JP2010110040A - Power system monitor and control equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide power system monitor and control equipment, which continues its operation without obstructing its monitor and control function, even in case that a transmitter gets abnormal and the quantity of data beyond expectation over a performance value set beforehand in a monitor and control server is transmitted. <P>SOLUTION: In case that an abnormal quantity of data 5A, 5B, ..., 5N beyond expectation are transmitted from a specified transmitter among a plurality of transmitters 3A, 3B, ..., 3N to a monitor and control server 2, it executes quantitative determination, using performance threshold information set beforehand in a performance threshold table 2<SB>-12</SB>, based on the quantity of transmitted data and the information from a CPU monitor and control means 2<SB>-14</SB>related to the CPU resource of the monitor and control server 2, thereby detecting abnormality, whereby it cancels the transmitted data from an abnormal transmitter which has caused the obstruction of the operation continuation of the monitor and control server 2, and fetches the transmitted data from a normal transmitter, and continues the operation of the monitor and control server 2, with the transmitted data from the normal transmitter. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a power system monitoring and control apparatus for monitoring and controlling power system equipment, and particularly, a power system monitoring that enables continuous operation of a monitoring control server even when an unexpected amount of data is transmitted. The present invention relates to a control device.

  The power system monitoring and control device is a system that monitors the state of power system facilities scattered in a wide area, controls it as necessary, and records information necessary for operation such as operation information and measurement records. And a transmission device (telecon) installed in the vicinity of the power system facility are generally connected by a network (see, for example, Patent Document 1).

  When an arbitrary transmission device of a plurality of transmission devices is being inspected or when a failure occurs in an arbitrary transmission device, abnormal data is sent from the transmission device to the monitoring control server. In order to prevent the monitoring and control server from becoming in a high load state and freezing, that is, to stop operation, a data locking means for locking (deleting) erroneous data in the monitoring and control server has been announced ( For example, see Patent Document 2).

FIG. 14 is a block diagram of a power system monitoring and control device showing another conventional technique equivalent to the above-mentioned Patent Document 2 by providing a data lock means.
The power system monitoring and control apparatus of FIG. 14 includes a monitoring control server 2 that monitors and controls the power system facilities 1A, 1B,... 1N, a switchboard, a remote monitoring control slave station, a remote monitoring control master station, and the like. The state information of the power system facilities 1A, 1B... 1N is transmitted to the monitoring control server 2 side, or the control information from the monitoring control server 2 to the power system facilities 1A, 1B. .. 3N and an information transmission network device 4 that connects the monitoring control server 2 and the transmission devices 3A, 3B,... 3N.

Hereinafter, the monitoring control server 2 will be described.
The monitoring control server 2 is configured by using hardware and software of a digital computer, and is provided corresponding to the transmission devices 3A, 3B,... 3N, and each transmission data 5A, 5B,. a plurality of transmission data receiving means ₂ -1A _{to 2 -1N} for receiving · 5N, reception data as received data saving means for temporarily saving the received data in the transmission data receiving means ₂ -1A _{to 2 -1N} and save file _2-2, and inputs the received data stored in the received data file _2-2, power system equipment 1A, 1B, and system monitoring means _{2 -3} to monitor the state of · · · 1N, power system equipment 1A, 1B, and a power system equipment information storage file 2 _-4 as the power system facility information storage means for storing the state of · · · 1N.

In addition to the above basic configuration, the monitoring control server 2 further includes the following means and files for locking (deleting) data. That is, in order to set “save” or “discard” for transmission data 5A, 5B,... 5N for each transmission device 3A, 3B,. a transmission Rockman machine unit 2 _-5 for accepting a transmission lock setting means _2-6 for setting the transmission lock setting or unlocked by entering the lock setting command or unlock command from the transmission Rockman machine unit 2 _-5, Transmission lock setting information storage file _2-7 as a transmission lock setting information storage means for storing information for designating "save / discard" for transmission data 5A, 5B,. the electric power system equipment status _2-4 in a state undergoing release instruction of the transmission lock state, the power system settings that have changed during the transmission lock The system condition alignment means _2-8 for performing system state alignment to match the current state, the transmission device 3A, 3B, and data transmission means 2 _-9 for transmitting the request data 6 together state against · · · 3N It has.

In thus constituted monitor control server 2, the operator can, via a transmission Rockman machine unit 2 _-5 and transmission lock setting means _2-6, are stored in the transmission lock setting information storage file 2 _-7 transmission Setting transmission lock setting information for a specific transmission device among the devices 3A, 3B,... 3N to “lock state; Can be done.

Conversely, when the operator sets “unlocking; 0” for the transmission data via the transmission lockman machine means _2-5 , the system state adjustment means _2-8 sends a state adjustment request 6 from the data transmission means _2-9. Are transmitted to a specific transmission device among the transmission devices 3A, 3B,... 3N via the information transmission network device 4. The transmission device takes in all the state information of the power system facilities under the jurisdiction of the power system facilities 1A, 1B,... 1N, and transmits the transmission data receiving means _{2-1A of the} monitoring control server 2 via the information transmission network device 4. Transmit to ~ 2 _-1N . Transmission data receiving means ₂ -1A _{to 2 -1N} transmits the received data to the system monitoring means _{2 -3} through the received data file 2-2. System monitoring means 2 _-3, the transmission data "unlocked" before receiving the electric power system equipment state storage file 2 _-4 and power system equipment state stored in the "unlocked" after the received data _2-2 Are detected, the change in the state of the system equipment that has changed during the transmission lock state setting is detected.
JP 2002-238158 A Japanese Patent Laid-Open No. 10-201442

  In the conventional power system monitoring and control apparatus described above, a performance value that can be processed even when the monitoring control server 2 is in a high load state is determined on the assumption that a wide-area and large-scale system failure has occurred in the power system. However, due to an abnormality in one or more of the plurality of transmission apparatuses 3A, 3B,... 3N, etc., the performance value of the monitoring control server 2 was not assumed. When a large amount of data has been transmitted, the monitoring control server 2 operates to receive all transmission data and perform system monitoring in the first place. Therefore, the monitoring control server 001 falls into a high load state, and this high load If the state is continued, the monitoring control server 2 may freeze (stop operation) and hinder the operation of the power system monitoring control device.

  In addition, the conventional power system monitoring and control device has means for discarding transmission data from the transmission devices 3A, 3B,... 3N depending on the lock state of each transmission device. Since this is done by setting, if the amount of transmission data is abnormal, it could not be automatically locked by quantitative judgment.

  Therefore, even when a specific transmission apparatus is in an abnormal state and an unexpected amount of data exceeding a preset performance value is transmitted to the monitoring control server, transmission data from other normal transmission apparatuses is transmitted. It is an object of the present invention to provide a power system monitoring and control device that can continue operation without hindering the monitoring and control function.

In order to achieve the above object, an invention according to claim 1 is directed to a monitoring control server that performs monitoring control of power system equipment, and status information of the power system equipment to the monitoring control server and from the monitoring control server. In a power system monitoring and control device configured to couple a plurality of transmission devices that receive control information to power system equipment, and the monitoring control server and a plurality of transmission devices by an information transmission network device,
Transmission data receiving means for receiving status information of power system facilities from a plurality of transmission devices as transmission data via an information transmission network, and storing a data amount for each transmission device at the time of data reception,
System monitoring means for performing power system monitoring using transmission data received by the transmission data receiving means;
Received data storage means used for delivery of received transmission data from the transmission data receiving means to the system monitoring means;
Transmission data amount trend information storage means for storing the transmission data amount for each of the plurality of transmission devices in units of time;
Performance threshold information storage means for storing a transmission data amount threshold, a CPU utilization threshold, and a free memory size threshold;
The transmission data amount trend information stored in the performance threshold information storage means is compared with reference to the transmission data amount trend information stored in the transmission data amount trend information storage file. A transmission data amount monitoring means for determining that there is an abnormality in the transmission data amount when the transmission data amount exceeds the transmission data amount threshold for a predetermined time period by performing,
CPU resource monitoring means for collecting and storing the CPU usage rate and free memory amount as the operation state information of the monitoring control server in units of time;
CPU resource trend information storing means for storing time unit information of CPU resources collected by the CPU resource monitoring means;
The CPU stored in the performance threshold information storage means by referring to the CPU resource trend information during the period from the time when the transmission data amount monitoring means is notified to the time when the transmission data amount excess is first detected. By comparing with the usage threshold and the free memory size threshold, it is determined that the CPU usage is over the threshold and the free memory size is below the threshold over a certain number of times. A transmission amount abnormality notification means for outputting a setting request for performing a transmission lock on the corresponding transmission device;
Transmission that receives an output from the transmission amount abnormality notifying unit and requests the transmission data receiving unit to set the transmission data from the transmission apparatus determined to be abnormal in the received data storage file. Lock setting means;
The monitoring control server is configured as described above.

  According to the power system monitoring and control device of the present invention, when transmission data of an amount equal to or higher than a preset performance value is received from an arbitrary transmission device, the amount of transmission data is determined by taking into account the CPU resource monitoring result. A state in which the monitoring and control server can continue operation by setting a transmission lock for an abnormal transmission device, discarding the received transmission data, and not monitoring the power system equipment for transmission data with an abnormal transmission data amount The transmission data from a normal transmission apparatus can be handled.

  Embodiments of the present invention will be described below with reference to the drawings. In addition, the same description is attached | subjected to the same part through each figure, and the overlapping description shall be abbreviate | omitted suitably.

(First embodiment)
FIG. 1 is a block diagram of a power system monitoring and control apparatus showing a first embodiment of the present invention.
The power system monitoring and control apparatus of the present embodiment includes a monitoring control server 2 that monitors and controls the power system facilities 1A, 1B,... 1N, a distribution board, a remote monitoring control slave station, a remote monitoring control master station, and the like. It is configured to transmit the status information of the power system facilities 1A, 1B... 1N to the monitoring control server 2 side, or transmit the control information from the monitoring control server 2 to the power system facilities 1A, 1B. .. 3N, and the information transmission network device 4 that couples the monitoring control server 2 and the transmission devices 3A, 3B,... 3N. Also in this embodiment, the monitoring control server 2 is configured by using the hardware and software of a digital computer as in the conventional example.

In the first embodiment, the transmission data 5A, 5B,... 5N related to the power system equipment state is sent from the plurality of transmission devices 3A, 3B,. 3N, the amount of data transmitted from any of the transmission devices 3A, 3B,... 3N, for example, the transmission device 3A becomes an abnormal case, and the monitoring control server 2 operates as an operator. However, of course, the operator may issue a transmission lock command from the transmission lockman machine means _2-5 to the transmission lock setting means _2-6. it can.

First, the transmission data 5A transmitted from the transmission device 3A is received by the transmission data receiving means _2-1A of the monitoring control server 2. Transmission data receiving means 2 _-1A, conservative to the transmission data amount trend information storage file 2 _-10 as a transmission data amount trend information storage means to "size of the transmission data" received every time.

Transmission data amount monitoring unit 2 _-11, for example with reference to the transmission data amount trend information at a fixed period in seconds is stored in the transmission data amount trend information storage file 2 _-10, as the performance threshold information storing means Compared with the “transmission data amount threshold” stored in advance in the performance threshold information table _2-12 , the “transmission data size” for each time exceeds the “transmission data amount threshold”. If the transmission time continues for a predetermined time (for example, several tens of seconds to 1 minute), it is determined that the transmission data amount abnormality has occurred, and the transmission amount abnormality notification means _2-13 exceeds the transmission data amount. The time t1 at which the first is detected is notified as the “occurrence time”.

Figure 2 is a diagram showing the internal response status of the transmission data amount monitoring unit 2 _-11 the relationship between the transmission amount abnormality notifying unit 2 _-13 notified.
Before the time t1, the transmission data amount does not exceed the “transmission data amount threshold”, but when the time t1 is reached, the transmission data amount first exceeds the “transmission data amount threshold”. . For this reason, the time t1 is called a transmission data amount abnormality occurrence time. The time tm is a time that is measured from the transmission data amount abnormality occurrence time t1 and reaches a predetermined time, and is a current time that is notified from the transmission data amount monitoring unit _2-11 .

Transmission data amount monitoring unit 2 _-11, when continuously predetermined time from time t1 to time tm "size of the transmission data" exceeds the "transmission data amount threshold", the transmission amount abnormality notification means 2 _{- 13} is notified to that effect. As described above, the notification information includes the time t1 when the transmission data amount excess is first detected and the current notification time tm.

On the other hand, _2-14 is a CPU resource monitoring means, and this CPU resource monitoring means _2-14 operates at a constant cycle (for example, a cycle of about 5 seconds) and constitutes the monitoring control server 2 and the “CPU” of the memory. The “usage rate” and the “free memory amount” are collected, and the collected results are stored in time series in the CPU resource trend information storage file _2-15 as the CPU resource trend information storage means.

The above-described transmission amount abnormality notifying means _2-13 has a CPU resource trend for a certain period from “occurrence time t1” notified from the transmission data amount monitoring means _2-11 to time tm when notification of the transmission data amount abnormality is received. Referring to the information file _2-15 , the CPU resource trend information stored and the "CPU usage rate threshold" among the "performance thresholds" set in the performance threshold information table _2-12 Compared with the “free memory size threshold”, the state where the CPU usage rate is equal to or higher than the “CPU usage rate threshold value” and the “free memory size” is equal to or lower than the “free memory size threshold value” is a predetermined number of times or more. If so, a request to set the data transmission lock state is made to the transmission lock setting means _{2-6 in} order to perform data lock (data discard) on the transmission device 3A.

The transmission lock setting means _2-6 changes the data corresponding to the requested transmission apparatus 3A in the transmission lock setting information file _2-7 to the locked state. Transmission data 5A of the set transmission apparatus 3A to the transmission lock state by the transmission lock setting unit _2-6 receives this, discard without saving to the received data file _2-2 from the transmission data receiving means 2 _-1A To do.

On the other hand, if the amount of data transmitted is normal case, the transmission lock setting information stored in the transmission lock setting information storage file _2-7, the transmission apparatus 3A, 3B, the transmission lock state against · · · 3N set since not, the transmission data receiving means _{2 -1A,} the transmission data 5A received, 5B, and · · · 5N, and save the received data storage file _2-2, and passes to the system monitoring means _{2 -3.}

Figure 3 is a diagram showing an example of a data structure on "the amount of transmitted data trend information" transmission data receiving means 2 _-1A to 2 _-1N is stored in the transmission data amount trend information file 2 _-10 to set .

The transmission data receiving means _2-1A to _2-1N store the transmission data amount in units of time for each of the transmission devices 3A, 3B,... 3N, and the received transmission data A, B,. By storing the total data size, the transmission data amount monitoring means _2-11 can determine _{whether the} transmission data amount is abnormal.

Figure 4 is a diagram showing an example of a data configuration of the CPU resource trend information file _{2 -15} of CPU resource monitoring means _2-14 to set.
The CPU resource trend information file _2-15 stores the CPU usage rate and the free memory amount in time units. Whether the CPU usage rate is equal to or greater than the threshold value and the free memory amount is equal to or less than the threshold value at each time. From the time tm when the transmission amount abnormality notifying means _2-13 receives the notification, until the time t1 when the transmission amount excess is first detected, the transmission data amount abnormality is determined by the number of times this determination is met. In consideration of this determination, the transmission amount abnormality notifying unit _2-13 makes a lock setting request to the transmission lock setting unit _2-6 .

Figure 5 is a diagram showing an example of a data structure of each transmission apparatus of transmission lock setting information 2 _-7 transmission lock setting unit _2-6 performs locking and unlocking setting, the transmission data receiving means 2 _-1A ~ 2 _-1N consults, used to determine whether to store into the received data _2-2.

FIG. 6 shows a data configuration example related to “transmission data amount threshold value”, “CPU usage rate threshold value”, and “free memory size threshold value” included in the performance threshold value information table _2-12. Yes, the transmission data amount monitoring means _2-11 and the transmission amount abnormality notification means _2-13 refer to the transmission data amount and detect the transmission amount abnormality.

FIG. 7 is a flowchart of the transmission amount abnormality notifying means _{2-13 in} the first embodiment.
The transmission amount abnormality notifying means _2-13 starts processing in _response to the notification from the transmission data amount monitoring means _2-11 , and first specifies the information specifying the transmission apparatus in which the transmission data amount abnormality has occurred and the excess of the transmission data amount. The detected occurrence time is received (S11), and the difference between the occurrence time t1 and the current time tm is calculated (S12). Next, the “CPU usage threshold” and “free memory threshold” are acquired from the performance threshold information _2-12 (S13).

  Subsequently, by referring to the CPU resource trend information 2-15, “CPU usage rate” and “free memory size” from the current time tm to the occurrence time t1 are acquired (S15) and compared with the threshold value (S16). ).

  At this time, it is determined whether the “CPU usage rate” is equal to or greater than the “CPU usage rate threshold value” and the “free memory size” is equal to or less than the “free memory threshold value”. In the case (Yes), the excess number is counted up (S17), and when it does not match (No), the excess number is held as it is (S18).

The determination by comparing this threshold value with the CPU resource trend information _2-15 and counting up the number of times of excess after the determination are repeated for the number of times of difference between the occurrence time and the current time (S14). It is determined whether the number of times is equal to or greater than a certain number (S19). If the number of times is equal to or greater than the certain number of times, the transmission apparatus having the transmission data amount abnormality is set to the locked state with respect to the transmission lock setting means _2-6 . A setting request is made (S20).

In the above description, the monitoring control server 2 automatically executes the data lock process when an abnormality occurs in the transmission apparatus 3A. However, in this embodiment, the transmission lockman machine means _2-5 is provided. Therefore, it is natural that the operator can issue a transmission lock command from the transmission lockman machine means _2-5 to the transmission lock setting means _2-6 .

  As described above, according to the power system monitoring and control device according to the first embodiment, an unexpected amount of an amount equal to or higher than a preset performance value from any transmission device 3A, 3B,... When the amount of transmission data 5A, 5B,... 5N is transmitted to the monitoring control server 2, the performance set in advance based on the transmission data amount and the information on the CPU resource of the monitoring control server 2 By performing quantitative determination using threshold information and performing abnormality detection, transmission data from an abnormal transmission device that is an obstacle to continued operation of the monitoring control server 2 is discarded, and a normal transmission device The operation of the supervisory control server 2 can be continued by taking in the transmission data from and handling the transmission data from the normal transmission device.

(Second Embodiment)
FIG. 8 is a block diagram of a power system monitoring control apparatus showing a second embodiment of the present invention.
The power system monitoring control apparatus according to the second embodiment is obtained by adding the following two means to the power system monitoring control apparatus according to the first embodiment.

In other words, the power system monitoring and control device according to the second embodiment has the transmission data amount for each of the transmission devices 3A, 3B, ... 3N stored in the transmission data amount trend information _2-10 of the monitoring control server 2. Is newly referred to by the received data amount prediction means _2-16 that operates at a fixed period, and further, a linear approximation of the trend of the transmission data amount for a certain period of time related to the transmission devices 3A, 3B,. Thus, when it is determined that the “transmission data amount threshold value” set in the performance threshold value information table _2-12 is exceeded after a certain period of time, the second newly provided second The transmission amount abnormality notifying means _2-17 is notified. Here, the _{reason why 2-17} is referred to as the second transmission amount abnormality notifying means is because the transmission amount abnormality notifying means _2-13 having the same name already exists.

  FIG. 9 is a diagram showing a linear approximation of the trend of the amount of transmission data for a certain period of time in the past. The amount of transmission data d1, d2,. They are arranged in a series and approximated by a straight line. In the case of FIG. 9, it is determined that the trend of the transmission data amount approximated by a straight line will soon exceed the “threshold value”.

When it is immediately determined that the “threshold value” is exceeded as shown in FIG. 9, the second transmission amount abnormality notifying unit _2-17 receives the notification from the received data amount prediction unit _2-16. To alert the operator.

The operator _issues a setting operation request to the transmission lock setting means _2-6 from the transmission lockman machine means 2-5 in order to set the transmission data from the transmission apparatus 3A that is the object of alerting to the transmission lock state. The transmission lock state is set in the transmission lock setting information file _2-7 .

FIG. 10 is a flowchart of the reception data amount prediction means _{2-16 in} the second embodiment.
The reception data amount prediction means _2-16 acquires the “transmission data amount threshold” from the performance threshold information table _2-12 after the operation starts (S21). Next, with reference to the transmission data amount trend information stored in the transmission data amount trend information file _2-10 from the current time to the past fixed time for all the transmission apparatuses 3A, 3B,..., 3N minutes (S22) ( S23) The slope of the line segment is calculated by linear approximation regarding the amount of transmission data and time (S24).

Using the slope of this line segment, the data transmission amount after a lapse of a certain time from the current time is calculated and used as a predicted value (S25). The calculated predicted value is compared with the “transmission data amount threshold” (S26), and when the predicted value exceeds the “transmission data amount threshold” (Yes), all the transmission apparatuses 3A, 3B,. The transmission amount abnormality notifying means _2-17 is notified of the transmission apparatus having the largest line segment inclination in 3N (S27).

Reception data amount prediction means _{2 -16,} all transmission devices 3A, 3B, notifying the transmission rate abnormality notification means _{2 -17} from the reference of the transmission data amount trend information _{2 -10} about · · · 3N and (S27) series The process waits until the next operation time after the end of the process (S28).

  As described above, according to the power system monitoring and control apparatus according to the second embodiment, in addition to the effects of the first embodiment, the signs when the transmission data amount gradually increases are monitored in advance. Thus, it is possible to alert the operator and to set to discard the transmission data from the corresponding transmission device according to the judgment of the operator.

(Third embodiment)
FIG. 11 is a block diagram of a power system monitoring control device showing a third embodiment of the present invention.
The power system monitoring and control device according to the third embodiment is intended to improve the function of the power system monitoring and control device according to the first embodiment (FIG. 1). The transmission devices 3A, 3B,. .. of 3N, for the amount of data transmitted from any of the transmission device 3A is abnormal, transmission lock state to transmit lock setting information file 2 _-7 by the transmission lock setting unit _2-6 ( "1") is set When the amount of transmission data from the transmission device 3A decreases in the state where the transmission is in progress, the recovery of the transmission data amount abnormality is detected, and the transmission lock setting means _{2-6 is} requested to cancel the transmission lock state. ing.

The amount of data transmitted from the transmission apparatus 3A, even when the transmission lock setting information file 2 _-7 is set to the transmission lock state is stored in the transmission data amount trend information file 2 _-10 by the transmission data receiving section 2 _-1A ing.

Amount of transmission data restoration unit 2 _-18 refers to the amount of transmitted data trend information transmission data amount trend information file 2 _-10 operating in fixed cycle, to set in the performance threshold information table 2 _-12 Compared with the “transmission data amount threshold” of the threshold, and if it is within the “transmission data amount threshold” for a certain period of time, the return of the transmission data amount abnormality is detected. Then, the transmission lock setting means _{2-6 is} requested to cancel the transmission lock state.

Transmission lock setting means _2-6, as well as to release the transmission lock state relates to a transmission apparatus 3A to the transmission lock setting information file 2 _-7, not discard the transmitted data 5A against the system condition matching means 2 _-8 The state adjustment request | requirement for making the state of 1 A of power system equipment which changed in the _meantime and the power system equipment state 2-4 which the monitoring control server 2 hold _| maintain is performed.
The system state adjustment unit _2-8 transmits the state adjustment request 6 to the transmission device 3A via the data transmission unit _2-9 and the information network device 4.

  As described above, according to the power system monitoring and control device according to the third embodiment, “recovery detection from abnormal transmission data amount” and “system state matching” related to the power system facility state after the return detection, By implementing the above, it is possible to automatically return the power system monitoring control device to the normal operation state.

(Fourth embodiment)
FIG. 12 is a block diagram of a power system monitoring control device showing a fourth embodiment of the present invention.
The power system monitoring and control apparatus according to the fourth embodiment is intended to improve the functions of the power system monitoring and control apparatus according to the second embodiment (FIG. 8) described above, and the transmission apparatuses 3A, 3B,. When it is predicted that the amount of transmission data will be abnormal in a plurality of transmission devices at the same time by newly providing a lock setting priority information file 2-19 that stores transmission lock setting priority information for 3N. Discard the transmission data transmitted from the transmission device with low priority and do not discard the transmission data transmitted from the transmission device that transmits the status of the important system equipment in the power system monitoring control as much as possible. It is configured so that system monitoring of the facility can be continued.

As an example, when the reception data amount prediction means _2-16 of the monitoring control server 2 detects that the transmission data amount is increasing in the plurality of transmission devices 3A, 3B among the transmission devices 3A, 3B,. The case of will be described.

The reception data amount predicting means _2-16 of the monitoring control server 2 determines the increasing tendency of the transmission data amount for all the transmission apparatuses 3A, 3B,... 3N in one operation. When it is determined that 3A among the transmission devices 3A, 3B,... 3N exceeds the “transmission data amount threshold” in the performance threshold information _2-12 after a predetermined time has elapsed, other transmission device 3B of 3A than the time zone, whether to exceed the "transmission data amount threshold" set in the performance threshold information table 2 _-12 at ... transmission device 3N judge.

As a result of this determination, if it is determined that the transmission device 3B is likely to exceed, a notification is made to the transmission amount abnormality notification means _2-17 . Upon receiving this notification, the transmission amount abnormality notifying means _2-17 refers to the transmission lock setting priority information stored in the transmission lock setting priority information file _2-19, and the priority of the transmission apparatuses 3A and 3B is determined. The operator is notified with a list of the unique names of the transmission devices having a low value (for example, 3B, etc.) or the priorities of the plurality of transmission devices 3A, 3B,.

  When the amount of transmission data is predicted to be abnormal in multiple transmission devices at the same time, the operator discards the transmission data from the transmission device with a lower priority, and changes the state of important system facilities in the power system monitoring control. System monitoring of important system facilities is continued without discarding transmission data from transmission equipment as much as possible.

FIG. 13 shows an example of a data configuration for storing priorities at the time of setting the transmission lock for the transmission apparatuses 3A, 3B,... 3N stored in the transmission lock setting priority information file _2-19. .

As described above, according to the power system monitoring and control apparatus according to the fourth embodiment, the transmission lock setting priority storing the transmission lock setting priority for the transmission apparatuses 3A, 3B,... Since the information file _2-19 is provided, if it is predicted that the amount of transmission data will be abnormal in a plurality of transmission apparatuses at the same time, the transmission data from the transmission apparatus with lower priority is discarded, and the power system monitoring control is performed. It is possible to continue the system monitoring of the important system facility without discarding transmission data from the transmission device that transmits the state of the important system facility as much as possible.

(Modification)
In the first to fourth embodiments described above, the case where there is one information transmission network device has been described. However, the present invention is not limited to this, and for example, a plurality of information transmission network devices 4 are prepared. A configuration in which a plurality of information transmission network devices are combined with a common monitoring control server 2 may be employed.

BRIEF DESCRIPTION OF THE DRAWINGS The block diagram of the electric power system monitoring control apparatus which shows the 1st Embodiment of this invention. The figure which shows the relationship between the internal response state of the transmission data amount monitoring means in 1st Embodiment, and the transmission amount abnormality notification means which receives notification. The data block diagram of the transmission data amount trend information for every transmission apparatus of the 1st Embodiment of this invention. The data block diagram of the CPU resource trend information of the monitoring control server of the 1st Embodiment of this invention. The data block diagram of the transmission lock setting information which performs the propriety of the preservation | save to the reception data of the transmission data from every transmission apparatus of the 1st Embodiment of this invention. The data block diagram which preserve | saves the performance threshold value at the time of determining the transmission data amount abnormality of the 1st Embodiment of this invention. The flowchart of the transmission amount abnormality notification means which notifies the transmission data amount abnormality of the 1st Embodiment of this invention. The block diagram of the electric power system monitoring control apparatus which shows the 2nd Embodiment of this invention. The figure which showed a mode that the trend of the transmission data amount for the past fixed time in 2nd Embodiment was linearly approximated. The flowchart of the received data amount prediction means of the 2nd Embodiment of this invention. The block diagram of the electric power system monitoring control apparatus which shows the 3rd Embodiment of this invention. The block diagram of the electric power system monitoring control apparatus which shows the 4th Embodiment of this invention. The data block diagram of the transmission lock setting priority which preserve | saves the priority for every transmission apparatus of the 4th Embodiment of this invention. The block diagram of the conventional electric power system monitoring control apparatus.

Explanation of symbols

1A-1N ... power system equipment, 2 ... monitor control _{server, 2} -1A to 2 _{-1N ...} transmission data receiving unit, _{2-2 ...} received data files, _{2-3 ...} system monitoring means 2 _{-4 ...} power system equipment Information, _2-5 ... Transmission lockman machine means, _2-6 ... Transmission lock setting means, _2-7 ... Transmission lock setting information file, _2-8 ... System state matching means, _2-9 ... Data transmission means, _2-10 ... Transmission data amount trend information, _2-11 ... Transmission data amount monitoring means, _2-12 ... Performance threshold information, _2-13 ... Transmission amount abnormality notification means, _2-14 ... CPU resource monitoring means, _2-15 ... CPU resource trend information, _{2 -16 ...} reception data amount prediction means, _{2 -17 ...} transmission volume abnormality notification unit, _{2 -18 ...} transmission data amount return means, _{2 -19 ...} transmission lock setting priority information,. 3A to N ... transmission device, 4 ... information transmission network apparatus 5A, through 5n ... transmission data, 6 ... state combined request data.

Claims (4)

A monitoring control server that performs monitoring control of power system equipment, a plurality of transmission devices that transmit state information of power system equipment to the monitoring control server and receive control information from the monitoring control server to the power system equipment; In the power system monitoring and control device configured to combine the monitoring control server and a plurality of transmission devices with an information transmission network device,
Transmission data receiving means for receiving status information of power system facilities from a plurality of transmission devices as transmission data via an information transmission network, and storing a data amount for each transmission device at the time of data reception,
System monitoring means for performing power system monitoring using transmission data received by the transmission data receiving means;
Received data storage means used for delivery of received transmission data from the transmission data receiving means to the system monitoring means;
Transmission data amount trend information storage means for storing the transmission data amount for each of the plurality of transmission devices in units of time;
Performance threshold information storage means for storing a transmission data amount threshold, a CPU utilization threshold, and a free memory size threshold;
The transmission data amount trend information stored in the performance threshold information storage means is compared with reference to the transmission data amount trend information stored in the transmission data amount trend information storage file. A transmission data amount monitoring means for determining that there is an abnormality in the transmission data amount when the transmission data amount exceeds the transmission data amount threshold for a predetermined time period by performing,
CPU resource monitoring means for collecting and storing the CPU usage rate and free memory amount as the operation state information of the monitoring control server in units of time;
CPU resource trend information storing means for storing time unit information of CPU resources collected by the CPU resource monitoring means;
The CPU stored in the performance threshold information storage means by referring to the CPU resource trend information during the period from the time when the transmission data amount monitoring means is notified to the time when the transmission data amount excess is first detected. By comparing with the usage threshold and the free memory size threshold, it is determined that the CPU usage is over the threshold and the free memory size is below the threshold over a certain number of times. A transmission amount abnormality notification means for outputting a setting request for performing a transmission lock on the corresponding transmission device;
Transmission that receives an output from the transmission amount abnormality notifying unit and requests the transmission data receiving unit to set the transmission data from the transmission apparatus determined to be abnormal in the received data storage file. Lock setting means;
A power system monitoring and control apparatus comprising the monitoring and control server. The transmission data amount for each of the plurality of transmission devices stored in the CPU resource trend information storage means is referred to at regular intervals to determine whether the transmission data amount is increasing, and the increasing trend has continued for a certain period of time. A received data amount prediction means for determining whether there is a possibility of exceeding a performance threshold in a case,
A transmission amount abnormality notifying means for notifying an operator of a prediction result notified from the received data amount prediction means;
Transmission lockman machine means for setting a transmission lock state for the transmission lock setting means,
The power system monitoring and control device according to claim 1, further comprising: When the transmission data amount from the transmission device in which the transmission data amount abnormality is detected and the transmission lock state is set continues to be within the performance threshold value for a certain period of time and the recovery from the abnormal state is detected, the transmission lock setting means A transmission data amount return means for requesting release of the transmission lock state;
A system state adjusting means for performing a state adjustment between the power system equipment whose state has been changed while the transmission data is locked after releasing the transmission lock setting information and the power system equipment state held by the monitoring control server;
The power system monitoring and control device according to claim 1, further comprising: a data transmission unit that transmits a state adjustment request to the transmission device in order to perform state adjustment. Lock setting priority information storage means for storing lock setting priority information related to lock setting at the time of transmission data amount abnormality for each transmission device,
When it is determined by the transmission amount abnormality notification means that transmission data from a plurality of transmission devices exceeds a transmission data amount threshold value, by referring to the lock setting priority information storage unit, for each transmission device The power system monitoring and control device according to claim 2, wherein the set priority is notified to the outside.

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