JP2010193264A - Network system and transmission apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To efficiently execute batch settings to a transmission apparatus. <P>SOLUTION: A network system includes a plurality of transmission apparatuses 102 constituting nodes distributively disposed on a communication network and a network management device 101 for remotely controlling the transmission apparatuses 102. The transmission apparatus 102 includes: a holding table 104 having a storage region for holding a setting command; a command receiver 103 for receiving a control command Ca transmitted from the network management device 101; and a setting controller 105 for collectively setting a plurality of setting items to controlled system hardware 106 in accordance with setting commands C1-C3 read from the holding table 104 in response to the control command Ca. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a remote control technique for a transmission apparatus that constitutes a node on a communication network, and particularly to a remote control technique for performing settings for a large number of transmission apparatuses.

  In recent years, speeding up of communication speed and capacity increase in a wide-area communication network are rapidly progressing. Along with this, there is a demand for an increase in the processing capacity (the amount of data that can be processed per unit time) of transmission apparatuses that constitute nodes on a communication network. In addition, as the communication network becomes larger, the number of transmission apparatuses on the communication network increases, but the amount of setting work for these many transmission apparatuses becomes very large. In view of this, a remote control technology has been developed in which the maintenance management device performs remote control of the transmission devices to efficiently set the transmission devices.

  As a prior art document regarding such a remote control technique, for example, Patent Document 1 (Japanese Patent Laid-Open No. 2005-229329) is cited. In the remote control technique disclosed in Patent Document 1, a network management device (maintenance management device) sets a low-speed facility type, a high-speed facility parameter setting to a transmission device such as a WDM (Wavelength Division Multiplexing) transmission device, Remotely control items such as alarm settings or network settings.

JP 2005-229329 A

  A command interface can be used to set the transmission device. That is, the network management device transmits a setting command to the transmission device according to a predetermined communication protocol. When the transmission device receives the setting command transmitted according to the communication protocol, the transmission device sets control information for its own hardware to be controlled based on the setting command. The network management apparatus can sequentially execute setting of a plurality of setting items for the transmission apparatus, but such a procedure is not an efficient method.

  Therefore, a transmission apparatus having a function for setting a plurality of setting items at once (hereinafter referred to as “collective setting function”) has been developed. With the recent increase in communication speed and capacity, the amount of setting from the network management device to the transmission device tends to increase. Therefore, if the transmission device has this batch setting function, the setting process can be performed efficiently. Is possible.

  However, the network management apparatus may need to manage a transmission apparatus that does not have the collective setting function (hereinafter referred to as “old transmission apparatus”) in addition to the transmission apparatus that has the collective setting function. That is, in a communication network in which a transmission apparatus having a batch setting function and an old transmission apparatus exist together, the command interface format between the network management apparatus and the transmission apparatus is changed from the transmission apparatus having the batch setting function to the old transmission apparatus. Although the format must be compatible with both the transmission apparatus and the like, there is a problem that the control processing in the network management apparatus becomes complicated.

  Further, the transmission apparatus needs to have a function that enables setting of a certain degree of granularity (a minimum necessary unit for executing each setting) from a communication terminal such as a local control terminal. Therefore, there is a problem that it is necessary to support both the old command interface and the new command interface.

  In view of the above, an object of the present invention is to provide a network system and a transmission device that enable efficient batch setting for the transmission device.

  According to the present invention, there is provided a network system including a plurality of transmission apparatuses constituting nodes distributed on a communication network, and a network management apparatus that remotely controls the transmission apparatus via the communication network. In this network system, at least one of the plurality of transmission devices includes control target hardware having a control state determined by a plurality of setting items, a holding table having a storage area for holding setting commands, and the network management device A command receiving unit for receiving a first control command transmitted according to a predetermined communication protocol, and interpreting the setting command read from the holding table according to the received first control command, A setting control unit configured to collectively set the plurality of setting items for the control target hardware according to an interpretation result.

  In addition, according to the present invention, there is provided a network system including a plurality of transmission devices constituting nodes distributed on a communication network and a network management device for remotely controlling the transmission devices via the communication network. The In this network system, at least one of the plurality of transmission devices includes a control target hardware having a control state determined by a plurality of setting items, a backup unit having a storage area, and a predetermined communication protocol from the network management device. A command receiving unit that receives the setting command transmitted according to the method, interprets the received setting command, and collectively sets the plurality of setting items for the hardware to be controlled according to the interpretation result. And a setting control unit that stores setting data indicating the above in the storage area of the backup unit.

  In addition, according to the present invention, a transmission apparatus constituting a node arranged on a communication network is provided. The transmission apparatus includes a control target hardware having a control state determined by a plurality of setting items, a holding table having a storage area for holding a setting command, and a first transmission transmitted according to a predetermined communication protocol via the communication network. A command receiving unit that receives the control command, and interprets the setting command read from the holding table in accordance with the received first control command, and the control target hardware according to the interpretation result A setting control unit configured to collectively set the plurality of setting items.

  And according to this invention, the transmission apparatus which comprises the node arrange | positioned on a communication network is provided. The transmission device receives a setting command transmitted according to a predetermined communication protocol via the communication network, a hardware to be controlled having a control state determined by a plurality of setting items, a backup unit having a storage area, and the communication network. And the received setting command, and collectively setting the plurality of setting items for the hardware to be controlled according to the interpretation result, and setting data indicating the interpretation result is stored in the backup unit A setting control unit to be held in the area.

  ADVANTAGE OF THE INVENTION According to this invention, the network system and transmission apparatus which enable efficiently performing the batch setting with respect to a transmission apparatus are provided.

It is a figure which shows schematic structure of the network system of embodiment which concerns on this invention. It is a functional block diagram which has schematic structure of the high capacity | capacitance type transmission apparatus of 1st Embodiment. It is a figure for demonstrating the setting operation | movement of a transmission apparatus. It is a figure for demonstrating the setting operation | movement of a transmission apparatus. It is a figure for demonstrating the setting operation | movement of a transmission apparatus. It is a functional block diagram which has schematic structure of the high capacity | capacitance type transmission apparatus of 2nd Embodiment. It is a figure for demonstrating the setting operation | movement of a transmission apparatus. It is a figure for demonstrating the setting operation | movement of a transmission apparatus.

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

(First embodiment)
FIG. 1 is a diagram showing a schematic configuration of a network system according to an embodiment of the present invention. As shown in FIG. 1, a large number of transmission apparatuses 102,..., 99,. Among these transmission devices 102,..., 99,..., The transmission device 102 is a large-capacity transmission device having a collective setting function (a function capable of collectively setting a plurality of setting items). Reference numeral 99 denotes an old transmission apparatus that does not have a batch setting function. The network management apparatus 101 manages these transmission apparatuses 99 and 102 by remote control via the communication network NW. The communication network NW includes, for example, a backbone network that constitutes an optical transmission line, but is not limited thereto.

  FIG. 2 is a functional block diagram having a schematic configuration of the large-capacity transmission apparatus 102 according to the first embodiment. As illustrated in FIG. 2, the large-capacity transmission apparatus 102 includes a command receiving unit 103, a holding table 104, a command conversion unit 105, and control target hardware 106. The control target hardware 106 has a control state determined by a plurality of setting items, and is a communication device such as an optical transmission router. The holding table 104 is provided in a storage device such as a nonvolatile memory, and has a storage area for holding a plurality of setting commands C1 to C3.

  The command receiving unit 103 has a function of receiving a control command and a setting command transmitted from the network management apparatus 101 according to a predetermined communication protocol. As will be described later, the holding table 104 has a function of holding the setting commands C1 to C3 received by the command receiving unit 103 during the holding mode in its own storage area. The command conversion unit (setting control unit) 105 interprets the setting commands C1 to C3 supplied from the command receiving unit 103 or the holding table 104, and converts these setting commands C1 to C3 into the setting data SC1 to SC3, respectively, according to the interpretation result. Convert. The command conversion unit 105 has a function of collectively setting a plurality of setting items by giving the setting data SC1 to SC3 to the control target hardware 106.

  The operation of the network system having the above configuration will be described below.

  3 to 5 are diagrams for explaining the setting operation of the transmission apparatus 102. As shown in FIG. 3, when the operation mode of the transmission apparatus 102 is in the normal mode, the command receiving unit 103 receives the setting commands C1 to C3 from the network management apparatus 101, and converts the setting commands C1 to C3 into command conversions. Part 105. Command conversion unit 105 interprets setting commands C1 to C3, and converts setting commands C1 to C3 into setting data SC1 to SC3, respectively, according to the interpretation result. Then, the command conversion unit 105 gives the setting data SC1 to SC3 to the control target hardware 106 and sets a plurality of setting items at once. The network management apparatus 101 can shift the operation mode of the transmission apparatus 102 to the normal mode by supplying a certain control command to the transmission apparatus 102. The old transmission device 99 has a function of sequentially setting a plurality of setting items to the built-in control target hardware (not shown) in response to receiving the setting commands C1 to C3. , It does not have a function to set a plurality of setting items at once.

  Next, FIG. 4 is a diagram for explaining the setting operation when the operation mode of the transmission apparatus 102 is the holding mode. As shown in FIG. 4, when receiving the setting commands C1 to C3 together with the control command Cb from the network management apparatus 101, the command receiving unit 103 holds the setting commands C1 to C3 in the storage area of the holding table 104. When this operation is completed, the operation mode of the transmission apparatus 102 returns to the normal mode.

  Next, FIG. 5 is a diagram for explaining the setting operation when the operation mode of the transmission apparatus 102 is in the setting mode. As shown in FIG. 5, when receiving the control command Ca from the network management apparatus 101, the command receiving unit 103 gives the control command Ca to the command conversion unit 105. The command conversion unit 105 reads the setting commands C1 to C3 from the holding table 104 according to the control command (holding stop control command) Ca, and generates setting data SC1 to SC3 according to the interpretation results of the setting commands C1 to C3. . Then, the command conversion unit 105 gives the setting data SC1 to SC3 to the control target hardware 106 and sets a plurality of setting items at once. When this batch setting is completed, the operation mode of the transmission apparatus 102 returns to the normal mode.

  As described above, in the network system of the first embodiment, the network management apparatus 101 sets the old transmission apparatus 99 having only the normal mode and the large capacity transmission apparatus 102 having the normal mode, the holding mode, and the setting mode. Batch setting can be performed by remote control. That is, when executing batch setting for the large-capacity transmission apparatus 102, the network management apparatus 101 holds the control command Ca to the large-capacity transmission apparatus 102 and is held in advance in the large-capacity transmission apparatus 102. Batch setting based on the setting commands C1 to C3 is executed. It is possible to efficiently execute batch setting for the transmission apparatus.

  Further, since the command interface between the network management apparatus 101 and the large-capacity transmission apparatus 102 can be applied to the old transmission apparatus 99, the control processing in the network management apparatus 101 can be relatively simple. There is an advantage. The large-capacity transmission apparatus 102 can be easily accommodated in the existing communication network NW including the old transmission apparatus 99.

(Second Embodiment)
Next, a second embodiment according to the present invention will be described. In the present embodiment, a large capacity transmission device 102M shown in FIG. 6 is used instead of the large capacity transmission device 102 of the first embodiment. FIG. 6 is a functional block diagram having a schematic configuration of the large-capacity transmission apparatus 102M of the second embodiment.

  As illustrated in FIG. 6, the large-capacity transmission apparatus 102M includes a command receiving unit 103, a command conversion unit 105M, a backup unit 107, and control target hardware 106. The control target hardware 106 has a control state determined by a plurality of setting items, and is a communication device such as an optical transmission router. The backup unit 107 is a storage device such as a nonvolatile memory, and has a storage area for storing the setting data SC1 to SC3.

  The command receiving unit 103 has a function of receiving a control command and a setting command transmitted from the network management apparatus 101 according to a predetermined communication protocol. The command conversion unit (setting control unit) 105M interprets the setting commands C1 to C3 supplied from the command receiving unit 103, and converts these setting commands C1 to C3 into setting data SC1 to SC3, respectively, according to the interpretation result.

  When the operation mode of the large-capacity transmission apparatus 102M is in the normal mode, the command conversion unit 105M provides the setting data SC1 to SC3 to the control target hardware 106 and collectively sets a plurality of setting items; A backup function for storing the setting data SC1 to SC3 in the backup unit 107 is provided. Thus, when the setting data SC1 to SC3 are collectively set, the setting data SC1 to SC3 can be backed up to the backup unit 107.

  FIG. 7 shows a state in which the backup data (setting data SC <b> 1 to SC <b> 3) in the backup unit 107 is lost although there is no abnormality in the setting of the control target hardware 106. In this case, as shown in FIG. 8, the network management apparatus 101 can supply the control command Cd to the large-capacity transmission apparatus 102M. In response to the control command Cd, the command conversion unit 105M performs backup of the setting data SC1 to SC3 to the backup unit 107 (that is, backup of the setting data SC1 to SC3) without executing batch setting for the hardware 106 to be controlled. (Overwrite to the unit 107). Thereafter, the network management apparatus 101 can return the operation mode of the large-capacity transmission apparatus 102M to the normal mode by supplying the control command Ce to the large-capacity transmission apparatus 102M.

  As described above, in the network system using the large-capacity transmission apparatus 102M of the present embodiment, it is possible to efficiently execute batch setting for the large-capacity transmission apparatus 102M. The network system according to the present embodiment is suitable when it is desired to reconstruct only the backup information (setting data stored in the backup unit 107) of the transmission apparatus 102M based on the history of control commands.

  As mentioned above, although embodiment of this invention was described with reference to drawings, these are the illustrations of this invention, Various structures other than the above are also employable.

99 Transmission equipment (old transmission equipment)
NW communication network 101 Network management device 102, 102M Transmission device (large-capacity transmission device)
103 Command receiving unit 104 Holding table 105, 105M Command converting unit (setting control unit)
106 Controlled hardware 107 Backup unit

Claims (10)

A network system comprising a plurality of transmission devices constituting nodes distributed on a communication network, and a network management device for remotely controlling the plurality of transmission devices via the communication network,
At least one of the plurality of transmission devices is
Control target hardware having a control state determined by a plurality of setting items;
A holding table having a storage area for holding setting commands;
A command receiving unit for receiving a first control command transmitted in accordance with a predetermined communication protocol from the network management device;
Setting control for interpreting the setting command read from the holding table in accordance with the received first control command and collectively setting the plurality of setting items for the hardware to be controlled according to the interpretation result And
Including network system.   2. The network system according to claim 1, wherein when the command receiving unit receives the setting command together with a second control command, the command receiving unit stores the received setting command in the storage area of the holding table. system. The network system according to claim 1 or 2,
At least one of the plurality of transmission devices is
Control target hardware having a control state determined by a plurality of setting items;
A command receiving unit for receiving a setting command without the first control command according to a predetermined communication protocol from the network management device;
A setting control unit that interprets the received setting command and sets the plurality of setting items for the hardware to be controlled according to the interpretation result;
Including network system. A network system comprising a plurality of transmission devices constituting nodes distributed on a communication network, and a network management device for remotely controlling the plurality of transmission devices via the communication network,
At least one of the plurality of transmission devices is
Control target hardware having a control state determined by a plurality of setting items;
A backup unit having a storage area;
A command receiving unit for receiving a setting command transmitted according to a predetermined communication protocol from the network management device;
The received setting command is interpreted, and the plurality of setting items are collectively set for the control target hardware according to the interpretation result, and setting data indicating the interpretation result is held in the storage area of the backup unit A setting control unit to be
Including network system.   5. The network system according to claim 4, wherein when the command receiving unit receives a setting command together with a control command from the network management device, the setting control unit interprets the received setting command, and the control target A network system that stores setting data indicating an interpretation result in the storage area of the backup unit without collectively setting the plurality of setting items for hardware. A transmission apparatus constituting a node arranged on a communication network,
Control target hardware having a control state determined by a plurality of setting items;
A holding table having a storage area for holding setting commands;
A command receiver for receiving a first control command transmitted in accordance with a predetermined communication protocol via the communication network;
Setting control for interpreting the setting command read from the holding table in accordance with the received first control command and collectively setting the plurality of setting items for the hardware to be controlled according to the interpretation result And
A transmission apparatus comprising:   The transmission apparatus according to claim 6, wherein the command reception unit stores the received setting command in the storage area of the holding table when receiving the setting command together with the second control command. . The transmission device according to claim 6 or 7,
When the command receiving unit receives a setting command not accompanied by the first control command, the setting control unit interprets the received setting command, and the plurality of the control target hardware according to the interpretation result. A transmission device that sets all setting items at once. A transmission apparatus constituting a node arranged on a communication network,
Control target hardware having a control state determined by a plurality of setting items;
A backup unit having a storage area;
A command receiving unit for receiving a setting command transmitted according to a predetermined communication protocol via the communication network;
The received setting command is interpreted, and the plurality of setting items are collectively set for the control target hardware according to the interpretation result, and setting data indicating the interpretation result is held in the storage area of the backup unit A setting control unit to be
A transmission apparatus comprising:   The transmission apparatus according to claim 9, wherein when the command receiving unit receives a setting command together with a control command, the setting control unit interprets the received setting command, and the plurality of the plurality of control target hardwares are controlled. A transmission apparatus that stores setting data indicating an interpretation result in the storage area of the backup unit without performing batch setting of the setting items.

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