JP2019207473A - System control system - Google Patents

Abstract

To provide a system control system by which an operation console can exchange monitor control servers to be connected in a short time and memory usage in the operation console is decreased.SOLUTION: A host computer 11 comprises a sharing data storage domain 111 which stores data in a monitor area sent from plural monitor control servers 21-24, and plural virtual operation consoles 101-104 mounted as virtual computers. Each of the plural virtual operation consoles 101-104 can set a monitor area and has access to data in the monitor area set in the sharing data storage domain 111.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a system control system.

  2. Description of the Related Art Conventionally, a system control system including a plurality of consoles and a monitoring control server that targets a plurality of areas is known (see, for example, Patent Document 1).

  In the system control system, in order to flexibly cope with a change in the operation system and a change in the monitoring control range, a function that enables connection from a console to a monitoring control server in an arbitrary area is required.

JP 2008-299658 A

  The console needs to refer to data such as equipment corresponding to the area of the monitoring control server. In the method of downloading data from the monitoring control server every time the console switches the connected monitoring control server, it takes time to download the data, and the operability at the time of switching is reduced. On the other hand, in the method in which the data of all the monitoring control servers is stored in advance on the console, data download is not required and the operability at the time of switching is improved, but the console must have a large capacity memory. .

  Patent Document 1 does not describe the switching time of the monitoring control server to which the console is connected and the memory usage on the console.

  SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a system control system capable of switching the monitoring control server to which the console is connected in a short time and reducing the amount of memory used in the console. .

  The system control system of the present invention includes a host computer and a plurality of monitoring control servers. Each of the plurality of monitoring control servers outputs the data of the corresponding monitoring area to the host computer. The host computer includes a shared data storage area for storing monitoring area data sent from a plurality of monitoring control servers, and a plurality of virtual consoles implemented as virtual computers. Each of the plurality of virtual consoles can set a monitoring area, and accesses data in the set monitoring area in the shared data storage area.

  According to the present invention, since each of the plurality of virtual consoles accesses data in the set monitoring area in the shared data storage area, it is possible to switch the monitoring control server to which the console is connected in a short time. In addition, the amount of memory used on the console can be reduced.

1 is a diagram showing a configuration of a system control system in a first embodiment. 2 is a diagram showing details of a host computer 11. FIG. It is a figure showing the structure of the system | strain control system of the reference example 1. It is a figure showing the structure of the system | strain control system of the reference example 2. It is a figure showing the structure of the system | strain control system of the reference example 3. It is a flowchart showing the operation | movement procedure of the application program at the time of switching the monitoring area of the virtual console 101 from the area A to the area B.

Hereinafter, embodiments will be described with reference to the drawings.
Embodiment 1 FIG.
FIG. 1 is a diagram showing a configuration of a system control system in the first embodiment.

  This system control system includes a host computer 11, an IP network 31, an area A monitoring control server 21, an area B monitoring control server 22, an area C monitoring control server 23, and an area D monitoring control server 24.

  The host computer 11 includes virtual consoles 101, 102, 103, 104 and a shared data storage area 111.

  The shared data storage area 111 stores a storage unit 121 that stores area A monitoring data, a storage unit 122 that stores area B monitoring data, a storage unit 123 that stores area C monitoring data, and area D monitoring data. Storage unit 124.

  The area A monitoring control server 21, the area B monitoring control server 22, the area C monitoring control server 23, the area D monitoring control server 24, and the host computer 11 are connected by an IP network 31.

  Each of the virtual consoles 101 to 104 can access the storage units 121 to 124 of the shared data storage area 111.

  For example, when the monitoring target of the virtual console 101 is set to the area A, the virtual console 101 can access the storage unit 121 and acquire the area A monitoring data. When the monitoring target of the virtual console 101 is switched to the area D, the virtual console 101 can access the storage unit 124 and acquire the area D monitoring data.

  The virtual consoles 101 to 104 are implemented as virtual computers. Each of the virtual consoles 101 to 104 can set a monitoring area. Each of the virtual consoles 101 to 104 accesses data in the set monitoring area in the shared data storage area 111.

  The area A monitoring control server 21 monitors area A and creates and manages area A monitoring data. The area A monitoring control server 21 updates the area A monitoring data stored in the storage unit 121 of the shared data storage area 111 when the area A monitoring data is updated. The area B monitoring control server 22 monitors the area B, and creates and manages area B monitoring data. The area B monitoring control server 22 updates the area B monitoring data stored in the storage unit 122 of the shared data storage area 111 when the area B monitoring data is updated. The area C monitoring control server 23 monitors area C and creates and manages area C monitoring data. The area C monitoring control server 23 updates the area C monitoring data stored in the storage unit 123 of the shared data storage area 111 when the area C monitoring data is updated. The area D monitoring control server 24 monitors the area D, and creates and manages area D monitoring data. The area D monitoring control server 24 updates the area D monitoring data stored in the storage unit 124 of the shared data storage area 111 when the area D monitoring data is updated.

FIG. 2 is a diagram showing details of the host computer 11.
The host computer 11 includes a hardware device 308, a hypervisor 307, and virtual consoles 101, 102, 103, and 104.

  The virtual console 101 includes an OS 221, an application program 201, and a shared data storage area access unit 211. The virtual consoles 102 to 104 also have the same configuration as the virtual console 101.

  The hardware device 308 includes a bus 302, a processor 301, a display device 303, an input device 304, a memory 305, and a communication device 300. The processor 301, the display device 303, the input device 304, the memory 305, and the communication device 300 are connected to the bus 302.

  The processor 301 includes one CPU (Central Processing Unit) or a plurality of CPUs. When one CPU is assigned to the virtual consoles 101 to 104 in time division, the virtual consoles 101 to 104 operate in parallel in time division. When a dedicated CPU is assigned to each of the virtual consoles 101 to 104, the virtual consoles 101 to 104 operate simultaneously.

  The memory 305 is loaded with a hypervisor 307. The memory 305 includes the shared data storage area 111 of FIG.

  The display device 303 includes a display, a projector, or the like. The display device 303 displays a monitor area screen generated by the virtual consoles 101 to 104.

  The input device 304 includes a keyboard, a mouse, a touch panel, a camera, a microphone, and the like, and receives data from an operator. Data input from the input device 304 is used to operate the virtual consoles 101 to 104.

  The hypervisor 307 allocates a processor 301, a partial area of the memory 305, and the like to each of the virtual consoles 101 to 104, and thus, an environment as if a single computer is operating (that is, Virtual computer environment).

  In the virtual console 101, an application program 201 and a shared data storage area access unit 211 operate on the OS 221. The same applies to the virtual consoles 102 to 104.

  The shared data storage area access unit 211 accesses data in the set monitoring area in the shared data area storage unit 111 in the memory 305.

The application program 201 is a program for executing the following functions.
The application program 201 receives a monitoring area switching instruction from the input device 304. The application program 201 can set a monitoring area according to the switching instruction. The application program 201 instructs the shared data storage area access unit 211 to access the monitoring data in the set monitoring area in the shared data storage area 111. The application program 201 outputs a screen of the set monitoring area to the display device 303 based on the monitoring data of the set monitoring area. The application program 201 communicates with the monitoring control servers 21 to 24 in charge of the set monitoring area, and instructs the monitoring control servers 21 to 24 to perform processing.

  Next, problems of another system control system different from the system control system according to the present embodiment will be described.

FIG. 3 is a diagram illustrating the configuration of the system control system according to the first reference example.
The system control system of the reference example 1 includes an operation console 551 configured by one computer. The console 551 includes a control unit 553 and a storage unit 552.

  The storage unit 552 stores monitoring data of the monitoring area. Storage unit 552 stores area A monitoring data when the monitoring area is area A. Storage unit 552 stores area B monitoring data when the monitoring area is area B. When the monitoring area is area C, storage unit 552 stores area C monitoring data. When the monitoring area is area D, storage unit 552 stores area D monitoring data.

  The control unit 553 can select and switch one monitoring area from a plurality of monitoring areas in accordance with an instruction from the operator. When the monitoring area is switched to area A, the control unit 553 downloads the area A monitoring data of the area A monitoring control server 21. When the monitoring area is switched to area B, the control unit 553 downloads the area B monitoring data of the area B monitoring control server 22. When the monitoring area is switched to area C, the control unit 553 downloads the area C monitoring data of the area C monitoring control server 23. When the monitoring area is switched to area D, the control unit 553 downloads the area D monitoring data of the area D monitoring control server 24.

  The control unit 553 can display a screen representing the state of the monitoring target area based on the monitoring area data. In addition, the control unit 553 can instruct processing to the monitoring control servers 21 to 24 corresponding to the monitoring area in response to the operation of the operator.

  In the system control system of Reference Example 1, since the console is configured by one computer, the scale of the system control system can be reduced. However, every time the console switches the monitoring area, the console has to download the monitoring area data. Therefore, it takes time to switch the monitoring area.

FIG. 4 is a diagram illustrating the configuration of the system control system of Reference Example 2.
The system control system of Reference Example 2 includes consoles 751, 752, 753, and 754.

  The console 751 targets only the area A for monitoring. The console 751 is composed of one computer. The console 751 includes a control unit 761 and a storage unit 771. The storage unit 771 stores area A monitoring data sent from the area A monitoring control server 21. Based on the area A monitoring data, the control unit 761 executes display control of the area A screen, control of the area A monitoring control server 21, and the like.

  The console 752 monitors only the area B. The console 752 is composed of one computer. The console 752 includes a control unit 762 and a storage unit 772. The storage unit 772 stores area B monitoring data sent from the area B monitoring control server 22. The control unit 762 executes display control of the area B screen, control of the area B monitoring control server 22, and the like based on the area B monitoring data.

  The console 753 targets only the area C as a monitoring target. The console 753 is composed of one computer. The console 753 includes a control unit 763 and a storage unit 773. The storage unit 773 stores area C monitoring data sent from the area C monitoring control server 23. The control unit 763 executes display control of the area C screen, control of the area C monitoring control server 23, and the like based on the area C monitoring data.

  The console 754 monitors only the area D. The console 754 is composed of one computer. The console 754 includes a control unit 764 and a storage unit 774. The storage unit 774 stores area D monitoring data sent from the area D monitoring control server 24. The control unit 764 executes display control of the screen of area D, control of the area D monitoring control server 24, and the like based on the area D monitoring data.

  In Reference Example 2, since a plurality of consoles are configured using a plurality of computers, the scale of the system control system increases. In the reference example 2, one console has only one area to be monitored. Therefore, for example, even if an operator who uses the console 751 wants to monitor the area B, the operator cannot monitor the area B. In order to use the console 752, the operator must move to the place where the console 752 is installed. I must.

FIG. 5 is a diagram illustrating the configuration of the system control system of Reference Example 3.
The system control system of Reference Example 3 includes consoles 651, 652, 653, and 654.

  The console 651 is composed of one computer. The console 651 includes a control unit 661 and a storage unit 671. The storage unit 671 includes area A monitoring data sent from the area A monitoring control server 21, area B monitoring data sent from the area B monitoring control server 22, area C monitoring data sent from the area C monitoring control server 23, and area D. The area D monitoring data sent from the monitoring control server 24 is stored. The control unit 661 can switch the monitoring area. When the monitoring area is set to area A, the control unit 661 executes display control of the area A screen, control of the area A monitoring control server 21, and the like based on the area A monitoring data. When the monitoring area is set to area B, the control unit 661 executes display control of the area B screen, control of the area B monitoring control server 22, and the like based on the area B monitoring data. When the monitoring area is set to area C, the control unit 661 executes display control of the area C screen, control of the area C monitoring control server 23, and the like based on the area C monitoring data. When the monitoring area is set to area D, the control unit 661 executes display control of the screen of area D, control of the area D monitoring control server 24, and the like based on the area D monitoring data.

  The console 652 is configured by one computer. The console 652 includes a control unit 662 and a storage unit 672. The storage unit 672 includes area A monitoring data sent from the area A monitoring control server 21, area B monitoring data sent from the area B monitoring control server 22, area C monitoring data sent from the area C monitoring control server 23, and area D. The area D monitoring data sent from the monitoring control server 24 is stored. The control unit 662 can switch the monitoring area. When the monitoring area is set to area A, the control unit 662 executes display control of the area A screen, control of the area A monitoring control server 21, and the like based on the area A monitoring data. When the monitoring area is set to area B, the control unit 662 executes display control of the area B screen, control of the area B monitoring control server 22, and the like based on the area B monitoring data. When the monitoring area is set to area C, the control unit 662 executes display control of the area C screen, control of the area C monitoring control server 23, and the like based on the area C monitoring data. When the monitoring area is set to area D, the control unit 662 executes display control of the area D screen, control of the area D monitoring control server 24, and the like based on the area D monitoring data.

  The console 653 is composed of one computer. The console 653 includes a control unit 663 and a storage unit 673. The storage unit 673 includes area A monitoring data sent from the area A monitoring control server 21, area B monitoring data sent from the area B monitoring control server 22, area C monitoring data sent from the area C monitoring control server 23, and area D. The area D monitoring data sent from the monitoring control server 24 is stored. The control unit 663 can switch the monitoring area. When the monitoring area is set to area A, the control unit 663 executes display control of the area A screen, control of the area A monitoring control server 21, and the like based on the area A monitoring data. When the monitoring area is set to area B, the control unit 663 executes display control of the area B screen, control of the area B monitoring control server 22, and the like based on the area B monitoring data. When the monitoring area is set to area C, the control unit 663 executes display control of the area C screen, control of the area C monitoring control server 23, and the like based on the area C monitoring data. When the monitoring area is set to area D, the control unit 663 executes display control of the screen of area D, control of the area D monitoring control server 24, and the like based on the area D monitoring data.

  The console 654 is composed of one computer. The console 654 includes a control unit 664 and a storage unit 674. The storage unit 674 includes area A monitoring data sent from the area A monitoring control server 21, area B monitoring data sent from the area B monitoring control server 22, area C monitoring data sent from the area C monitoring control server 23, and area D. The area D monitoring data sent from the monitoring control server 24 is stored. The control unit 664 can switch the monitoring area. When the monitoring area is set to area A, the control unit 664 executes display control of the area A screen and control of the area A monitoring control server 21 based on the area A monitoring data. When the monitoring area is set to area B, the control unit 664 executes display control of the screen of area B, control of the area B monitoring control server 22, and the like based on the area B monitoring data. When the monitoring area is set to area C, the control unit 664 executes display control of the area C screen, control of the area C monitoring control server 23, and the like based on the area C monitoring data. When the monitoring area is set to area D, the control unit 664 executes display control of the screen of area D, control of the area D monitoring control server 24, and the like based on the area D monitoring data.

  In Reference Example 3, as in Reference Example 2, a plurality of consoles are configured using a plurality of computers, so the scale of the system control system increases. Furthermore, in Reference Example 3, unlike Reference Example 2, one console can monitor all areas, but the data of all areas must be stored in the storage unit of each console. Therefore, the storage capacity of the storage unit of each console must be increased.

Next, a procedure for switching the monitoring area using the virtual console will be described.
FIG. 6 is a flowchart showing the operation procedure of the application program when the monitoring area of the virtual console 101 is switched from area A to area B.

  In step S <b> 102, the application program 201 of the virtual console 101 disconnects the communication connection with the area A monitoring control server 21 in charge of the old area A. As a result, communication between the virtual console 101 and the area A monitoring control server 21 becomes impossible.

  In step S <b> 103, the application program 201 of the virtual console 101 instructs the shared data storage area access unit 211, and the shared data storage area access unit 211 accesses the shared data storage area 111 and uses it for the new area B. Area B monitoring data is acquired.

  In step S104, the application program 201 of the virtual console 101 communicates with the area B monitoring control server 22 in charge of the new area B. As a result, communication between the virtual console 101 and the area B monitoring control server 22 becomes possible.

  As described above, according to the present embodiment, the monitoring control server to which the console is connected can be switched in a short time, and the memory usage on the console can be reduced.

(Modification)
In the above embodiment, the monitoring control servers 21 to 24 update the monitoring data stored in the shared data storage area 111 when the monitoring data of the corresponding area is updated. However, the present invention is not limited to this. Not what you want.

  For example, the monitoring control servers 21 to 24 may update monitoring data stored in the shared data storage area 111 at regular intervals. That is, the area A monitoring control server 21 updates the area A monitoring data stored in the storage unit 121 of the shared data storage area 111 at regular time intervals. The area B monitoring control server 22 updates the area B monitoring data stored in the storage unit 122 of the shared data storage area 111 at regular time intervals. The area C monitoring control server 23 updates the area C monitoring data stored in the storage unit 123 of the shared data storage area 111 at regular time intervals. The area D monitoring control server 24 updates the area D monitoring data stored in the storage unit 124 of the shared data storage area 111 at regular time intervals. The update of the monitoring data may be performed asynchronously.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present disclosure is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

  11 host computer, 21 area A monitoring control server, 22 area B monitoring control server, 23 area C monitoring control server, 24 area D monitoring control server, 31 IP network, 101-104 virtual console, 111 shared data storage area, 121 -124, 552, 671-674, 771-774 Storage unit, 201-204 Application program, 211-214 Shared data storage area access unit, 221-224 OS, 300 communication device, 301 processor, 302 bus, 303 display device, 304 input device, 305 memory, 307 hypervisor, 308 hardware device, 551, 651-654, 751-754 console, 553, 661-664, 761-764 control unit.

Claims (6)

A system control system including a host computer and a plurality of monitoring control servers,
Each of the plurality of monitoring control servers outputs corresponding monitoring area data to the host computer,
The host computer
A shared data storage area for storing data of the monitoring area sent from the plurality of monitoring control servers;
With multiple virtual consoles implemented as virtual machines,
Each of the plurality of virtual consoles is
A grid control system in which a monitoring area can be set, and data in the set monitoring area in the shared data storage area is accessed.   2. The system control system according to claim 1, wherein each of the plurality of monitoring control servers outputs the changed monitoring area data to the host computer every time there is a change in the monitoring area data.   2. The system control system according to claim 1, wherein each of the plurality of monitoring control servers outputs data of the monitoring area to the host computer at regular time intervals. Each of the plurality of virtual consoles is
The system control system according to claim 1, wherein the system control system is communicatively connected to the set monitoring control server. The host computer includes a plurality of CPUs,
A dedicated CPU is allocated to each of the plurality of virtual consoles,
The system control system according to claim 1, wherein each of the plurality of virtual consoles operates simultaneously. The host computer includes one CPU,
In each of the plurality of virtual consoles, the one CPU is allocated in a time-sharing manner,
The system control system according to claim 1, wherein each of the plurality of virtual consoles operates in a time division manner.

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