JP5718836B2 - Monitoring control system, monitoring control apparatus, and polling method - Google Patents

Description

  The present invention relates to a polling technique for acquiring monitoring control information from a transmission device in a monitoring control system for monitoring and controlling a plurality of transmission devices.

  Conventionally, a monitoring control apparatus that monitors and controls a plurality of transmission apparatuses performs polling for collecting monitoring control information indicating the state of the apparatus and the like from each of the subordinate transmission apparatuses. Polling is a mechanism in which a polling signal is sequentially transmitted from a monitoring control device to a plurality of transmission devices, and a response signal including monitoring control information is received from each transmission device.

  However, if the transmission apparatus cannot respond to the polling signal for some reason (for example, executing a process from a control terminal connected to the transmission apparatus), the monitoring control apparatus There is a problem that after executing the polling process, it is necessary to wait until the polling signal is transmitted again to the non-responding transmission apparatus in the next round of the second round and monitoring control information is acquired from the transmission apparatus. In particular, when the number of target transmission apparatuses is large, it takes a long time to grasp the state of the transmission apparatus that has been retried. For example, if the time required for polling one transmission device is t and the number of transmission devices is N, the retry requires at least t × N.

  Therefore, in order to shorten the time required for polling, when the transmission device to be managed is divided into several groups and polling is performed in units of groups, only the transmission device having information to be transmitted returns a response. The method of making is considered (for example, refer patent document 1). Alternatively, a method of shortening the re-polling time by combining polling in block units and polling in individual units has been considered (see, for example, Patent Document 2). In addition, a method has been studied in which priority is given to polling to shorten the polling cycle of a device with high priority (see, for example, Patent Document 3). Furthermore, a method of changing the priority according to the change in the data amount has been studied (for example, see Patent Document 4).

JP 2004-080322 A Japanese Patent Laid-Open No. 10-233792 JP 2000-032012 A JP 2001-333071 A

  However, in the past, groups have been fixed, and complicated management of blocks and individual units has to be performed, and polling time can be efficiently reduced with simple processing for unacknowledged transmission equipment. It was difficult.

  In view of the above problems, an object of the present invention is to acquire monitoring control information by performing re-polling to a transmission device in a short time even when the transmission device cannot execute polling because the control command is being executed. Another object of the present invention is to provide a monitoring control system, a monitoring control apparatus, and a polling method capable of efficiently collecting monitoring control information even in a system with a large number of devices, even when there is a lot of congestion with control commands.

The supervisory control system according to the present invention is a supervisory control system comprising a plurality of transmission devices and a supervisory control device that monitors and controls the operation of the transmission device. The transmission device requests a polling request from the supervisory control device. When receiving the control information, the monitoring control device divides the plurality of transmission devices into a plurality of groups, and collects them for each group. A polling unit that transmits a polling request and receives a response signal from the transmission device in the group; and a polling order table that stores a sequence in which the polling request is transmitted to the plurality of transmission devices. When there is the transmission apparatus that cannot receive a response signal, the means sets the polling order of the transmission apparatus to the transmission of the remaining group. To change the polling sequence table to replace the location.

Then , when issuing a control command from the control terminal connected to the monitoring control device to the transmission device, the polling means receives the control command for the transmission device from the control terminal. Next, when belonging to the group to which a polling request is to be transmitted next, the polling order table is changed so as to replace the transmission apparatus belonging to the next group of the group.

  Further, the polling means determines a group to which the transmission apparatus is moved according to the type of the control command, and changes the polling order table so as to replace the transmission apparatus belonging to the determined group. And

  In addition, the polling means outputs an alarm when a response signal cannot be received from the transmission apparatus even if the polling request is made to the same transmission apparatus a preset number of times, and the transmission apparatus is stored in the polling order table. It is characterized by making a change back to the group.

A monitoring control device according to the present invention is connected to a plurality of transmission devices, and monitors and controls the operation of the transmission device. The monitoring control device divides the plurality of transmission devices into a plurality of groups and collects them for each group. A polling unit that transmits a polling request and receives a response signal from the transmission device in the group; and a polling order table that stores a sequence in which the polling request is transmitted to the plurality of transmission devices. It means, if there is no response signal the transmission device, to change the polling sequence table to replace the polling order of the transmission apparatus and the transmission apparatus of the rest of the group.

When issuing a control command to the transmission device from a control terminal connected to the own device, the polling means, when receiving the control command for the transmitting device from the control terminal, the transmission apparatus then When belonging to the group to which a polling request is to be transmitted, the polling order table is changed so as to replace the transmission apparatus belonging to the next group of the group.

  Further, the polling means determines a group to which the transmission apparatus is moved according to the type of the control command, and changes the polling order table so as to replace the transmission apparatus belonging to the determined group. And

  In addition, the polling means outputs an alarm when a response signal cannot be received from the transmission apparatus even if the polling request is made to the same transmission apparatus a preset number of times, and the transmission apparatus is stored in the polling order table. It is characterized by making a change back to the group.

The polling method according to the present invention is a polling method used in a monitoring control system comprising a plurality of transmission devices and a monitoring control device that monitors and controls the operation of the transmission device, wherein the transmission device is the monitoring control device. When the polling request is received, the monitoring control information of its own device is returned to the monitoring control device, and the monitoring control device manages the plurality of transmission devices in a plurality of groups, and the plurality of transmission devices. In the case where there is the transmission apparatus that cannot receive a response signal, the polling order of the transmission apparatus is changed to the remaining polling order. to change the polling sequence table to replace the transmission system of the group.

When a control command is issued from the control terminal connected to the supervisory control device to the transmission device, the supervisory control device receives the control command for the transmission device from the connected control terminal. When a device belongs to the group scheduled to transmit a polling request next time, the polling order table is changed so as to replace the transmission device belonging to the next group of the group.

  Further, the monitoring and control apparatus determines a group to which the transmission apparatus is moved according to the type of the control command, and changes the polling order table so as to replace the transmission apparatus belonging to the determined group. Features.

  In addition, if the monitoring control device cannot receive a response signal from the transmission device even if it makes the polling request to the same transmission device a preset number of times, it outputs an alarm and sends the transmission device to the polling order table. It is characterized by making a change back to the original group.

  The monitoring control system, the monitoring control apparatus, and the polling method according to the present invention perform the re-polling to the transmission apparatus in a short time even when the transmission apparatus cannot execute the polling because the control command is being executed, etc. The monitoring control information can be efficiently collected even in a system with a large number of devices, even when there is a lot of congestion with control commands.

1 is a diagram illustrating a configuration example of a monitoring control system 100. FIG. It is a figure which shows the mode of the polling per group. 2 is a diagram illustrating a configuration example of a monitoring control device 101 and a transmission device 103. FIG. It is a figure which shows an example of the polling order table. It is a figure which shows the mode of the polling at the time of control command issue. It is a figure which shows the mode of the polling skip at the time of control command issue. It is a figure which shows the mode of the re-polling at the time of polling skip. It is a figure which shows the mode of the polling at the time of group replacement. It is a figure which shows the mode at the time of control command issuance during polling. It is a figure which shows the flow of a polling process.

  Hereinafter, embodiments of a monitoring control system, a monitoring control apparatus, and a polling method according to the present invention will be described in detail.

  FIG. 1 is a diagram illustrating a configuration example of a monitoring control system 100 according to the present embodiment. In FIG. 1, the monitoring control system 100 includes a monitoring control apparatus 101, a network 102, a plurality of transmission apparatuses 103a to 103d, a monitoring network 104, and a control terminal 105. Here, in FIG. 1, when the matters common to the transmission device 103 d from the transmission device 103 a are described, the alphabet at the end of the code is omitted and the transmission device 103 is indicated, and when referring to a specific transmission device 103, the transmission device. Like the code 103a, it is written by adding an alphabet at the end of the code.

  The monitoring control device 101 is configured by an NE-OpS server (Network Operation Server), and controls and manages the states of a plurality of transmission devices 103 connected via the network 102.

  In the example of FIG. 1, the network 102 is depicted as a monitoring network that connects a plurality of transmission apparatuses 103 and the monitoring control apparatus 101, but a general network in which each transmission apparatus 103 transmits user data is used. It may be an in-band monitoring network or a dedicated monitoring network.

  The transmission device 103 is a communication device such as a router or a switch.

  The monitoring network 104 is a monitoring network for connecting the monitoring control apparatus 101 and the control terminal 105. A network common to the network 102 may be used, or a dedicated network may be provided.

  The control terminal 105 is an HMI (Human Machine Interface), and an operator such as a maintenance manager monitors the state of each transmission device 103 via the monitoring control device 101 or issues a control command to control the transmission device 103. It is composed of a personal computer equipped with monitoring and control software. Here, as an example of the control command, there are reading of alarm information of the transmission device 103, device reset command, control of the light output level, etc., and transmission targeted by monitor information and screen operation displayed on the screen of the control terminal 105. The device 103 and a control command are selected and transmitted. The control command transmitted from the control terminal 105 is received by the monitoring control apparatus 101 via the monitoring network 104, and the control command is transferred to the corresponding transmission apparatus 103. Note that the processing load on the transmission device 103 differs depending on the type of control command. For example, in the case of a device reset command, the transmission device 103 stops processing for a long time, and there is a problem that polling described below cannot be executed. .

  In FIG. 1, the supervisory control device 101 periodically polls in order to confirm the state of the transmission device 103 and acquires the supervisory control information of each transmission device 103. In the polling, a polling signal for requesting transmission of monitoring control information from the monitoring control apparatus 101 via the network 102 is sequentially transmitted to each transmission apparatus 103, and a response signal including monitoring control information is received from each transmission apparatus. It has become. In this case, a polling signal is transmitted for each transmission apparatus 103 and a response signal from the transmission apparatus 103 is waited. Therefore, if the number of transmission apparatuses 103 increases, it takes a lot of time and the efficiency deteriorates. In view of this, the monitoring control system 100 according to the present embodiment performs a method of transmitting a polling signal for issuing a command for collecting the monitoring control information in a group by dividing the plurality of transmission apparatuses 103 into a plurality of groups.

  FIG. 2 is a diagram specifically showing a method of performing polling in a group unit by dividing a plurality of transmission apparatuses 103 into a plurality of groups in the monitoring control system 100. In FIG. 2, the same reference numerals as those in FIG. FIG. 2 shows an example in which a plurality of transmission apparatuses 103 are 990 apparatuses from NE001 to NE990, and one group is formed of 30 apparatuses. For example, group 1 (Gr1) has 30 transmission devices 103 from NE001 to NE030, group 2 (Gr2) has 30 transmission devices 103 from NE031 to NE060, and group 3 (Gr3) has 30 from NE061 to NE090. One transmission apparatus 103 and the last group 33 (Gr33) are composed of 30 transmission apparatuses 103 from NE961 to NE990. Here, in the monitoring control system 100 according to the present embodiment, 30 units are set as a group unit, but may be 10 units or 40 units.

  In FIG. 2, the supervisory control device 101 transmits a polling signal for collecting supervisory control information collectively in units of groups, and the transmission device 103 in the group that has received this transmits a response including the supervisory control information of its own device. A signal is returned to the monitoring control apparatus 101. For example, the monitoring control apparatus 101 transmits a polling signal to Gr1, and the transmission apparatuses 103 from NE001 to NE030 in Gr1 return a response signal to the monitoring control apparatus 101. Since each transmission device 103 in the group transmits a response signal including monitoring control information as a packet to the network 102, the monitoring control device 101 does not necessarily receive the response signals in the order of devices. Then, the supervisory control device 101 transmits a polling signal in a group unit, and then a predetermined time elapses or when response signals have been received from all the transmission devices 103 in the group. A polling signal is transmitted to the next group. In this way, when polling from Gr1 to Gr33 is completed, the monitoring control apparatus 101 can always grasp the state of each transmission apparatus 103 by repeating the polling operation from Gr1 again.

For example, in FIG. 2, if a response signal cannot be received from NE002 of Gr1 even after a predetermined time has elapsed, NE002 is not polled and a batch polling signal is transmitted to the next Gr2. In this case, in the conventional polling, the re-polling for NE002 ends the polling up to Gr33 of the remaining group and waits until the polling for Gr1 in the second round is performed. There arises a problem that the monitoring control information of NE002 cannot be confirmed. In view of this, in the monitoring control system 100 according to the present embodiment, NE002 that cannot respond at the time of polling to Gr1 is replaced with one of the transmission devices 103 of the next Gr2, and re-polling is performed. For example, as indicated by a dotted line below Gr2 in FIG. 2, NE002 is inserted into 30 transmission devices 103 from NE031 to NE060, and polling is performed with 30 units from NE002 and NE031 to NE059 as Gr2. . Thereby, the monitoring control apparatus 101 can acquire the monitoring control information of NE002 at high speed without waiting for re-polling to NE002 until after one round. Here, before the polling signal for Gr1 is transmitted, if the monitoring and control apparatus 101 knows in advance that the NE002 cannot respond due to the response of the control command or the like, for example, NE031 of Gr2 and NE002 of Gr1 are replaced with NE031. Can be polled with Gr1 and NE002 can be polled with Gr2. As a result, polling is performed on 30 transmission apparatuses 103 with Gr1 and 30 transmission apparatuses with Gr2, so that the efficiency of polling can be increased. Note that the group and order replacement of the transmission apparatus 103 will be described in detail later.
[Configuration Example of Monitoring and Control Device 101 and Transmission Device 103]
Next, configuration examples of the monitoring control apparatus 101 and the transmission apparatus 103 will be described in detail with reference to FIG. In addition, the block of the same code | symbol as FIG. 1 shows the same thing. FIG. 3 shows an example of the configuration of the monitoring control device 101 and the transmission device 103. Blocks not related to the polling operation described in the present embodiment, such as a block for performing user data transmission processing, are omitted. .

  In FIG. 3, the monitoring control apparatus 101 includes a monitoring control unit 201, a communication unit 202, a control terminal communication IF 203, and a polling order table 204.

  The monitoring control unit 201 performs processing for polling the transmission device 103 to collect monitoring control information and processing for transmitting a control command received from the control terminal 105 to the transmission device 103.

  A communication unit 202 is an interface for communicating with the transmission apparatus 103 via the network 102 and transmits a polling signal, a control command, receives a response signal, and the like.

  The control terminal communication IF 203 is an interface for communicating with the control terminal 105 via the monitoring network 104, and receives control commands transmitted from the control terminal 105 and monitoring control information received from the transmission apparatus 103 to the control terminal 105. Send.

  The polling order table 204 is a table showing the grouping of each transmission apparatus 103 and the polling order of the groups. The monitoring control unit 201 refers to the polling order table 204 and performs polling in units of groups and responds. For the transmission apparatus 103 that cannot be used, the group of the transmission apparatus 103 in the polling order table 204 is replaced, and the order is changed so that re-polling can be performed quickly.

  On the other hand, the transmission apparatus 103 includes a control unit 301 and a communication unit 302.

  When the control unit 301 receives a polling signal from the monitoring control apparatus 101, the control unit 301 returns a response signal (packet) including the monitoring control information of the own apparatus to the monitoring control apparatus 101, or a control issued by the control terminal 105. When a command is received from the monitoring control apparatus 101, processing corresponding to the command of the control command is executed. For example, when a device reset command is received, processing for resetting the device itself is performed. Note that the monitoring control information is not shown in FIG. 3 but is held inside the control unit 301. Further, when a polling signal is received from the monitoring control apparatus 101 during execution of the reset process, a response signal is not returned to the monitoring control apparatus 101 because it cannot be handled.

  The communication unit 302 is an interface for communicating with the monitoring control apparatus 101 via the network 102, and performs reception of polling signals and control commands, transmission of response signals, and the like.

As described above, the monitoring control apparatus 101 and the transmission apparatus 103 can perform transmission / reception of a polling signal and transmission / reception of a response signal corresponding to the polling signal.
[Polling order table 204]
Next, the polling order table 204 will be described. FIG. 4A is a diagram illustrating an example of the polling order table 204. 4A corresponds to the group configuration of FIG. 2 described above, and the same reference numerals and the transmission apparatus 103 as those in FIG.

  In the polling order table 204 of FIG. 4A, the 30 transmission devices 103 (NE001 to NE030) of Gr1 have the first polling order. Similarly, NE031 to NE060 of Gr2 has the second polling order, NE061 to NE090 of Gr3 has the third polling order, and NE961 to NE990 of the last Gr33 has the 33rd polling order. The polling order table 204 in FIG. 4A is a preset default polling order.

  Then, in the polling order table 204 of FIG. 4A, the monitoring control apparatus 101 may issue a control command for NE032 of Gr2 before sending a polling signal to Gr2, for example, so that NE032 cannot respond to polling. When it is known in advance, the monitoring control apparatus 101 replaces NE032 with NE062 of the next Gr3 as the polling order table 204a as shown in the polling order table 204a in FIG. 4B, and the polling signal transmitted to Gr2 is the target. The number of transmission devices 103 is NE031, NE062, NE033 to NE060, and the number of transmission devices 103 targeted by the polling signal transmitted to Gr3 is 30 units of NE061, NE032, NE063 to NE090. In the example of FIG. 4B, NE032 of Gr2 is replaced with NE062 of Gr3. However, NE061 or NE090 may be used. Alternatively, if the control command for NE032 is a control command that is difficult to operate for a long time, such as a device reset command, the transmission device 103 of the group that is scheduled to perform polling later, such as Gr4 or Gr5 instead of Gr3 for NE032 of Gr2. You may make it replace.

  Here, since the monitoring control apparatus 101 can know the contents of the control command issued by the control terminal 105, for example, when the control command is a simple type of command with a short processing time, such as monitoring an alarm, only one is required. The polling order table 204 is changed so as to delay the group. When the control command is a command requiring a time such as a device reset, the polling order table 204 is set so as to delay the polling by two, three or more groups. change. Thus, by selecting a replacement group according to the type of control command, the rate of re-polling can be reduced, and efficient polling without waste is possible.

  In order to simplify the process, even if the delay is uniformly delayed to the next group regardless of the type of control command, if the next group has not responded, re-polling will be performed in the next group in order. Therefore, monitoring control information can be collected more quickly than in the past.

  Further, an upper limit number of re-polling is set in advance, and when the upper limit number is exceeded, the group forward processing for the transmission apparatus 103 is stopped, the default group is returned, and polling is performed the next time. May be. Thereby, for example, the transmission apparatus 103 whose power is stopped is not excessively re-polled, and efficient polling can be performed.

[Polling process flow]
Next, the flow of the polling process will be described. FIG. 5 is a diagram showing a polling signal and a control command transmitted / received among the control terminal 105, the monitoring control apparatus 101, and the transmission apparatus 103 in time series at time t. 2 and 4 denote the same components.

  In FIG. 5, the supervisory control device 101 first transmits a collective polling signal to Gr1, and NE001 to NE030 of Gr1 execute polling processing and return a response signal. In the example of FIG. 5, the monitoring control apparatus 101 receives a control command from the control terminal 105 to NE032 of Gr2 before polling to Gr1 is completed and a polling signal to Gr2 is transmitted. Then, the control command is transmitted to NE032, and NE032 executes processing for the control command. Thereafter, the supervisory control apparatus 101 transmits a polling signal to Gr2, and NE032 can execute a polling process and return a response signal.

  Here, in the example of FIG. 5, the NE 032 was able to finish executing the process for the control command before the Gr2 polling signal was transmitted. However, as shown in FIG. In this case, NE032 is not executing a control command and therefore cannot return a response signal to the polling signal. As a result, NE032 skips polling, and the polling is not performed. In such a case, conventionally, polling to NE032 is performed after polling to Gr33, and there is a problem that collection of monitoring control information from NE032 is delayed. Therefore, in the monitoring and control system 100 according to the present embodiment, the monitoring and control apparatus 101 changes the polling order table 204 to replace NE032 that has not been executed in Gr2 with the transmission apparatus 103 of the next Gr3, and therefore, as shown in FIG. In addition, NE032 can return a response signal in response to the polling signal to Gr3.

  In this way, polling of NE032 that could not be executed by Gr2 can be executed by the next Gr3. Therefore, the monitoring control apparatus 101 quickly collects the monitoring control information of NE032 without waiting until the next lap. can do.

  Here, in the example of FIG. 7, polling for NE032 is performed once with Gr2, but when NE032 cannot respond and polling is skipped, re-polling is performed with the next Gr3. As described above, since the monitoring and control apparatus 101 can know the content of the control command issued by the control terminal 105, when it is determined that NE032 cannot respond to polling with Gr2, polling of NE032 with Gr2 is performed. Instead, the polling order table 204 may be changed so that polling of NE032 is performed with Gr3. Thereby, as shown in FIG. 7, it is possible to eliminate the waste of NE032 skipping polling, and it is not necessary for the monitoring control apparatus 101 to wait until the response waiting time of the response signal from NE032 times out by polling Gr2. Polling efficiency can be increased.

  Further, when polling for NE032 is not performed with Gr2, the number of polling with Gr2 is 29, so that one unit is free. Therefore, the Gr3 transmission apparatus 103 that replaces the transmission apparatus 103 that can perform polling with Gr2 (for example, the Gr3 transmission apparatus 103 for which a control command having a long processing time is not issued before Gr2) is replaced with the Gr2 NE032. As described above, the polling order table 204 may be changed. For example, in FIG. 8, NE062 of Gr3 and NE032 of Gr2 are replaced and NE062 is executed by batch polling of Gr2, so that NE032 is inserted into Gr3, so that the order of the subsequent transmission apparatus 103 is shifted forward. The polling to NE032 that executed the control command during the polling of Gr2 can be reliably performed with Gr3.

  When a control command is issued from the control terminal 105 to the group of transmission devices 103 being polled, the monitoring control device 101 suspends transmission of the control command to the transmission device 103 as shown in FIG. wait), and after the polling to the group is completed, a control command is transmitted to the target transmission apparatus 103.

  In this way, since NE032 that is difficult to execute polling with Gr2 can be reliably executed with the next Gr3 (or group after Gr4), the monitoring control apparatus 101 collects monitoring control information of NE032 in the next cycle. Can be collected quickly without waiting. In addition, unnecessary polling skipping is eliminated, and polling can be performed efficiently.

[Polling process flowchart]
Next, a flowchart for executing the polling process described above in the monitoring control apparatus 101 will be described with reference to FIG. Note that FIG. 10 is processed according to a program stored in advance in the monitoring control unit 201 of the monitoring control apparatus 101.

  (Step S101) The monitoring control unit 201 of the monitoring control apparatus 101 initializes the group of the transmission apparatus 103 and the polling order according to the polling order table 204. For example, the default order as described with reference to FIG. In the example of FIG. 4A, it is recognized that the target group to which the polling signal is transmitted all at once is NE001 to NE030 of Gr1, and is set in the transmission apparatus 103 that is the destination of the polling signal. At this time, the polling signal is not transmitted, and the polling signal is transmitted to the target Gr in the subsequent step S107.

  (Step S102) The monitoring control unit 201 confirms the presence or absence of a control command from the control terminal 105 before transmitting a polling signal to the target group. If a control command has been received, the process proceeds to step S103. If a control command has not been received, the process proceeds to step S107.

  (Step S103) The monitoring control unit 201 determines whether or not the received control command is the transmission apparatus 103 (NE) in the target group that is going to perform polling. If the NE is the target Gr, the process proceeds to step S105. If the NE is not the target Gr, the process proceeds to step S104.

  (Step S104) The monitoring control unit 201 transmits the received control command to the corresponding transmission device 103, and the transmission device 103 that has received the command executes the control command.

  (Step S105) The monitoring control unit 201 determines the type of the received control command. Then, the processing time of the transmission apparatus 103 is obtained according to the type of the control command. When it is determined that the processing time does not end by the next polling process, the process proceeds to step S106, and when it is determined that the processing time ends by the next polling process Proceed to step S104. It is assumed that the relationship between the type of control command and the processing time is set in advance in a table or the like and held in the monitoring control unit 201.

  (Step S106) In the polling order table 204, the monitoring control unit 201 changes the group of the transmission apparatus 103 that is the target of the control command. As described above, it may be inserted into the next group or may be replaced with another transmission apparatus 103 in the next group.

  (Step S <b> 107) The monitoring control unit 201 transmits a polling signal to the polling target Gr in a lump.

  (Step S108) The monitoring control unit 201 confirms the presence or absence of a control command from the control terminal 105, similarly to step S102. Note that the confirmation here is a confirmation process during polling, unlike step S102 performed before polling. If a control command has been received, the process proceeds to step S110. If no control command has been received, the process proceeds to step S109.

  (Step S109) The monitoring control unit 201 confirms whether response signals have been received from all the transmission apparatuses 103 of the target Gr that have transmitted the collective polling signal. If response signals have not been received from all transmission devices 103 of the target Gr, the process proceeds to step S113. If response signals have been received from all transmission devices 103 of the target Gr, the process proceeds to step S114.

  (Step S110) If the received control command is for a polling NE, the monitoring control unit 201 proceeds to step S112, and if it is an NE of another Gr that is not a polling NE, the monitoring control unit 201 proceeds to step S111.

  (Step S111) The monitoring control unit 201 transmits the received control command to the corresponding transmission device 103, and the transmission device 103 that has received the command executes the control command.

  (Step S112) The monitoring control unit 201 suspends transmission of the control command to the transmission apparatus 103 that is being polled. Although not explicitly shown in FIG. 10, as described with reference to FIG. 9, a control command is transmitted to the transmission apparatus 103 after polling of the target Gr, and the transmission apparatus 103 executes the control command at that time.

  (Step S113) The monitoring control unit 201 determines whether or not a predetermined time set in advance has elapsed since the batch polling signal was transmitted in Step S107. Then, if the predetermined time has elapsed and timed out, the process proceeds to step S114. If not timed out, the process returns to step S108 and the same processing is repeated.

  (Step S114) The monitoring control unit 201 changes the time-out NE to be inserted into the next polling target Gr in the polling order table 204 as the NE that has not been polled.

  (Step S115) The monitoring control unit 201 determines whether or not the Gr that transmitted the collective polling signal in Step S107 is the last Gr. For example, in the case of FIG. 2 and FIG. 4, it is determined whether polling has been executed for Gr33. If it is the last Gr, the process proceeds to step S116, and if it is not the last Gr, the process proceeds to step S117.

  (Step S116) The monitoring control unit 201 returns the group to be polled next to the first Gr (Gr1 in the examples of FIGS. 2 and 4). And it returns to step S102 and repeats the same process.

  (Step S117) The monitoring control unit 201 sets the next Gr in the polling order table 204 as a polling target Gr. For example, if Gr that has been polled in step S107 is Gr2, it is set to Gr3. And it returns to step S102 and repeats the same process.

  As described above, in the monitoring control system 100 according to the present embodiment, even if the transmission apparatus 103 cannot perform polling because the control command from the control terminal 105 is being executed, the transmission apparatus 103 is re-polled in a short time. To obtain the monitoring control information. In particular, when the monitoring control apparatus 101 determines the type of control command issued from the control terminal 105 to the transmission apparatus 103 and determines that the transmission apparatus 103 cannot respond to polling, the monitoring control apparatus 101 and the transmission apparatus 103 and other groups By replacing the transmission apparatus 103, unnecessary polling can be eliminated, so that the monitoring control information can be collected from the transmission apparatus 103 efficiently and quickly.

  The monitoring control system, the monitoring control apparatus, and the polling method according to the present invention have been described with reference to the embodiments. However, the monitoring control system, the monitoring control apparatus, and the polling method may be implemented in various other forms without departing from the spirit or main features thereof. Can do. For this reason, the above-described embodiment is merely an example in all respects and should not be interpreted in a limited manner. The present invention is defined by the claims, and the present invention is not limited to the text of the specification. Further, all modifications and changes belonging to the equivalent scope of the claims are within the scope of the present invention.

DESCRIPTION OF SYMBOLS 100 ... Monitoring control system 101 ... Monitoring control apparatus 102 ... Network 103 ... Transmission apparatus 104 ... Monitoring network 105 ... Control terminal 201 ... Monitoring control part 202 ... Communication Unit 203 ... Communication IF for control terminal
204 ... Polling order table 301 ... Control unit 302 ... Communication unit NE001 to NE990 ... Transmission device

Claims (9)

In a monitoring control system including a plurality of transmission devices and a monitoring control device that monitors and controls the operation of the transmission devices,
The transmission apparatus is
When a polling request is received from the monitoring control device, it has a response means for returning its own monitoring control information to the monitoring control device,
The monitoring and control device includes:
Polling means for dividing the plurality of transmission devices into a plurality of groups, collectively sending a polling request for each group, and receiving response signals from the transmission devices in the group;
A polling order table for storing an order of transmitting polling requests to the plurality of transmission devices, and
When issuing a control command from the control terminal connected to the monitoring control device to the transmission device,
When the polling unit belongs to the group scheduled to transmit a polling request next time when the control command for the transmission device is received from the control terminal , the polling unit belongs to the next group of the group A monitoring control system, wherein the polling order table is changed so as to replace a transmission device. The monitoring control system according to claim 1 ,
The polling means determines a group to which the transmission apparatus is moved according to the type of the control command, and changes the polling order table so as to replace the transmission apparatus belonging to the determined group. Supervisory control system. In the supervisory control system according to claim 1 or 2 ,
The polling means outputs an alarm when a response signal cannot be received from the transmission apparatus even if the polling request is made to the same transmission apparatus a preset number of times, and the transmission apparatus is sent to the original group of the polling order table. A supervisory control system characterized by making a change back to. In a monitoring control device connected to a plurality of transmission devices and monitoring and controlling the operation of the transmission device,
Polling means for dividing the plurality of transmission devices into a plurality of groups, collectively sending a polling request for each group, and receiving response signals from the transmission devices in the group;
A polling order table for storing an order of transmitting polling requests to the plurality of transmission devices, and
When issuing a control command from the control terminal connected to the own device to the transmission device,
When the polling unit belongs to the group scheduled to transmit a polling request next time when the control command for the transmission device is received from the control terminal , the polling unit belongs to the next group of the group The monitoring control apparatus, wherein the polling order table is changed so as to be replaced with a transmission apparatus. The monitoring control device according to claim 4 ,
The polling means determines a group to which the transmission apparatus is moved according to the type of the control command, and changes the polling order table so as to replace the transmission apparatus belonging to the determined group. Supervisory control device. In the supervisory control device according to claim 4 or 5 ,
The polling means outputs an alarm when a response signal cannot be received from the transmission apparatus even if the polling request is made to the same transmission apparatus a preset number of times, and the transmission apparatus is sent to the original group of the polling order table. A monitoring control device characterized in that the change is made back to. In a polling method used in a monitoring control system including a plurality of transmission devices and a monitoring control device that monitors and controls the operation of the transmission devices,
The transmission apparatus is
When a polling request is received from the monitoring control device, it returns its own monitoring control information to the monitoring control device,
When issuing a control command from the control terminal connected to the monitoring control device to the transmission device,
The monitoring and control device includes:
Wherein the plurality of transmission devices managed in a plurality of groups, collectively for each of the groups according to the polling sequence table that stores an order to send a polling request to the plurality of transmission devices transmits a polling request, the control terminal When the transmission device belongs to the group scheduled to transmit a polling request next time when the control command for the transmission device is received from the transmission device, the polling device is replaced with the transmission device belonging to the next group of the group. A polling method characterized by changing a sequence table. The polling method according to claim 7 , wherein
The monitoring and control apparatus determines a group to which the transmission apparatus is moved according to the type of the control command, and changes the polling order table so as to replace the transmission apparatus belonging to the determined group. How to poll. The polling method according to claim 7 or 8 ,
If the monitoring control device cannot receive a response signal from the transmission device even if it makes the polling request to the same transmission device a preset number of times, it outputs an alarm and sends the transmission device to the original in the polling order table. A polling method characterized by making a change back to the group.

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