hand, if the path setting information is not held in step S32, a path setting information transmission request is transmitted to the transmission path in step S38. Thereafter, in step S46, it is determined whether or not the path setting information is returned within a predetermined time. If no path setting information is returned, it is held in the storage units A-5 and B-5 of the own apparatus in step S47. Existing path setting information is transmitted to the opposite transmission apparatus.

  Further, if the connection of the transmission apparatus is not recognized in step S30, it is determined whether or not the path setting information is received in step S42, and if not received, the process proceeds to step S30. If path setting information is received, a path is set based on the path setting information received in step S44.

  In this way, the path setting information that accompanies a change in the user's network configuration, line change, etc., is not created and transmitted for all devices, but the path of the transmission device that is automatically opposed by simply instructing a specific device. The setting can be switched reliably.

  Note that the high-speed transmission line I / F units A-3 and B-3 correspond to the connection recognizing means described in the claims, steps S12, S26 and S34 correspond to the path setting information transmitting means, and steps S13 and S27. , S28, S35, and S44 correspond to the path setting means, steps S22 and S38 correspond to the path setting information transmission requesting means, step S32 corresponds to the path setting information holding determining means, and step S82 corresponds to the path setting information transmission control. Step S84 corresponds to the path setting information retransmission means, step S88 corresponds to the path setting command transmission control means, and step S89 corresponds to the path setting command retransmission means.

It is a network block diagram of an example of the past. It is a network block diagram of an example of the past. It is a network block diagram of 1st Example of this invention. It is a flowchart of 1st Example of a path | pass setting process. It is a network block diagram of 2nd Example of this invention. It is a flowchart of 2nd Example of a path | pass setting process. It is a flowchart of 3rd Example of a path | pass setting process. It is a network block diagram of 4th Example of this invention. It is a flowchart of 4th Example of a path | pass setting process. It is a network block diagram of 5th Example of this invention. It is a flowchart of 5th Example of a path | pass setting process. It is a flowchart of 6th Example of a path | pass setting process. It is a network block diagram of 7th Example of this invention. It is a flowchart of 1st Example of a path | pass setting control process. It is a network block diagram of 8th Example of this invention. It is a flowchart of 2nd Example of a path | pass setting control process. It is a flowchart of the modification of 3rd Example of a path | pass setting process.

Claims (12)

Recognizing that the opposite transmission device is connected via the transmission line,
In the transmission apparatus that recognizes the connection, a path setting information transmission request is transmitted to the opposite transmission apparatus,
The opposing transmission apparatus transmits the stored path setting information to the transmission apparatus that has recognized the connection based on the received path setting information transmission request, and the path within the own apparatus based on the path setting information. Set up
The transmission device that has recognized the connection performs path setting in the own device based on the received path setting information,
A path setting method for establishing a communication path between both transmission apparatuses. Recognizing that the opposite transmission device is connected via the transmission line,
In the transmission apparatus that recognizes the connection, it is determined whether or not the path setting information is held in the own apparatus,
When the path setting information is held in the own apparatus, the path setting is performed by the method according to claim 1, and when the path setting information is not held in the own apparatus, the path setting is performed by the method according to claim 2. Done
A path setting method for establishing a communication path between both transmission apparatuses. Send a path setting command from the monitoring and control device that monitors a network consisting of multiple transmission devices to the transmission device,
In the transmission apparatus that has received the path setting command, a path setting information transmission request is transmitted to the opposite transmission apparatus via the transmission path,
The opposing transmission apparatus transmits the stored path setting information to the transmission apparatus that has recognized the connection based on the received path setting information transmission request, and the path within the own apparatus based on the path setting information. Set up
The transmission device that has recognized the connection performs path setting in the own device based on the received path setting information,
A path setting method for establishing a communication path between both transmission apparatuses. Send a path setting command from the monitoring and control device that monitors a network consisting of multiple transmission devices to the transmission device,
The transmission apparatus that has received the path setting command determines whether or not the path setting information is held in the own apparatus,
If no holds path setting information in the own device performs path setting in claim 3, wherein the method,
A path setting method for establishing a communication path between both transmission apparatuses. The path setting method according to any one of claims 1 to 4 ,
A path setting method in which a transmission apparatus that has transmitted the path setting information transmission request retransmits the path setting information transmission request when path setting information from the opposite transmission apparatus is not received. The path setting method according to any one of claims 1 to 4 ,
A path setting method in which a transmission apparatus that has transmitted the path setting information transmission request transmits path setting information held in the own apparatus to the opposite transmission apparatus when path setting information from the opposite transmission apparatus is not received . A connection recognizing means for recognizing that an opposing transmission device is connected via a transmission line;
Path setting information transmission request means for transmitting a path setting information transmission request to the opposing transmission device when recognizing the connection;
Based on the received path setting information transmission request, path setting information transmitting means for transmitting the held path setting information to the transmission apparatus that has recognized the connection;
A transmission apparatus comprising path setting means for performing path setting within the own apparatus based on the path setting information or path setting information received from a transmission path. A connection recognizing means for recognizing that an opposing transmission device is connected via a transmission line;
Path setting information holding judging means for judging whether or not the host apparatus holds path setting information when the connection is recognized;
Path setting information transmitting means for transmitting the held path setting information to the opposing transmission device when holding the path setting information or based on the received path setting information transmission request;
Path setting information transmission request means for transmitting a path setting information transmission request to the opposite transmission apparatus when the path setting information is not held;
A transmission apparatus having path setting means for setting a path in the own apparatus based on the path setting information or the path setting information received from the transmission path In a monitoring control device that monitors a network composed of a plurality of transmission devices,
When the new transmission device is notified from the opposite transmission device via a transmission path that a new transmission device is connected to the network, the path setting command of the new transmission device is sent to the opposite transmission device. A monitoring control apparatus having path setting command transmission control means for transmitting. The monitoring control device according to claim 9 , wherein
A monitoring control apparatus comprising path setting command retransmission means for retransmitting the path setting command when there is no path setting completion notification from the opposite transmission apparatus. Connection recognizing means for recognizing that the opposite transmission device is connected to the computer via the transmission line;
Path setting information transmission requesting means for transmitting a path setting information transmission request to the opposing transmission device when recognizing the connection;
Based on the received path setting information transmission request, path setting information transmitting means for transmitting the held path setting information to the transmission apparatus that has recognized the connection;
A computer-readable recording medium storing a program for functioning as path setting means for setting a path in the apparatus based on the path setting information or path setting information received from a transmission path. When the computer notifies the new transmission apparatus that a new transmission apparatus is connected to the new transmission apparatus via a transmission path, the path setting command of the new transmission apparatus is transmitted to the opposite transmission. A computer-readable recording medium storing a program for functioning as a path setting command transmission control means for transmitting to a device.

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