JP3534441B2 - Distributed monitoring and control equipment - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a monitor and control device for monitoring and controlling the status and information of a plant, an electric power system and the like.

[0002]

2. Description of the Related Art In recent years, a supervisory control device for monitoring and controlling the state and information of a plant, an electric power system, etc. has been required to have a high function and a human interface to be improved in operability. Is coming. As one means to solve these problems, a distributed monitoring control device is constructed in which computers that are most suitable for the required functions are distributed and connected, and these distributed computers are connected via a transmission line (usually LAN). Is becoming more and more popular. What is most suitable for the required function is, for example, operation of a function requiring high reliability, storing master data, using a process computer as a so-called server, and operating by enhancing human interface such as multi-window. For example, a workstation is used for the part requiring high performance, and a computer equipped with a high-speed processor is used for the part requiring high-speed calculation.

In such a distributed monitoring control apparatus, a method that has been conventionally used as a server equivalent method between a server and a client (a server receives data from the server or receives a service from the server). This will be described below with reference to the drawings.

FIG. 10 is a diagram showing a typical system configuration of a distributed supervisory control device. 1 is a server, 2a, 2b-
2n is a client and 3 is a transmission path. FIG. 11 is a block diagram showing the server 1 and the client 2a as an example in order to explain in more detail the data equalization method conventionally used between these servers and clients. First, the server 1 will be described. 10 is master data, 11 is a server side application program group, 12 is state change detection means,
13 is the previous data, 14 is a state change data transmission request acceptance means, and 15 is a state change data transmission means. Figure 12 (a)
Indicates the format of the data output from the state change data transmission means 15. Reference numeral 16 is a united request (hereinafter referred to as integrity) requesting means, 17 is an integrity request receiving means, and 18 is an integrity transmitting means.

Next, in the client 2a, 19 is a state change data receiving means, 20 is an integrity data receiving means, 21 is a data updating means, 22 is client data, and 23 is a client side application program group.

In the above structure, the master data 10
Is data that serves as a master in the distributed monitoring control apparatus. This master data is updated by the server side application program group 11 as needed. There are various types of data in the master data.Data that is completely updated in a short cycle, data that is completely updated in a long cycle, and locally updated at any time, but most of the data is updated in the normal state. There are some data that cannot be ignored. For data that is completely updated in a short cycle or a long cycle, it is sufficient to send the data from the server side to the client side in a cycle commensurate with the update cycle and equalize the data, and send the entire data in a fixed cycle. Therefore, the problem that the data does not match between the server and the client does not occur.

The data is locally updated at any time, but the data that is hardly updated in the normal state is transmitted from the server side to the client side at a constant cycle.
Although there is a method of making the data equivalent, transmitting a large amount of data that hardly changes from the server side to the client side only unnecessarily increases the CPU load and the traffic amount of the transmission path. For this reason, for such data, a method of transmitting data from the server side to the client side and performing data equalization only in a locally changed portion is efficient and is often used.

Further explanation will be given on this method.
The state change detecting means 12 is means for detecting such a state change of the data which is locally updated, and which part the state change is. Master data
The state change is detected by comparing 10 with the previous data 13 and detecting the presence or absence of the change and the changed portion.
After this process, the previous data 13 is updated with the master data 10 used for comparison.

Here, the state change detection when the data is locally updated will be briefly described by taking the power system monitoring control device as an example. The power system monitoring and control device incorporates the states of switches (circuit breakers, disconnectors, etc.) of the power system and the operating states of relays. These data show that in the case of a normal switch, the "open" state is "0", in the "closed" state is "1", in the case of a relay, the "operating" state is "1", and the "inoperative" state is "0". Processing is performed with a logical value of 1/0.

Further, these state data change when an operator performs opening / closing operation of a switch or when a relay operates due to an accident or the like to open a circuit breaker. Yes, the state does not change often. In this example, the server-side application program group 11 fetches these data and uses the fetched data as the master data.
10 is updated, and the state change detection means 12 changes the master data 10
The above 1/0 state and the 1/0 state of the previous data 13 are compared to detect the state change. Further explanation will be given.

When the state change detecting means 12 detects the state change, it requests the state change data transmitting means 15 to transmit the state change data via the state change data transmission request receiving means 14. Upon receiving the request, the state change data transmission means 15 receives the request from the server 1 side via the transmission path 3 and the client 2
The state change data is transmitted to the state change data accepting means 19 on the a side. The data updating means 21 receives the state change data from the state change data receiving means 19 and updates the client data 22 accordingly. The client side application group 23 refers to the client data 22 and performs necessary processing.

In such a state change data transmission system, since the data whose state has changed is locally transmitted and the data is equivalent, if there is any failure on the data transmission path, the state change will occur. Since the data is no longer transmitted from the server 1 side to the client 2a side, the master data 10 and the client data 22 do not match each other, resulting in inconsistency, which causes a problem.

Therefore, the conventional method uses the following method. That is, the integrity requesting means 16 operates at a fixed cycle (usually a long cycle such as every one hour or every day) and receives the integrity request from the integrity request accepting means.
It is passed to the integrity transmitting means 18 via 17. Here, the integrity transmission is to transmit the master data from the server 1 side to the client sides 2a to 2n regardless of whether the state changes or not, in order to combine the master data 10 and the client data 22. .

When the integrity transmitting means 18 receives the integrity request from the integrity request receiving means 17, it inputs the master data 10 and receives the integrity data receiving means 20 on the client 2a side via the transmission line 3. Send to. The data updating unit 21 receives the integrity data from the integrity data receiving unit and updates the client data 22.

As described above, in the conventional method, the state change data transmission method is used to improve the efficiency of data transmission, and the integrity transmission is performed to prevent data mismatch between the server 1 and the clients 2a to 2n. .

[0016]

In the above-mentioned conventional method, although the state change data transmission method is used to improve the efficiency of data transmission, integrity transmission is required to prepare for the occurrence of a failure. Since a large amount of master data is transmitted from the server side to the client side at the time of transmitting the priority, the computer load and the amount of transmission traffic may be extremely increased, although temporarily. If the computer load becomes extremely high, the processing speed of other processing will be extremely reduced, and the display speed of the screen will be extremely reduced. In addition, when the amount of transmission traffic is extremely high, there is a problem that the transmission time of other data becomes extremely long.

The present invention has been made to solve the above-mentioned problems, and by reducing the data transmission amount for data equalization as much as possible, it is possible to prevent the computer load and the transmission traffic amount from extremely increasing, and to prevent a failure. Server at the time of occurrence,
It is an object of the present invention to provide a distributed monitoring control device capable of preventing data mismatch between clients.

[0018]

DISCLOSURE OF THE INVENTION A distributed monitoring control apparatus according to claim 1 of the present invention comprises serial numbering status change data transmitting means for serializing data having a status change and transmitting the data to a client. A server side sequence number storage means for storing the sequence number, a sequence number request reception means for receiving a sequence number request from the client side, a server side sequence number transmission means for receiving a request from the sequence number request reception means and transmitting the sequence number to the client, and a server side Input the status change data with the serial number from, update the client data, save the received serial number, data update function with serial number saving function, client side serial number saving means to save this serial number, server side serial number transmission It is saved from the serial number answer acceptance means that receives the serial number from the method and the client side serial number saving means. Entered serial number and received the serial number answer from the server side from the serial number answer acceptance means, check whether there is any omission in the saved serial number, and the serial number saved in the client side serial number saving means and the server side. Comparing the serial number received by the serial number answer from the server, if there is a gap in the saved serial number, or if there is a difference between the saved serial number and the serial number received by the serial number answer, an integrity request is sent to the server side. From the server side to the client side.
With a client-side Integrity management means that sends the metadata.

According to a second aspect of the present invention , there is provided a distributed monitoring control apparatus, wherein a serial number-attached state change data transmitting means for attaching a serial number to data whose state has changed and transmitting the data to a client, and a server side for storing this serial number. A serial number storage means, a serial number request receiving means for receiving a serial number request from the client side, a server side serial number transmitting means for receiving a request from the serial number request receiving means and transmitting the serial number to the client, and a status change with a serial number from the server side. Enter the data,
While updating the client data, it also compares the received serial number with the stored serial number, checks whether there is a missing serial number, and if there is a missing serial number, issues an integrity request to the server side. , A data updating means with an integrity request function for storing the received serial number, a client side serial number storing means for storing this serial number, a serial number answer receiving means for receiving the serial number from the server side serial number transmitting means, and the client side serial number The serial number saved from the saving means is input, the serial number answer from the server side is received from the serial number answer accepting means, it is checked whether the saved serial number is complete, and the serial number is saved in the client side serial number saving means. And the serial number received from the serial number answer from the server And compare, if there is a missing the serial number that has been stored, or if there is a discrepancy serial number received by the saved had serial number and serial number answers, over the in-Thich utility request to the server side, the client from the server-side
With a client-side Integrity manager that sends master data.

According to a third aspect of the present invention, the distributed monitoring and control apparatus provides a serial number-added state change data transmitting means for assigning a serial number to data whose state has changed and transmitting the data to the client, and a server for storing this serial number. Side serial number storage means, serial number request receiving means for receiving serial number request from client side, server side serial number transmitting means for receiving request from serial number request receiving means and transmitting serial number to client, and status with serial number from server side Enter the change data, update the client data, compare the received serial number with the stored serial number, check whether there is a missing serial number, and if there is a missing serial number, make an integrity request. Start the client integrity management means with the start request acceptance function so that , A certain time after storing the received serial number, a data updating means with an integrity request function, a client side serial number storing means for storing this serial number, a serial number answer receiving means for receiving the serial number from the server side serial number transmitting means, After the time, if it was started from the data update means with integrity request function, make an integrity request to the server side, otherwise enter the serial number saved from the client side serial number saving means. Along with receiving the serial number answer from the server side from the serial number answer acceptance means, check whether there is any omission in the saved serial number, and receive it with the serial number saved in the client side serial number saving means and the serial number answer from the server side. Compare the serial numbers
If there is a gap in the saved serial number, or if there is a difference between the saved serial number and the serial number received by the serial number answer, make an integrity request to the server side ,
With a client-side Integrity management means that sends the master data from the server side to the client side.

According to a fourth aspect of the present invention, a distributed monitoring control apparatus stores state change data in which a data having a state change is serially numbered, the data is transmitted to a client and the serialized numbered state change data is stored. Data transmission means with function, status change data storage means with serial number to save status change data with that serial number, server side serial number storage means to store this serial number, and serial number request acceptance to receive serial number request from client side Means, a server side serial number sending means for receiving a request from the serial number request receiving means and transmitting the serial number to the client, a missing data request receiving means for receiving a missing data request from the client side, and a request from the missing data request receiving means Received, check the missing data, save the missing data with a serialized state change data Insufficient data sending means for sending out missing data to the client side and for sending the missing data to the client side, and inputting status change data with serial number from the server side, updating client data, and saving serial number received function Attached data update means,
The client side serial number saving means for saving this serial number, the serial number answer accepting means for accepting the serial number from the server side serial number transmitting means, the serial number saved from the client side serial number saving means, and the server side from the serial number answer accepting means Receives the serial number answer from the server, checks whether the saved serial number is missing, compares the serial number saved in the client-side serial number saving means with the serial number answer from the server, and drops the saved serial number. If there is a difference, or if there is a difference between the saved serial number and the serial number received by the serial number answer, there is a missing part, that is, missing data is detected, and a missing data requesting means is issued to the server side to request transmission of the missing data. Prepared

According to a fifth aspect of the present invention, in the distributed monitoring control apparatus, a serial number is attached to the data whose status has changed, the data is transmitted to the client, and the serial number-added state change data is saved. Data transmission means with function, status change data storage means with serial number to save status change data with that serial number, server side serial number storage means to store this serial number, and serial number request acceptance to receive serial number request from client side And a request from the server, the server-side serial number transmitting means, the insufficient data request receiving means for receiving the insufficient data request from the client side, and the request from the insufficient data request receiving means. Received and checked for missing data, if the number of missing data was below a certain amount , A missing data count judgment function that takes out the missing data from the serialized state change data storage means, sends the extracted missing data to the client side, and issues an integrity request when the number of missing data exceeds a certain amount. Integrity requesting means and the serial number added state change data from the server side is input to update the client data, and the data updating means with the serial number saving function for saving the received serial number and the client for saving this serial number The serial number storage means, the serial number answer acceptance means that accepts the serial number from the server side serial number transmission means, and the serial number that was saved from the client side serial number storage means, and also receives the serial number answer from the server side from the serial number answer acceptance means. , When you check whether the saved serial number is missing Compare the serial number saved in the client-side serial number saving means with the serial number answer from the server side, and if there is a gap in the saved serial number, or if there is a difference between the saved serial number and the serial number received by the serial number answer In some cases, a missing data requesting means for detecting missing missing data and requesting the server to send the missing data is provided.

[0023]

The distributed monitoring control apparatus according to the first aspect of the present invention receives the request for transmitting the state change data, adds a serial number to the state change data, and transmits the state change data to the client side via the transmission path. Save the serial number you made. The client side updates the client data based on the received state change data with the serial number, extracts the added serial number, and saves it. Furthermore, on the client side, the server side requests the server side to send the serial number stored on the server side at regular intervals.

The server side receives this transmission request, takes out the serial number stored in its own computer, and transmits it to the client side. On the client side, the serial number stored in the local computer is taken out to check if there is any omission in the middle, and the latest serial number of the taken out serial numbers is compared with the serial number sent from the server side.

At this time, if there is a gap in the stored serial number (that is, there is a gap in the data and a mismatch occurs), or there is a difference between the stored serial number and the serial number sent from the server side. If the data is missing and a mismatch occurs, the server side issues an integrity request. In this way, the integrity transmission is performed only when the data mismatch actually occurs between the server and the client.

The distributed monitoring control apparatus according to the second aspect of the present invention receives the request for transmitting the state change data, adds a serial number to the state change data, transmits the state change data to the client side via the transmission path, and adds the sequence number. Save the serial number you made.
On the client side, the client data is updated based on the received status change data with serial number, the added serial number is taken out and compared with the serial number saved in the local computer to check if there is a missing serial number. And save the received serial number.

If the check result indicates that the serial number is missing (that is, the data is missing and a mismatch occurs), the server immediately issues an integrity request. Furthermore, on the client side, the server side requests the server side to send the serial number stored on the server side at regular intervals. The server side receives this transmission request, retrieves the serial number stored in its own computer, and transmits it to the client side. On the client side, the serial number stored in the local computer is taken out to check if there is any omission in the middle, and the latest serial number of the taken out serial numbers is compared with the serial number sent from the server side. At this time, if there is a gap in the saved serial number (that is, there is a gap in the data and there is a mismatch), or there is a difference between the saved serial number and the serial number sent from the server side (ie, If there is a gap in the data and there is a mismatch, make an integrity request to the server side.

As described above, it is detected that there is a data inconsistency between the server and the client when the normal state change data is transmitted and received. Furthermore, the integrity transmission is performed only when the data mismatch actually occurs.

The distributed monitoring control apparatus according to claim 3 of the present invention receives a request for transmitting the state change data, adds a serial number to the state change data, transmits the state change data to the client side via the transmission path, and adds the serial number. Save the serial number you made.
On the client side, the client data is updated based on the received status change data with serial number, the added serial number is taken out and compared with the serial number saved in the local computer to check if there is a missing serial number. And save the received serial number. If the check result indicates that the serial number is missing (that is, the data is missing and a mismatch occurs), the integrity request is issued after a certain period of time.

However, at this time, the same request has already been made,
If that has not been done, the request is not made again.
When this request is issued, an integrity request is made to the server side after a fixed time. If there is no request (that is, no data mismatch is detected during normal state change data transmission / reception), the client side requests the server side to transmit the serial number stored in the server.

On the server side, the transmission request is received and the serial number stored in its own computer is taken out and transmitted to the client side. On the client side, the serial number stored in the local computer is taken out to check if there is any omission in the middle, and the latest serial number of the taken out serial numbers is compared with the serial number sent from the server side. At this time, if there is a gap in the saved serial number (that is, there is a gap in the data and there is a mismatch), or there is a difference between the saved serial number and the serial number sent from the server side (ie, If there is a gap in the data and there is a mismatch, make an integrity request to the server side.

As described above, even when it is detected that there is a data inconsistency between the server and the client during normal transmission / reception of state change data, and the situation is repeated intermittently, the integrity request is It will be carried out only once in a fixed time. Further, the integrity transmission is performed only when the data mismatch actually occurs.

A distributed monitoring control apparatus according to claim 4 of the present invention receives a request to send state change data, adds a serial number to the state change data, and sends the serial number from the server to the client side via a transmission line to give the serial number. The added state change data is saved and the serial number is also saved. The client side updates the client data based on the received state change data with the serial number, extracts the added serial number, and saves it. Furthermore, on the client side, the server side requests the server side to send the serial number stored on the server side at regular intervals.

The server side receives this transmission request, takes out the serial number stored in its own computer, and transmits it to the client side. On the client side, the serial number stored in the local computer is taken out to check if there is any omission in the middle, and the latest serial number of the taken out serial numbers is compared with the serial number sent from the server side. At this time, if there is a gap in the saved serial number (that is, there is a gap in the data and there is a mismatch), or there is a difference between the saved serial number and the serial number sent from the server side (ie, If there is a gap in the data and a mismatch has occurred), the missing portion, that is, the missing data, is detected, and the server is requested to send the missing data.

On the server side, the state change data corresponding to the requested insufficient data is extracted from the state change data stored with the serial number added and is transmitted to the client side. The client side updates the client data with the transmitted missing data. As long as there is a data mismatch between the server and client,
Only the unmatched portion (that is, insufficient data) will be transmitted and received.

A distributed monitoring control apparatus according to claim 5 of the present invention receives a request to send state change data, adds a serial number to the state change data, and sends the serial number from the server to the client side via a transmission line to give the serial number. The added state change data is saved and the serial number is also saved. The client side updates the client data based on the received state change data with the serial number, extracts the added serial number, and saves it. Furthermore, on the client side, the server side requests the server side to send the serial number stored on the server side at regular intervals. The server side receives this transmission request, retrieves the serial number stored in its own computer, and transmits it to the client side. On the client side, the serial number stored in the local computer is taken out to check if there is any omission in the middle, and the latest serial number of the taken out serial numbers is compared with the serial number sent from the server side.

At this time, if there is a gap in the saved serial number (that is, there is a gap in the data and a mismatch occurs), or there is a difference between the saved serial number and the serial number sent from the server side. If the data is missing and a mismatch occurs, the missing data, that is, the missing data is detected, and the server is requested to send the missing data. The server side first checks the number of requested missing data. If the number of insufficient data is less than a certain amount, the state change data corresponding to the requested insufficient data is extracted from the state change data stored with the serial number added and transmitted to the client side. The client side updates the client data with the transmitted missing data. If the number of missing data exceeds a certain amount, integrity transmission is performed.

As described above, transmission / reception for performing data cohesion is performed only when data mismatch occurs between the server and the client. At this time, if the disagreement portion (that is, the insufficient data) is less than a certain amount, only the insufficient data is transmitted, and if the amount exceeds the certain amount (that is, if the insufficient data is sent separately, In the situation where it is judged that it is more efficient to transmit the master data collectively, integrity transmission will be performed.

[0039]

Embodiments Embodiments will be described below with reference to the drawings.
FIG. 1 is a block diagram of an embodiment corresponding to a distributed monitoring control apparatus according to claim 1 of the present invention. In FIG. 1, the same parts as those in FIG. First, the server 1 side will be described. Reference numeral 31 is a status change data transmission means with serial number, 32 is a server side serial number storage means, 33 is a serial number request receiving means, and 34 is a server side serial number transmission means. On the client 2a side, 35 is a data updating means with a serial number saving function, 36 is a client side serial number saving means, 37 is a client side integrity managing means, and 38 is a serial number answer accepting means.

FIG. 12B shows a format of data transmitted from the state change data transmission means 31 with serial number. Figure
As is clear from comparison with 12 (a), a serial number d is added between the date / time C and the data e. Other configurations are the same as those in FIG.

Next, the operation will be described. The serial-changed state change data transmission means 31 receives a state change data transmission request from the state change detection means 12 via the state change data transmission request reception means 14. In response to the request, the status change data transmitting means 31 with a serial number retrieves the serial number used last time from the server side serial number storage means 32, determines the current serial number based on this, adds the determined serial number to the status change data, and adds the serial number to the server 1 Is transmitted to the state change data receiving means 19 of the client 2a via the transmission line 3 and the serial number stored in the server side serial number storage means 32 is updated with the serial number added this time.

Here, the serial number and how to determine the serial number will be briefly described. The serial number here is a serial number for identifying data to be transmitted / received, and is m1 → m2 → m3 → ...
As described above, the number after m1 must be uniquely determined as m2, and the number after m2 must be uniquely determined as m3, and the rule of this determination must be the same between the server 1 and the clients 2a to 2n. The method of determining the serial number used in this embodiment is as in the equation (1).

[0043]

## EQU1 ## it = it-1 + 1 (1) where it>
When 32768, set it = 1. Where it: current serial number it-1: previous serial number Also, serial number it is initialized to 0 upon computer initialization of server 1 and saved in server side serial number storage means 32 and client side serial number storage means 34. To be done.

However, the above is merely an example, and as described above, it is uniquely determined that m2 is next to the current number m1, and the rule is the server 1 and the clients 2a-2.
If n is the same, any method will do.

The data updating means 35 with a serial number saving function of the client 2a receives the state change data to which the serial number is added from the state change data receiving means 19, and changes the state.
And updates based on the client data 22 to data, is taken out the added serial number, save it in the client-side sequence number storage section 36. The client-side integrity management means 37 operates in a fixed cycle and requests the serial number request accepting means 33 of the server 1 to transmit the serial number stored on the server 1 side. The server side serial number transmitting means 34 receives the request from the serial number request receiving means 33, extracts the stored serial number from the server side serial number storing means 32, and transmits the extracted serial number to the serial number answer receiving means 38 on the client 2a side. .

Client-side integrity management means
37 retrieves the sequence number transmitted from the server 1 from the sequence number answer receiving means 38 and also retrieves all the sequence numbers stored in the client side sequence number storing means 32. Then, the integrity management means 37 on the client 2a side
Checks all the serial numbers stored in the server 1 side serial number storage means 32, determines whether there is any omission in the middle, and sends the latest serial number among the stored serial numbers and the server 1 side. The serial numbers are compared to determine whether there is a difference in the serial numbers.

The integrity management means 37 on the client 2a side has a missing serial number that has been stored (that is, there is a missing data, and the server 1 and the client 2a have the missing data.
If there is a data mismatch between them, or there is a difference between the saved serial number and the serial number sent from the server 1 side (that is, there is a missing data, and the data between the server 1 and the client 2a is different). Mismatch has occurred)
In this case, the integrity request accepting means 17 on the server 1 side issues an integrity transmission request to the server 1 side to the integrity transmission requesting means 18.

Next, the algorithm of the process executed by the integrity management means 37 on the client 2a side will be described with reference to the flowchart of FIG. In FIG. 2, a step S1 makes a serial number transmission request to the server 1 side. In step S2, the serial number answer from the server 1 is waited for, and the serial number answer is received. In step S3, all the serial numbers stored in the client side serial number storage means 34 are retrieved. Step S4 is a loop for checking all stored serial numbers and determining whether there is any omission,
Steps S5 and S6 (number of stored serial numbers-
1) Loop once. In step S5, it is checked whether the serial number is missing. Whether or not there is a gap in the serial number may be determined by comparing the (k-th serial number + 1) and the (k + 1) th serial number.

If there is a gap (YES), step S6
Move on to. If there is no omission (NO), the process returns to the original step S4. In step S6, the integrity is "necessary". After checking all stored serial numbers,
Go to step S7. In step S7, it is checked whether the latest data has arrived. This check is performed by comparing the latest stored serial number with the serial number transmitted from the server 1. The latest data has not arrived,
That is, if the comparison results are not equal (YES), the process proceeds to step S8. If the latest data has arrived, that is, if the results are the same (NO), the process proceeds to step S9.

In step S8, the integrity is set to "necessary". In step S9, it is checked whether or not the integrity is "required" in step S6 or step S8. In case of integrity "necessary" (YE
S) and move to step S10. When the integrity is not “necessary” (NO), the process proceeds to step S11. Step S10
Then, an integrity transmission request is issued to the server 1 side. In step S11, for the next processing, the self (client side integrity management means 35
Requests itself to be activated and ends the process.

As described above, according to this embodiment,
Only when a data mismatch actually occurs between the server 1 and the client 2a, the integrity transmission is performed, and unnecessary integrity transmission is not performed, so that efficient transmission is achieved as compared with the conventional case. It becomes possible to do.

FIG. 3 is a block diagram of an embodiment of the distributed supervisory control apparatus according to claim 2 of the present invention. Figure 1 in Figure 3 or Figure
The same parts as 11 are designated by the same reference numerals and the description thereof will be omitted. In FIG. 3, 39 is a data updating means with an integrity request function. Other configurations are the same as in FIG. 1 or 11.

Next, the operation will be described. The data updating means 39 with an integrity request function receives the status change data with a serial number from the status change data receiving means 19, updates the client data 22 based on the data, and extracts the added serial number. Further, the data updating means 39 with the integrity request function retrieves the latest stored serial number from the client side serial number storage means 36, compares the serial number added to the state change data from the server 1 side, and outputs the serial number. Check if there was any omission. If there is a missing serial number, the integrity request is immediately issued to the server 1 side, and the serial number added to the state change data is stored in the client side serial number storage means 36.

Next, the algorithm of the processing executed by the data updating means 39 with the integrity request function will be described with reference to the flowchart of FIG. In FIG. 4, a step S20 takes out the serial-changed state change data from the state change data receiving means step S19. In step S21, the client data 22 is updated based on the serial-numbered state change data extracted in step S20. Step S
At 22, the added serial number is extracted from the state change data with serial number. In step S23, the latest serial number stored in the client side serial number storage means 36 is retrieved. In step S24, it is checked whether there is a missing serial number. This check is performed by comparing the serial number sent from the server 1 side with the stored (latest serial number + 1).

If there is a missing serial number, that is, if the comparison results are not equal (YES), the process proceeds to step S25. If the serial numbers are complete, that is, if the comparison results are equal (N
O), and then proceeds to step S26. In step S25, an integrity transmission request is issued to the server 1 side. Step S
In 26, the client-side serial number storage means 36 stores the serial number added to the state change data transmitted from the server 1 side.
Save to. After completing these steps, the process ends.

As described above, according to the present embodiment, the data mismatch between the server 1 and the client 29 is detected during the normal state change data transmission / reception processing, and the integrity request is immediately issued. Is possible. In addition, even if some kind of failure causes the state change data to not be transmitted and received well and data inconsistency occurs,
Similar to the embodiment of claim 1, it is detected and the integrity request is made at a certain fixed cycle.

FIG. 5 is a block diagram of an embodiment of the distributed supervisory control apparatus according to claim 3 of the present invention. Figure 1 in Figure 5 or Figure
The same parts as 11 are designated by the same reference numerals and the description thereof will be omitted. In FIG. 5, reference numeral 40 is data updating means with integrity request function after a certain period of time, and 41 is client side integrity management means with activation request acceptance function.
Other configurations are the same as those in FIG. 1 or 11.

Next, the operation will be described. After a certain period of time, the data updating means with integrity request function 40 receives the status change data with a serial number from the status change data receiving means 19, updates the client data 22 based on the data, and adds the added serial number. Take out. Further, after a certain period of time, the data updating means with integrity request function 40 retrieves the latest stored serial number from the client side serial number storage means 36 and compares it with the serial number added to the state change data from the server 1 side. , Check if there is a missing serial number.

If there is a missing serial number, the client side integrity management means 41 with a start request acceptance function is provided so as to make an integrity request to the server 1 side.
In addition, start it after a certain time. However, at this time, the same request has already been made, and if it has not been executed, the same activation request is not made again.

By this start request or at regular intervals,
The client-side integrity management means 41 with the activation request acceptance function is activated. When activated, the client-side integrity management means 41 with the activation request reception function first activates the integrity update function-equipped data updating means 40 after a fixed period of time, or activates at a fixed period but after a fixed period of time. It is checked whether or not there is a start request from the data updating means 40 with the integrity request function.

After a certain period of time, when the data is updated by the data updating means 40 with the integrity request function or when a request for activation is made, since there is a data mismatch between the server 1 and the client 2a, the data is transmitted to the server 1 side. While issuing the integrity transmission request, the activation request from the data updating means with the integrity request function is canceled after a certain period of time.

In the case where the activation is performed in every fixed cycle and the activation request from the data updating means 40 with the integrity request function is not received after the elapse of the fixed time, it is explained in the embodiment of claim 1.
The same processing as that of the client-side integrity management means 37 described above is performed.

Next, the algorithm of the process executed by the client-side integrity management means 41 with the activation request acceptance function will be described with reference to the flowchart of FIG. In FIG. 6, a step S30 checks whether or not there is a start or a start request from the data updating means 40 with an integrity request function after a fixed time. After a certain period of time, if it is the activation from the data update means with integrity request function 40 or there is an activation request (YES),
Move to step S31.

After a certain period of time, if neither the activation from the data updating means with integrity request function 40 nor the activation request is made (NO), the process proceeds to step S32. In step S31, an integrity transmission request is issued to the server 1 side.
In step S32, the Cry <br/> Ant side Integrity management unit 35 described in the embodiment of claim 1, performs the same processing as step S11 from step S1, processing is ended thereafter. After step S31, step S33 is executed. In step S33, it is checked whether or not there is a start request from the data updating means with integrity request function 40 after a fixed time.

After a certain period of time, if there is a start request from the data updating means 40 with the integrity request function (YE
S), the process which has already been the target of the activation request is step S31.
Since it is not necessary to re-execute,
After a certain period of time, the activation request from the data updating means with integrity request function 40 after a certain period of time is canceled, and then the process is terminated. After a certain period of time, if there is no activation request from the data updating means 40 with an integrity request function (N
O), the process ends.

As described above, according to this embodiment, it is detected that there is a data mismatch between the server and the client during normal transmission / reception of state change data, and the integrity request is issued after a certain period of time. Even in a situation where data inconsistencies occur intermittently within a certain period of time, the integrity request is executed only once within a certain period of time. This is very effective because it is possible to reduce the number of times data is sent and received for data that does not need to be immediately matched in situations where data mismatches occur intermittently. Is the way.

FIG. 7 is a block diagram of an embodiment of the distributed supervisory control apparatus according to claim 4 of the present invention. 7, parts that are the same as those shown in FIG. 1 or FIG. 11 are given the same reference numerals, and descriptions thereof will be omitted. In FIG. 7, 42 is a data transmission means with a state change data storage function, 43 is a state change data storage means with a serial number, 44 is an insufficient data requesting means, 45 is an insufficient data request receiving means, and 46 is an insufficient data transmitting means. Other configurations are the same as those in FIG. 1 or 11.

Next, the operation will be described. The data transmission means with state change data storage function 42 receives a transmission request for state change data from the state change detection means 12 via the state change data transmission request reception means 14. In response to the request, the data transmission means 42 with the state change data storage function retrieves the serial number used last time from the server side serial number storage means 32, determines the current serial number based on this, and adds the determined serial number to the state change data. Client 2a from server 1 via transmission line 3
The status change data is transmitted to the status change data accepting means 19, and the serial number saved in the server side serial number saving means 32 is updated with the serial number added this time, and the status change data with the serial number is added to the state change data saving means. Save to.

The data updating means 33 with a serial number saving function of the client 2a receives the status change data to which the serial number is added from the status change data receiving means 19, updates the client data 22 based on the received data, and adds the status change data. The serial number is taken out and stored in the client side serial number storage means 34. The insufficient data requesting means operates in a fixed cycle and requests the serial number request accepting means 33 of the server 1 to transmit the serial number stored on the server 1 side.

The server side serial number transmitting means 34 receives the request from the serial number request receiving means 33, and the server side serial number storing means
The stored serial number is retrieved from 32, and the retrieved serial number is transmitted to the sequence number answer accepting means 38 on the client 2a side. The insufficient data requesting means 44 retrieves the serial number transmitted from the server 1 from the serial number answer accepting means 38 and also retrieves all the serial numbers stored in the client side serial number storing means 32.

Then, the lacking data requesting means 44 checks all the serial numbers stored in the client side serial number saving means 36, judges whether there is any missing in the middle, and if there is missing, that is, if there is missing data, Remember the serial number.

Further, the insufficient data requesting means compares the latest serial number among the stored serial numbers with the serial number transmitted from the server 1 side to determine whether there is a difference in the serial numbers. , Ie if there is missing data,
Remember the serial number. Then, if there is insufficient data, the insufficient data requesting means transmits the stored serial number indicating the insufficient data to the insufficient data transmitting means 46 via the insufficient data request accepting means 45 on the server 1 side.

The lacking data transmitting means 46 inputs the serial number indicating the lacking data from the lacking data request accepting means 45, takes out the corresponding serial numbered status change data from the serialized status change data storage means 43, and the status of the client 2a. It is transmitted to the change data receiving means 19.

Next, the algorithm of the processing executed by the insufficient data requesting means 44 will be described with reference to the flowchart of FIG. In FIG. 8, a step S41 makes a serial number transmission request to the server 1 side. In step S42, the serial number answer from the server 1 is waited for, and the serial number answer is received. In step S43, all the serial numbers stored in the client side serial number storage means 34 are retrieved.

Step S44 is a loop for checking all the stored serial numbers and determining whether there is any omission, and steps S45 and S46 are looped (the stored serial number-1) times. In step S45, it is checked whether there is a missing serial number. Whether there is a gap in the serial number is (k
It suffices to compare the serial number of the first time + 1) and the serial number of the k + 1th time.

If there is a gap (YES), step S46
Move on to. If there is no omission (NO), the process returns to the original step S44. In step S46, as the serial number indicating the insufficient data, (k serial number + 1) to (k + 1 serial number-1)
Memorize When all the stored serial numbers have been checked, the process proceeds to step S47. In step S47, it is checked whether the latest data has arrived.

This check is performed by comparing the latest stored serial number with the serial number transmitted from the server 1. If the latest data has not arrived, that is, the comparison results are not equal (YES), the process proceeds to step S48. If the latest data has arrived, that is, the results are the same (N
O), and then proceeds to step S49.

In step S48, (the latest stored serial number + 1) to (the serial number transmitted from the server 1) are stored as the serial numbers indicating the insufficient data. Step S49
Then, it is checked whether or not the serial number indicating the insufficient data is stored in step S46 or S48. If stored (YE
S) and move to step S50. If not stored (N
O), and then proceeds to step S61. In step S50, a serial number indicating the missing data is transmitted to the missing data request receiving means 45 of the server 1. In step S51, a request to activate itself (insufficient data requesting means 44 itself) is made after a certain time for the next processing, and the processing is ended.

As described above, according to this embodiment,
Only when the data mismatch actually occurs between the server 1 and the client 2a, only the insufficient data can be transmitted / received, and the transmission can be performed much more efficiently than the conventional one.

FIG. 9 is a block diagram of an embodiment of the distributed supervisory control apparatus according to claim 5 of the present invention. In FIG.
Alternatively, the same parts as those in FIG. 11 are designated by the same reference numerals and the description thereof will be omitted. In FIG. 9, 47 is an integrity requesting means with a missing data number determination function. Other configurations are
This is the same as FIG. 7 or FIG.

Next, the operation will be described. The integrity requesting means 47 with a missing data number determination function inputs the serial number indicating the missing data from the missing data request receiving means 45, and checks the number of input serial numbers, that is, the number of missing data. When the number of insufficient data is less than a certain amount, the corresponding serial numbered state change data is retrieved from the serialized state change data storage means 43 and transmitted to the state change data acceptance means 19 of the client 2a. When the number of insufficient data exceeds a certain amount, the integrity request receiving means 17 is used to make an integrity transmission request to the integrity transmitting means 18.

As described above, according to this embodiment,
Only when a data mismatch occurs between the server 1 and the client 2a, data transmission / reception for performing data cohesion is performed. At this time, if the unmatched portion (that is, the insufficient data) is less than a certain amount, only the insufficient data is transmitted / received, and if it exceeds the certain amount, integrity transmission is performed. Become.

This is because, if there is a certain number or more of insufficient data, the overhead processing increases if the data is transmitted in pieces, and it may be more efficient to transmit all master data at once. It is effective as a means for preventing this. By adjusting the number of data used for the determination, it becomes possible to perform the most efficient transmission.

[0084]

As described above, according to the present invention, the computer load and the transmission traffic amount are prevented from extremely increasing by reducing the data transmission / reception amount for data equalization between the server and the client as much as possible. In addition, it is possible to provide a distributed monitoring control device capable of preventing data inconsistency between a server and a client when a failure occurs.

[Brief description of drawings]

FIG. 1 is a configuration diagram of an embodiment corresponding to a distributed monitoring control apparatus according to claim 1 of the present invention.

FIG. 2 is a flowchart showing an algorithm of processing of a client-side integrity management means 35.

FIG. 3 is a configuration diagram of an embodiment corresponding to the distributed monitoring control apparatus according to claim 2 of the present invention.

FIG. 4 Data updating means with integrity request function
The flowchart which shows the algorithm of the process of 39.

FIG. 5 is a configuration diagram of an embodiment corresponding to the distributed monitoring control apparatus according to claim 3 of the present invention.

FIG. 6 is a flowchart showing an algorithm of processing of a client integrity management means 41 with a start request reception function.

FIG. 7 is a configuration diagram of an embodiment corresponding to the distributed monitoring control apparatus according to claim 4 of the present invention.

FIG. 8 is a flowchart showing an algorithm of processing of the insufficient data requesting means 44.

FIG. 9 is a configuration diagram of an embodiment corresponding to the distributed monitoring control apparatus according to claim 5 of the present invention.

FIG. 10 is an example diagram showing a typical system configuration of a distributed monitoring control device.

FIG. 11 is a diagram showing an example of the configuration of a conventional device.

FIG. 12 is a format example diagram of data transmitted from the server 1.

[Explanation of symbols]

1 server 2a to 2n client 3 transmission line 10 master data 11 server side application program group 12 state change detection means 13 previous data 14 state change data transmission request acceptance means 15 state change data transmission means 16 integrity request means 17 integrity Request acceptance means 18 Integrity transmission means 19 Status change data acceptance means 20 Integrity data acceptance means 21 Data update means 22 Client data 23 Client side application program group 31 Serialized state change data transmission means 32 Server side serial number storage means 33 Serial number request acceptance means 34 Server side serial number transmission means 35 Data update means with serial number saving function 36 Client side serial number saving means data 37 Client side integrity management means 38 Serial number answer acceptance means 39 Integrity request Data update means with function 40 Data update means with integrity request function after a certain time 41 Client side integrity management means with activation request reception function 42 Data transmission means with state change data storage function 43 State change data storage means with serial number 44 Insufficient data requesting means 45 Insufficient data request accepting means 46 Insufficient data transmitting means 47 Integrity requesting means with insufficient data number judgment function

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ identification code FI H04L 12/26 (58) Fields investigated (Int.Cl. ⁷ , DB name) G05B 15/00-15/02 G05B 23/00 -23/02 G06F 13/00 H02J 13/00 H04L 12/00-12/26

Claims (5)

(57) [Claims] 1. A distributed monitoring and control apparatus, which performs a function of monitoring and controlling the status and information of a plant, an electric power system, etc. in a device distributed to a server and a client, assigns serial numbers to data whose status has changed, A serial-changed state change data transmitting means for transmitting data to the client, a server-side serial number storage means for storing this serial number, a serial number request receiving means for receiving a serial number request from the client side,
The server side serial number transmission means that receives the request from this serial number request reception means and sends the serial number to the client and the status change data with the serial number from the server side are input to update the client data and save the received serial number A data updating means with a serial number saving function, a client side serial number saving means for saving this serial number, a serial number answer accepting means for accepting the serial number from the server side serial number transmitting means, and a serial number saved from the client side serial number saving means. And the serial number answer from the server side is received from the serial number answer accepting means, it is checked whether there is any omission in the saved serial number, and the serial number saved in the client side serial number saving means and the server side Compare the serial number answers and there is a gap in the saved serial number If, or when there is a discrepancy serial number received by a conserved which was serial number and serial number answers, make sense alignment data to the server side over the request (hereinafter, referred to as Integrity), the client from the server-side
Distributed supervisory control apparatus characterized by comprising a client-side Integrity management means that sends the master data on the side. 2. A distributed monitoring and control apparatus, which performs a function of monitoring and controlling the status and information of a plant, an electric power system, etc. in a device distributed to a server and a client, assigns a serial number to data whose status has changed, A serial-changed state change data transmitting means for transmitting data to the client, a server-side serial number storage means for storing this serial number, a serial number request receiving means for receiving a serial number request from the client side,
The server side serial number sending means that receives the request from the serial number request receiving means and sends the serial number to the client and the status change data with serial number from the server side are input, and the client data is updated and the received serial number is saved. The data with an integrity request function that saves the received serial number as well as the integrity request to the server side when the serial number is missing and if there is a missing serial number Update means,
The client side serial number saving means for saving this serial number, the serial number answer accepting means for accepting the serial number from the server side serial number transmitting means, the serial number saved from the client side serial number saving means, and the server side from the serial number answer accepting means Receives the serial number answer from the server, checks whether the saved serial number is missing, compares the serial number saved in the client-side serial number saving means with the serial number answer from the server, and drops the saved serial number. If there is, or if there is a difference in the serial number received by the saved serial number answer, make an integrity request to the server side, and the client side from the server side
Distributed supervisory control apparatus characterized by comprising a client-side Integrity manager that sends master data up side. 3. A distributed monitoring and control apparatus, which performs a function of monitoring and controlling the status and information of a plant, an electric power system, etc. in a device distributed to a server and a client, assigns serial numbers to data whose status has changed, A serial-changed state change data transmitting means for transmitting data to the client, a server-side serial number storage means for storing this serial number, a serial number request receiving means for receiving a serial number request from the client side,
The server side serial number sending means that receives the request from the serial number request receiving means and sends the serial number to the client and the status change data with serial number from the server side are input, and the client data is updated and the received serial number is saved. The serial number is compared, and it is checked whether there is a missing serial number. If there is a missing serial number, the client integrity management means with the activation request acceptance function is activated so that the integrity request is issued after a certain period of time. Along with, a data updating means with integrity request function after a fixed time of saving the received serial number, a client side serial number saving means for saving this serial number, and a serial number answer accepting means for receiving the serial number from the server side serial number transmitting means, After a certain period of time, activation from the data update means with the integrity request function If there is, make an integrity request to the server side, if not, enter the serial number saved from the client side serial number saving means and receive the serial number answer from the server side from the serial number answer receiving means, Check whether the saved serial number is missing, and compare the serial number saved in the client-side serial number saving means with the serial number answer from the server side. If there is a difference between the serial number that was received and the serial number received by the serial number answer, issue an integrity request to the server side and send the master data from the server side to the client side.
Distributed supervisory control apparatus characterized by comprising a client-side Integrity manager you trust. 4. A distributed monitoring and control apparatus that performs a function of monitoring and controlling the status and information of a plant, an electric power system, etc. in a device distributed to a server and a client, assigns a serial number to data whose status has changed, Data transmission means with state change data saving function that sends data to the client and saves the state change data with a serial number, state change data saving means with a serial number that saves the state change data with that serial number, and this serial number The server side serial number saving means, the serial number request receiving means for receiving the serial number request from the client side, the request from the serial number request receiving means, and transmitting the serial number to the client, and the server side serial number transmitting means and the client side. For receiving the missing data request, and for receiving the missing data request Receiving the request from the means, checking the missing data, taking out the missing data from the numbered state change data storage means and transmitting the missing data to the client side, and the numbering state change from the server side Inputs data, updates client data, and receives the serial number from the server-side serial number sending means, the data updating means with a serial number saving function that saves the received serial number, the client side serial number saving means that saves this serial number. Enter the serial number saved from the serial number answer accepting means and the client side serial number saving means, receive the serial number answer from the server side from the serial number answer accepting means, and check whether there is any omission in the saved serial number. The serial number saved in the side serial number storage means Compare the serial number answer from the server side, if there is a missing in the saved serial number, or if there is a difference between the saved serial number and the serial number received by the serial number answer, detect the missing data missing, A distributed supervisory control device, comprising: a lack data requesting means for requesting a server to send a lack data. 5. A distributed monitoring and control apparatus, which performs a function of monitoring and controlling the status and information of a plant, an electric power system, etc. in a device distributed to a server and a client, assigns a serial number to data whose status has changed, Data transmission means with state change data saving function that sends data to the client and saves the state change data with a serial number, state change data saving means with a serial number that saves the state change data with that serial number, and this serial number The server side serial number storage means for storing the serial number, the serial number request receiving means for receiving the serial number request from the client side, the server side serial number transmitting means for receiving the request from the serial number request receiving means and transmitting the serial number to the client, and the client side For receiving the missing data request, and for receiving the missing data request Receive the request from the means, check the missing data, if the number of missing data is less than a certain amount, take out the missing data from the numbered state change data storage means, send the missing data to the client side, If the number of missing data exceeds a certain amount, an integrity request is issued and the client side makes a client request.
Integrity request means with a missing data number judgment function that sends master data to the ant side, and input status change data with serial number from the server side, update client data, and save the received serial number While inputting the functional data updating means, the client side serial number saving means for saving this serial number, the serial number answer accepting means for accepting the serial number from the server side serial number transmitting means, and the serial number saved from the client side serial number saving means, Receives the serial number answer from the server side from the serial number answer acceptance means, checks whether there is any omission in the saved serial number and compares the serial number saved in the client side serial number saving means with the serial number answer from the server side, If the saved serial number is missing, or if the saved serial number is And the serial number received by the serial number answerer are different, the distributed monitoring control is provided with a missing data requesting means for detecting missing data and requesting the server to send the missing data. apparatus.