CN107615199B - System Design assistant device, method and program - Google Patents
System Design assistant device, method and program Download PDFInfo
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- CN107615199B CN107615199B CN201580080373.7A CN201580080373A CN107615199B CN 107615199 B CN107615199 B CN 107615199B CN 201580080373 A CN201580080373 A CN 201580080373A CN 107615199 B CN107615199 B CN 107615199B
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B19/00—Programme-control systems
- G05B19/02—Programme-control systems electric
- G05B19/04—Programme control other than numerical control, i.e. in sequence controllers or logic controllers
- G05B19/05—Programmable logic controllers, e.g. simulating logic interconnections of signals according to ladder diagrams or function charts
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B23/00—Testing or monitoring of control systems or parts thereof
- G05B23/02—Electric testing or monitoring
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- Engineering & Computer Science (AREA)
- Automation & Control Theory (AREA)
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Abstract
It is a kind of using the monitoring performance indicated by the time interval of the monitoring of carry out data, drafting or communication as index, the device that the design of monitoring system is assisted, include structure chart establishment portion, it is based on input from the user, creates the structure chart of monitoring system and the structure chart is shown in display unit;Structural element monitors performance acquisition unit, obtains the respective monitoring performance of multiple structural elements being configured in structure chart;Whole monitoring performance acquisition unit, is based on the respective monitoring performance of multiple structural elements, obtains the monitoring performance of monitoring system entirety;And whole monitoring performance display unit, the monitoring performance of monitoring system entirety is shown in display unit.
Description
Technical field
The present invention relates to system Design assistant device, method and programs that the design to monitoring system is assisted.
Background technique
In the field FA (Factory Automation), in order to monitor to industrial machinery, monitoring system is used.Make
For the structural element of monitoring system, exemplify the control device that industrial machinery is controlled, the network being connect with control device,
Server connected to the network and connect with server and monitoring arrangement that control device is monitored.
As control device, programmable controller (JIS B 3502:2011, programmable are exemplified
controllers(PLC)).As network, Ethernet (registered trademark) or CC-Link is exemplified.As server, illustrate
OPC (OLE for Process Control) server out.As monitoring arrangement, SCADA (Supervisory is exemplified
Control And Data Acquisition) device.
As associated technology, in following patent documents 1, a kind of programmable controller (claim is recorded
1) bandwidth management layer is included, in order to shared by the execution time of application schedules device in 1 execution circulation time of system
Ratio and data processing the execution time shared by ratio be managed, the bandwidth management layer is by as real time operating system
1 processing class is managed;And judging unit, when user sets the execution time to bandwidth management layer, to being
The no execution time for sufficiently having reserved data processing is judged, is notified.
In addition, recording a kind of (0031 section to 0035 of network structure map display device in following patent documents 2
Section), the instruction/response response time blinking intervals time management table for being stored with each PLC is stored, network structure is made
The display icon of each PLC in figure and last instruction/response response time accordingly flash display.
In addition, recording a kind of database construction method (0044 section) in following patent documents 3, supervised in factory
Depending on when the signal transmission route for the signal selected is not limited to 1, being carried out by designer in control system
Signal transmission route is limited to 1 operation, but in order to by via the load of device, network be set as impartial, based on warp
By the load of each device automatically determine signal transmission route.
Patent document 1: Japanese Unexamined Patent Publication 2008-146357 bulletin
Patent document 2: Japanese Unexamined Patent Publication 2006-277734 bulletin
Patent document 3: Japanese Unexamined Patent Publication 9-231229 bulletin
Summary of the invention
However, although whether programmable controller described in Patent Document 1 is to sufficiently having reserved single programmable controller
Execution time of data processing determined, but can not to whether sufficiently reserved be assembled with programmable controller system it is whole
The execution time of the data processing of body is determined.
In addition, network structure map display device described in Patent Document 2 makes the display icon of each PLC in network structure
Display is accordingly flashed with last instruction/response response time.Therefore, network structure described in Patent Document 2 is shown
Device cannot make the display icon of each PLC in network structure if not after actual implementation system operates it
Display is accordingly flashed with last instruction/response response time.
In addition, database construction method described in Patent Document 3 in order to make via device, the load of network it is impartial, base
In via the load of each device automatically determine signal transmission route.That is, database construction method described in Patent Document 3 is
Plant monitoring control system is constructed, automatically determines signal transmission route later.Therefore, database described in Patent Document 3
Construction method is possible to generate after actual implementation goes out plant monitoring control system, and asking for the monitoring performance as target is not achieved
Topic.
The present invention is exactly to propose in view of the above problems, should its object is to obtain a kind of system Design assistant device
System Design assistant device is able to suppress the problem of monitoring performance being not achieved after actual implementation goes out monitoring system as target.
In order to solve the above problems, reach purpose, the present invention is will be by the time of the monitoring of carry out data, drafting or communication
The monitoring performance of time interval is as index, and the device assisted the design of monitoring system is comprising: knot
Composition establishment portion is created the structure chart of monitoring system and is shown the structure chart based on the input from the user to input unit
It is shown in display unit;Structural element monitors performance acquisition unit, obtains the respective prison of multiple structural elements being configured in structure chart
Depending on performance;Whole monitoring performance acquisition unit, is based on the respective monitoring performance of multiple structural elements, obtains monitoring system entirety
Monitor performance;And whole monitoring performance display unit, the comparison result of the monitoring performance of monitoring system entirety and threshold value is shown
It is shown in display unit.
The effect of invention
System Design assistant device of the present invention obtains following effects, that is, is able to suppress and goes out to monitor in actual implementation
The problem of monitoring performance as target is not achieved after system.
Detailed description of the invention
Fig. 1 is the figure of the hardware configuration for the system Design assistant device for indicating that embodiment 1 is related to.
Fig. 2 is the figure of the functional block for the system Design assistant device for indicating that embodiment 1 is related to.
Fig. 3 is the figure of the example for the monitoring performance data for indicating that embodiment 1 is related to.
Fig. 4 is the figure of the example for the monitoring performance data for indicating that embodiment 1 is related to.
Fig. 5 is the figure of the example for the monitoring performance data for indicating that embodiment 1 is related to.
Fig. 6 is the figure of the example for the monitoring performance data for indicating that embodiment 1 is related to.
Fig. 7 is the figure of the example for the monitoring performance data for indicating that embodiment 1 is related to.
Fig. 8 is the figure of the example for the monitoring performance data for indicating that embodiment 1 is related to.
Fig. 9 is the figure of the example for the threshold data for indicating that embodiment 1 is related to.
Figure 10 is the figure of the example for the improvement plan data for indicating that embodiment 1 is related to.
Figure 11 is the figure of the example for the improvement plan data for indicating that embodiment 1 is related to.
Figure 12 is the flow chart of the movement for the system Design assistant device for indicating that embodiment 1 is related to.
Figure 13 is the figure of the system Design assistant picture for the system Design assistant device for indicating that embodiment 1 is related to.
Figure 14 is the figure of the system Design assistant picture for the system Design assistant device for indicating that embodiment 1 is related to.
Figure 15 is the figure of the system Design assistant picture for the system Design assistant device for indicating that embodiment 1 is related to.
Specific embodiment
In the following, being carried out based on system Design assistant device, method and the program that attached drawing is related to embodiments of the present invention
It is described in detail.In addition, the present invention is not limited to the embodiments.
Embodiment 1.
In the embodiment 1, it will be illustrated as an example the case where auxiliary the design of following monitoring systems,
The monitoring system includes: 2 control devices controlled respectively industrial machinery;1 network being connect with control device;With
1 server of network connection;And connect with server and 1 monitoring arrangement that control device is monitored.
As control device, programmable controller (JIS B 3502:2011, programmable are exemplified
controllers(PLC)).As network, Ethernet (registered trademark) or CC-Link is exemplified.As server, illustrate
OPC (OLE for Process Control) out.As monitoring arrangement, SCADA (Supervisory Control is exemplified
And Data Acquisition) device.Above-mentioned monitoring system is to illustrate, and monitoring system also may include other devices.
In the embodiment 1, will be made by the monitoring performance of carry out data monitoring or the expression of the time interval of drafting or communication
For index, the design of monitoring system is assisted.
Fig. 1 is the figure of the hardware configuration for the system Design assistant device for indicating that embodiment 1 is related to.Embodiment 1 is related to
System Design assistant device 1 can using computer realize.Computer includes: CPU (Central Processing Unit)
11, RAM (Random Access Memory) 12, ROM (Read Only Memory) 13, storage unit 14, input unit 15, display
Portion 16 and communication interface 17.CPU 11, RAM 12, ROM 13, storage unit 14, input unit 15, display unit 16 and communication interface
17 connect via bus B.
CPU 11 uses RAM 12 as working region, and executes the program for being stored in ROM 13 and storage unit 14.Make
For the program for being stored in ROM 13, BIOS (Basic Input/Output System) or UEFI (Unified is exemplified
Extensible Firmware Interface).As the program for being stored in storage unit 14, exemplify operating system program and
System Design assistant program.As storage unit 14, SSD (Solid State Drive) or HDD (Hard Disk is exemplified
Drive)。
Input unit 15 receives operation input from the user.As input unit 15, keyboard or mouse are exemplified.Display unit 16
Show text or image.As display unit 16, liquid crystal display device is exemplified.Communication interface 17 is led to other devices
Letter.
Fig. 2 is the figure of the functional block for the system Design assistant device for indicating that embodiment 1 is related to.14 stored items of storage unit
Data 14a and 14b.
Project data 14a includes: the control program 14a1 that the control device of You Yifang executes;Program 14a1 is controlled executing
When reference control parameter 14a2;Defined equipment is carried out to multiple working regions in the memory of the control device of a side to deposit
Reservoir 14a3;And defined link information 14a4 is carried out to the control device of a side and the connection relationship of industrial machinery.
The multiple working regions as defined in device memory 14a3 are respectively referred to as equipment.Above-mentioned multiple equipment becomes monitoring
The supervision object of equipment.
In the embodiment 1, the program step number for controlling program 14a1 is set as " 50000 ", it will be by device memory 14a3
The quantity of defined equipment is set as " 3000 ".
Project data 14b includes: the control program 14b1 executed by the control device of another party;Program is controlled executing
The control parameter 14b2 of reference when 14b1;To as defined in multiple working regions progress in the memory of the control device of another party
Device memory 14b3;And defined link information is carried out to the control device of another party and the connection relationship of industrial machinery
14b4。
The multiple working regions as defined in device memory 14b3 are respectively referred to as equipment.Above-mentioned multiple equipment becomes monitoring
The supervision object of equipment.
In the embodiment 1, the program step number for controlling program 14b1 is set as " 20000 ", it will be by device memory 14b3
The quantity of defined equipment is set as " 2000 ".
14 couples of monitoring performance data 14c of storage unit are stored.Monitoring performance data 14c includes: in setting for monitoring system
The monitoring performance data 14c2 of the monitoring performance data 14c1, monitoring arrangement Type B of selectable monitoring arrangement A type, monitoring in meter
The monitoring performance data 14c3 of device c-type.
Fig. 3 is the figure of the example for the monitoring performance data for indicating that embodiment 1 is related to.The monitoring performance of monitoring arrangement A type
Data 14c1 includes: the project of drawing data quantity, the project for monitoring data bulk, the project for drawing time interval.
Monitor that data bulk is the number for the equipment that monitoring arrangement A type is monitored in the multiple equipment of 2 control devices
Amount.Drawing data quantity is the quantity for the equipment in the equipment monitored, drawn in the display device of monitoring arrangement A type.It draws
Time interval processed is the time interval for the drafting that monitoring arrangement A type carries out equipment.
If drawing data quantity increases, the load of monitoring arrangement A type increases.Therefore, drawing data quantity with draw
Exist between time interval processed and draws the elongated relationship of time interval if drawing data quantity increase.
If monitoring that data bulk increases, the load of monitoring arrangement A type increases.Therefore, it is monitoring data bulk and is drawing
Exist between time interval processed and draws the elongated relationship of time interval if monitoring data bulk increase.
Describing at the project of the drawing data quantity of the row 14c1a of monitoring performance data 14c1 has " 500 ", in monitoring number
Describing at the project of data bulk has " 1000 ", and describing at the project for drawing time interval has " 400ms ".
Therefore, monitoring arrangement A type drawing data quantity be " 500 " and monitoring data bulk be " 1000 " in the case where,
It is drawn using content of the time interval of " 400ms " to the equipment as rendered object.
Describing at the project of the drawing data quantity of the row 14c1b of monitoring performance data 14c1 has " 1000 ", is monitoring
Describing at the project of data bulk has " 2000 ", and describing at the project for drawing time interval has " 800ms ".
Therefore, monitoring arrangement A type drawing data quantity be " 1000 " and monitoring data bulk be " 2000 " in the case where,
It is drawn using content of the time interval of " 800ms " to the equipment as rendered object.
Monitor that performance data 14c1 either what the catalog specification based on monitoring arrangement A type created, is also possible to be based on
The measured value creation of the monitoring arrangement A type of real-world operation, it can also be by user as a parameter to setting.
In addition, the drafting time interval of monitoring arrangement A type can also use formula without using monitoring performance data 14c1
It calculates.As the formula that the drafting time interval to monitoring arrangement A type is calculated, following formulas (1) is exemplified.
(drawing time interval)
=(drawing data quantity) × A+ (monitoring data bulk) × B ... (1)
In formula (1), A and B are the positive constants being determined in advance.
The monitoring performance data 14c2 of the monitoring arrangement Type B and monitoring performance data 14c3 of monitoring arrangement c-type also with monitoring
Performance data 14c1 project having the same, omits the description.In addition, the drafting time interval of monitoring arrangement Type B and c-type and monitoring
Device A type is identical, and formula calculating also can be used.
Referring again to Fig. 2, monitor that performance data 14c includes: the selectable server A type in the design of monitoring system
Monitor performance data 14c4, the monitoring performance data 14c5 of server B type, server c-type monitoring performance data 14c6.
Fig. 4 is the figure of the example for the monitoring performance data for indicating that embodiment 1 is related to.The monitoring performance number of server B type
It include the project of monitoring data bulk and the project of monitoring time interval according to 14c5.
Monitor that data bulk is the quantity for the equipment that server B type is monitored in the multiple equipment of control device.Monitoring
Time interval is the time interval for the monitoring that server B type carries out equipment.
If monitoring that data bulk increases, the load of server B type increases.Therefore, in monitoring data bulk and monitoring
Exist between time interval and monitors the elongated relationship of time interval if monitoring data bulk increase.
Describing at the project of the monitoring data bulk of the row 14c5a of monitoring performance data 14c5 has " 1000 ", is monitoring
Describing at the project of time interval has " 200ms ".
Therefore, server B type is in the case where monitoring data bulk is " 1000 ", with the time interval of " 200ms " to work
It is monitored for the equipment of supervision object.
Describing at the project of the monitoring data bulk of the row 14c5b of monitoring performance data 14c5 has " 2000 ", is monitoring
Describing at the project of time interval has " 400ms ".
Therefore, server B type is in the case where monitoring data bulk is " 2000 ", with the time interval of " 400ms " to work
It is monitored for the equipment of supervision object.
Monitor that performance data 14c5 either what the catalog specification based on server B type create, is also possible to based on reality
The measured value creation of the server B type of border operating, it can also be and set by user as parameter.
In addition, the monitoring time interval of server B type can also use formula meter without using monitoring performance data 14c5
It calculates.As the formula that the monitoring time interval to server B type is calculated, following formulas (2) are exemplified.
(monitoring time interval)=(monitoring data bulk) × C ... (2)
In formula (2), C is the positive constant being determined in advance.
The monitoring performance data 14c4 of the server A type and monitoring performance data 14c6 of server c-type also with monitoring performance
Data 14c5 project having the same, omits the description.In addition, the monitoring of the monitoring time interval and server c-type of server A type
Time interval is identical as server B type, and formula calculating also can be used.
Referring again to Fig. 2, monitor that performance data 14c includes: the selectable control device A type in the design of monitoring system
Monitoring performance data 14c7, the monitoring performance data 14c8 of control device Type B, control device c-type monitoring performance data
14c9。
Fig. 5 is the figure of the example for the monitoring performance data for indicating that embodiment 1 is related to.The monitoring performance of control device A type
Data 14c7 includes the project, the project of program step number, the project for monitoring time interval of monitoring data bulk.
Monitor that data bulk is the number for the equipment that control device A type is monitored in the multiple equipment of control device A type
Amount.Program step number is the quantity of the program step of control program performed by control device A type.Monitor that time interval is control device
A type carries out the time interval of the monitoring of equipment.
If monitoring that data bulk increases, the load of control device A type increases.Therefore, in monitoring data bulk and prison
The elongated relationship of time interval is monitored if monitoring data bulk increase depending on existing between time interval.
If program step number increases, the load of control device A type increases.Therefore, between program step number and monitoring time
Between, exists and monitor the elongated relationship of time interval if program step number increase.
Describing at the project of the monitoring data bulk of the row 14c7a of monitoring performance data 14c7 has " 3000 ", in program
Describing at the project of step number has " 50000 ", and describing at the project of monitoring time interval has " 100ms ".
Therefore, control device A type is monitoring that data bulk is " 3000 " and in the case that program step number is " 50000 ", with
The time interval of " 100ms " monitors the equipment as supervision object.
Describing at the project of the monitoring data bulk of the row 14c7b of monitoring performance data 14c7 has " 6000 ", in program
Describing at the project of step number has " 100000 ", and describing at the project of monitoring time interval has " 200ms ".
Therefore, control device A type is monitoring that data bulk is " 6000 " and in the case that program step number is " 100000 ", with
The time interval of " 200ms " monitors the equipment as supervision object.
Monitor that performance data 14c7 either what the catalog specification based on control device A type created, is also possible to be based on
The measured value creation of the control device A type of real-world operation, it can also be set by user as parameter.
In addition, the monitoring time interval of control device A type can also use formula without using monitoring performance data 14c7
It calculates.As the formula that the monitoring time interval to control device A type is calculated, following formulas (3) are exemplified.
(monitoring time interval)
=(monitoring data bulk) × D+ (program step number) × E ... (3)
In formula (3), D and E are the positive constants being determined in advance.
Fig. 6 is the figure of the example for the monitoring performance data for indicating that embodiment 1 is related to.The monitoring performance of control device c-type
Data 14c9 includes the project, the project of program step number, the project for monitoring time interval of monitoring data bulk.
Monitor that data bulk is the number for the equipment that control device c-type is monitored in the multiple equipment of control device c-type
Amount.Program step number is the quantity of the program step of control program performed by control device c-type.Monitor that time interval is control device
C-type carries out the time interval of the monitoring of equipment.
If monitoring that data bulk increases, the load of control device c-type increases.Therefore, in monitoring data bulk and prison
The elongated relationship of time interval is monitored if monitoring data bulk increase depending on existing between time interval.
If program step number increases, the load of control device c-type increases.Therefore, between program step number and monitoring time
Between, exists and monitor the elongated relationship of time interval if program step number increase.
Describing at the project of the monitoring data bulk of the row 14c9a of monitoring performance data 14c9 has " 2000 ", in program
Describing at the project of step number has " 20000 ", and describing at the project of monitoring time interval has " 60ms ".
Therefore, control device c-type is monitoring that data bulk is " 2000 " and in the case that program step number is " 20000 ", with
The time interval of " 60ms " monitors the equipment as supervision object.
Describing at the project of the monitoring data bulk of the row 14c9b of monitoring performance data 14c9 has " 4000 ", in program
Describing at the project of step number has " 40000 ", and describing at the project of monitoring time interval has " 120ms ".
Therefore, control device c-type is monitoring that data bulk is " 4000 " and in the case that program step number is " 40000 ", with
The time interval of " 120ms " monitors the equipment as supervision object.
Monitor that performance data 14c9 either what the catalog specification based on control device c-type created, is also possible to be based on
The measured value creation of the control device c-type of real-world operation, it can also be set by user as parameter.
In addition, the monitoring time interval of control device c-type can also use formula without using monitoring performance data 14c9
It calculates.As the formula that the monitoring time interval to control device c-type is calculated, following formulas (4) are exemplified.
(monitoring time interval)
=(monitoring data bulk) × F+ (program step number) × G ... (4)
In formula (4), F and G are the positive constants being determined in advance.
In addition, the monitoring performance data 14c8 of control device Type B is also with monitoring performance data 14c7 and 14c9 with identical
Project, omit the description.In addition, the monitoring time interval of control device Type B is identical as control device A type and c-type, can also make
It is calculated with formula.
Referring again to Fig. 2, monitor that performance data 14c includes: the selectable network C C-Link in the design of monitoring system
Monitoring performance data 14c10, network Ethernet (registered trademark) monitoring performance data 14c11.
Fig. 7 is the figure of the example for the monitoring performance data for indicating that embodiment 1 is related to.The monitoring performance of network C C-Link
Data 14c10 includes: monitoring the project of data bulk, the project of communication time interval.
Monitoring data bulk is the number of the equipment in the multiple equipment of control device, forwarded from control device to server
Amount.Communication time interval is the time interval for the forwarding that network C C-Link carries out equipment.
Describing at the project of the monitoring data bulk of the row 14c10a of monitoring performance data 14c10 has "-", in communication
Between describe at the project that is spaced and have " 100ms ".
Therefore, network C C-Link independent of monitoring data bulk, using the time interval of " 100ms " to as monitoring pair
The equipment of elephant is forwarded.
In addition, if monitoring data bulk increases, then increase by the data volume of network C C-Link.Therefore, in monitoring number
There is the elongated relationship of communication time interval if monitoring data bulk increase between data bulk and communication time interval.
Therefore, monitoring performance data 14c10, which also may include, is respectively provided with communication corresponding with the monitoring value of data bulk
The multirow of time interval.
Monitor that performance data 14c10 either what the catalog specification based on network C C-Link created, is also possible to be based on
The measured value creation of the network C C-Link of real-world operation, it can also be set by user as parameter.
In addition, the communication time interval of network C C-Link can also use formula without using monitoring performance data 14c10
It calculates.As the formula that the communication time interval to network C C-Link is calculated, following formulas (5) are exemplified.
(communication time interval)=(monitoring data bulk) × H ... (5)
In formula (5), H is the positive constant being determined in advance.
Fig. 8 is the figure of the example for the monitoring performance data for indicating that embodiment 1 is related to.Network Ethernet (registered trademark)
Monitoring performance data 14c11 include: monitor the project of data bulk, the project of communication time interval.
Monitoring data bulk is the number of the equipment in the multiple equipment of control device, forwarded from control device to server
Amount.Communication time interval is the time interval for the forwarding that network Ethernet (registered trademark) carries out equipment.
Describing at the project of the monitoring data bulk of the row 14c11a of monitoring performance data 14c11 has "-", in communication
Between describe at the project that is spaced and have " 200ms ".
Therefore, network Ethernet (registered trademark) is independent of monitoring data bulk, with the time interval pair of " 200ms "
Equipment as supervision object is forwarded.
In addition, if monitoring data bulk increases, then the data volume Jing Guo network Ethernet (registered trademark) increases.Cause
, it is elongated to there is the communication time interval if monitoring data bulk increase between monitoring data bulk and communication time interval in this
Relationship.
Therefore, monitoring performance data 14c11, which also may include, is respectively provided with communication corresponding with the monitoring value of data bulk
The multirow of time interval.
Monitor performance data 14c11 either based on network Ethernet (registered trademark) catalog specification create,
It is also possible to the measured value creation of the network Ethernet (registered trademark) based on real-world operation, can also be made by user
It is set for parameter.
In addition, the communication time interval of network Ethernet (registered trademark) can also be without using monitoring performance data
14c11 and calculated using formula.As the formula that the communication time interval to network Ethernet (registered trademark) is calculated,
Exemplify following formulas (6).
(communication time interval)=(monitoring data bulk) × I ... (6)
In formula (6), I is the positive constant being determined in advance.
Referring again to Fig. 2, storage unit 14 includes threshold data 14d.
Fig. 9 is the figure of the example for the threshold data for indicating that embodiment 1 is related to.Threshold data 14d includes: the item of type
The project of mesh, value.Type indicates the determine object of monitoring performance.Value indicates to become the threshold value of the target of monitoring performance.
Describing at the project of the type of the row 14d1 of threshold data 14d has " entirety ", and describing at the project of value has
"1380ms".Therefore, system Design assistant device 1 by the monitoring to monitoring system entirety or draws whether time interval is less than
Or determined equal to 1380ms, so that the design to monitoring system assists.
Describing at the project of the type of the row 14d2 of threshold data 14d has " monitoring arrangement ", describes at the project of value
There is " 600ms ".Therefore, whether system Design assistant device 1 is less than or equal to by the drafting time interval to monitoring arrangement
600ms is determined, so that the design to monitoring system assists.
Describing at the project of the type of the row 14d3 of threshold data 14d has " server ", and describing at the project of value has
"400ms".Therefore, system Design assistant device 1 by the monitoring time interval to server whether be less than or equal to 400ms into
Row determines, so that the design to monitoring system assists.
Describing at the project of the type of the row 14d4 of threshold data 14d has " network ", and describing at the project of value has
"100ms".Therefore, system Design assistant device 1 is carried out by the way that whether the monitoring time interval to network is less than or equal to 100ms
Determine, so that the design to monitoring system assists.
Describing at the project of the type of the row 14d5 of threshold data 14d has " control device ", describes at the project of value
There is " 100ms ".Therefore, whether system Design assistant device 1 is less than or equal to by the monitoring time interval to control device
100ms is determined, so that the design to monitoring system assists.
Threshold data 14d, can also be with either based on the required value creation to the monitoring system as design object
It is set by user as parameter.
Referring again to Fig. 2, storage unit 14 stores improvement plan data 14e.Improvement plan data 14e includes: net
Network improvement plan data 14e1 describes the improvement plan in the case where having network to be bottleneck;Monitoring arrangement improvement plan data
14e2 describes the improvement plan in the case where having monitoring arrangement to be bottleneck;Server improvement plan data 14e3, description have
Server is the improvement plan in the case where bottleneck;And control device improvement plan data 14e4, description have control device
It is the improvement plan in the case where bottleneck.
Figure 10 is the figure of the example for the improvement plan data for indicating that embodiment 1 is related to.In network improvement plan data
Describing at the row 14e1a of 14e1 has " Ethernet (registered trademark) is changed to CC-Link ".In general, network C C-Link compares net
The communication time interval of network Ethernet (registered trademark) is short.Therefore, in the case where network is bottleneck, by by Ethernet
(registered trademark) is changed to CC-Link, so as to improve the monitoring performance of network.
Describing at the row 14e1b of network improvement plan data 14e1 has " dividing network ".If 1 network divided
For 2 networks, then the respective load reduction of network.Therefore, in the case where network is bottleneck, by the way that 1 network is divided into 2
A network, so as to improve the monitoring performance of network.
Describing at the row 14e1c of network improvement plan data 14e1 has " reducing monitoring data bulk ".If reduced
It monitors data bulk, is then reduced by the data of forwarded, therefore the load reduction of network.It therefore, is bottleneck in network
In the case of, data bulk is monitored by reducing, so as to improve the monitoring performance of network.
Figure 11 is the figure of the example for the improvement plan data for indicating that embodiment 1 is related to.In monitoring arrangement improvement plan number
There is " reducing drawing data quantity " according to describing at the row 14e2a of 14e2.If reducing drawing data quantity, monitoring arrangement
Load reduction.Therefore, in the case where monitoring arrangement is bottleneck, by reducing drawing data quantity, so as to improve monitoring
The monitoring performance of device.
Describing at the row 14e2b of monitoring arrangement improvement plan data 14e2 has " reducing monitoring data bulk ".If subtracted
Monitoring data bulk is lacked, then the load reduction of monitoring arrangement.Therefore, in the case where monitoring arrangement is bottleneck, pass through reduction
Data bulk is monitored, so as to improve the monitoring performance of monitoring arrangement.
Describing at the row 14e2c of monitoring arrangement improvement plan data 14e2 has " being set as 2 ".If monitoring arrangement set
It is 2, then the respective load reduction of monitoring arrangement.Therefore, in the case where monitoring arrangement is bottleneck, by the way that monitoring arrangement is set
It is 2, so as to improve the monitoring performance of monitoring arrangement.
In addition, server improvement plan data 14e3 also with network improvement plan data 14e1 and monitoring arrangement improvement plan
Data 14e2 is identical, in the case where server is bottleneck, describes the improvement plan for having the monitoring performance for improving server.
Control device improvement plan data 14e4 also with network improvement plan data 14e1 and monitoring arrangement improvement plan number
It is identical according to 14e2, in the case where control device is bottleneck, describe the improvement plan for having the monitoring performance for improving control device.
Referring again to Fig. 2, CPU 11 executes the system Design assistant program for being stored in storage unit 14.Hereby it is achieved that being
Unite Design assistant portion 11a.
System Design assistant portion 11a includes structure chart establishment portion 11a1, which is based on coming from user
Input, create the structure chart of monitoring system and be shown in display unit 16.
System Design assistant portion 11a includes that structural element monitors performance acquisition unit 11a2, and structural element monitoring performance takes
It obtains portion 11a2 and obtains the respective monitoring performance of multiple structural elements being configured in structure chart.
System Design assistant portion 11a includes whole monitoring performance acquisition unit 11a3, this integrally monitors performance acquisition unit 11a3
Based on the respective monitoring performance of multiple structural elements, the monitoring performance of monitoring system entirety is obtained.
System Design assistant portion 11a includes whole monitoring performance display unit 11a4, this integrally monitors performance display unit 11a4
The monitoring performance of monitoring system entirety is shown in display unit 16.
System Design assistant portion 11a includes bottleneck display unit 11a5, and the bottleneck display unit 11a5 is by conduct in monitoring system
It monitors that the structural element of the bottleneck of performance can be known with user and is shown in display unit 16 otherwise.
System Design assistant portion 11a includes improvement plan display unit 11a6, which is by monitoring
Improvement plan in system as the structural element of the bottleneck of monitoring performance is shown in display unit 16.
The movement of system Design assistant device 1 is illustrated.Figure 12 is to indicate that the system design that embodiment 1 is related to is auxiliary
Help the flow chart of the movement of device.
Structure chart establishment portion 11a1 in the step s 100, is based on input from the user, creates the structure chart of monitoring system.
Figure 13 is the figure of the system Design assistant picture for the system Design assistant device for indicating that embodiment 1 is related to.Structure
Structure chart creation region 16a and selection menu area 16b are shown in display unit 16 by figure establishment portion 11a1.
Structure chart establishment portion 11a1 is in selection menu area 16b, to structure selectable in the design of monitoring system
Element carries out enumerating display.User selects the row 16b1 for showing " A type " of monitoring arrangement by cursor of mouse 21, along arrow 22
It is pulled, so that the image 31 of monitoring arrangement A type is configured in structure chart creation region 16a.
Similarly, user by the image 32 of server B type, the image 33 of network C C-Link, control device A type image
34 and control device c-type image 35 be configured at structure chart creation region 16a in.Then, user is by the image of monitoring arrangement A type
31 are connect with the image 32 of server B type with line, and the image 32 of server B type and the image 33 of network C C-Link are connected with line
Connect, the image 33 of network C C-Link connect with the image 34 of control device A type with line, by the image 33 of network C C-Link with
The image 35 of control device c-type is connected with line.
Structure chart establishment portion 11a1 creates structure chart 41, which includes: the image 31 of monitoring arrangement A type, service
The image 32 of device Type B, the image 33 of network C C-Link, the image 34 of control device A type and control device c-type image 35.
Referring again to Figure 12, structural element monitors performance acquisition unit 11a2 in step s 102, obtains structural element respectively
Monitoring performance.
Figure 14 is the figure of the system Design assistant picture for the system Design assistant device for indicating that embodiment 1 is related to.
The image 34 of user's device for selection controlling A type specifies monitoring data bulk " 3000 " and program step number
"50000".If specifying monitoring data bulk " 3000 " and program step number " 50000 ", structural element monitors that performance obtains
Portion 11a2 will monitor data bulk " 3000 " and program step number " 50000 " as keyword, to the monitoring performance of control device A type
Data 14c7 is scanned for, and obtains monitoring time interval " 100ms ".
In addition it is also possible to replace to monitoring data bulk " 3000 " and program step number " 50000 " specify, but by with
Project data 14a is specified at family.If specifying project data 14a, structural element monitors performance acquisition unit 11a2 ginseng
According to control program 14a1, obtain program step number " 50000 ".In addition, if specifying project data 14a, structural element monitoring
Performance acquisition unit 11a2 obtains monitoring data bulk " 3000 " referring to device memory 14a3.Then, structural element monitors performance
Acquisition unit 11a2 will monitor that data bulk " 3000 " and program step number " 50000 " are used as keyword, the monitoring to control device A type
Performance data 14c7 is scanned for, and obtains monitoring time interval " 100ms ".
System Design assistant device 1 is able to suppress the workload of user as a result,.
The monitoring performance data 14c7 of control device A type is scanned for and obtains the monitoring time in addition it is also possible to replace
Interval, but between monitoring the monitoring time that performance acquisition unit 11a2 obtains control device A type using formula (3) by structural element
Every.
Structural element monitors performance acquisition unit 11a2 by the monitoring data bulk of control device A type, program step number and monitoring
The image 34a of time interval is shown near the image 34 of control device A type.
By the monitoring data bulk of control device A type, program step number and monitor that the image 34a of time interval is shown in control
The image 34 of device A type nearby refers to, with the distance between image 34a and image 34 than image 34a and other structural elements
The short mode of the distance between image 31,32,33 or 35 show image 34a.
User can readily recognize the monitoring data bulk of control device A type, program step number and between the monitoring time as a result,
Every.
In addition, the image 35 of user's device for selection controlling c-type, specifies monitoring data bulk " 2000 " and program step number
"20000".If specifying monitoring data bulk " 2000 " and program step number " 20000 ", structural element monitors that performance obtains
Portion 11a2 will monitor data bulk " 2000 " and program step number " 20000 " as keyword, to the monitoring performance of control device c-type
Data 14c9 is scanned for, and obtains monitoring time interval " 60ms ".
Monitoring data bulk " 2000 " and program step number " 20000 " are specified in addition it is also possible to replace, and by user
Project data 14b is specified.If specifying project data 14b, structural element monitors the 11a2 reference of performance acquisition unit
Program 14b1 is controlled, is obtained program step number " 20000 ".In addition, if specifying project data 14b, structural element monitoring property
Energy acquisition unit 11a2 obtains monitoring data bulk " 2000 " referring to device memory 14b3.Then, structural element monitoring performance takes
Obtaining portion 11a2 will monitor that data bulk " 2000 " and program step number " 20000 " are used as keyword, the monitoring to control device c-type
Energy data 14c9 is scanned for, and obtains monitoring time interval " 60ms ".
System Design assistant device 1 is able to suppress the workload of user as a result,.
The monitoring performance data 14c9 of control device c-type is scanned for and obtains the monitoring time in addition it is also possible to replace
Interval, and the monitoring time interval of control device c-type is obtained using formula (4) by structural element monitoring performance acquisition unit 11a2.
Structural element monitors performance acquisition unit 11a2 by the monitoring data bulk of control device c-type, program step number and monitoring
The image 35a of time interval is shown near the image 35 of control device c-type.
By the monitoring data bulk of control device c-type, program step number and monitor that the image 35a of time interval is shown in control
The image 35 of device c-type nearby refers to, with the distance between image 35a and image 35 than image 35a and other structural elements
The short mode of the distance between image 31,32,33 or 34 show image 35a.
User can readily recognize the monitoring data bulk of control device c-type, program step number and between the monitoring time as a result,
Every.
In addition, structural element monitoring performance acquisition unit 11a2 takes referring to the monitoring performance data 14c10 of network C C-Link
It obtains communication time interval " 100ms ".
The image 33a of the communication time interval of network C C-Link is shown in by structural element monitoring performance acquisition unit 11a2
Near the image 33 of network C C-Link.
It is nearby by the image 33a of the communication time interval of the network C C-Link image 33 for being shown in network C C-Link
Refer to, with the distance between image 33a and image 33 than between image 33a and the image 31,32,34 or 35 of other structural elements
The short mode of distance show image 33a.
User can readily recognize the communication time interval of network C C-Link as a result,.
In addition, user selects the image 32 of server B type, specify monitoring data bulk " 2000 ".If specifying prison
Depending on data bulk " 2000 ", then structural element monitoring performance acquisition unit 11a2 will monitor that data bulk " 2000 " are used as keyword,
The monitoring performance data 14c5 of server B type is scanned for, monitoring time interval " 400ms " is obtained.
In addition it is also possible to replace between the monitoring performance data 14c5 of server B type is scanned for and obtains the monitoring time
Every, and the monitoring time interval of server B type is obtained using formula (2) by structural element monitoring performance acquisition unit 11a2.
Structural element monitors performance acquisition unit 11a2 by the monitoring data bulk of server B type and the figure of monitoring time interval
As 32a is shown near the image 32 of server B type.
By the monitoring data bulk of server B type and monitor that the image 32a of time interval is shown in the image of server B type
32 nearby refer to, the image 31,33,34 with the distance between image 32a and image 32 than image 32a and other structural elements
Or the distance between 35 short mode show image 32a.
User can readily recognize the monitoring data bulk and monitoring time interval of server B type as a result,.
In addition, user selects the image 31 of monitoring arrangement A type, specify monitoring data bulk " 2000 " and drawing data number
It measures " 1000 ".If specifying monitoring data bulk " 2000 " and drawing data quantity " 1000 ", structural element monitors performance
Acquisition unit 11a2 will monitor data bulk " 2000 " and drawing data quantity " 1000 " as keyword, to monitoring arrangement A type
Monitoring performance data 14c1 is scanned for, and is obtained and is drawn time interval " 800ms ".
The monitoring performance data 14c1 of monitoring arrangement A type is scanned for and obtains and draws the time in addition it is also possible to replace
Interval, and the drafting time interval of monitoring arrangement A type is obtained using formula (1) by structural element monitoring performance acquisition unit 11a2.
Structural element monitor performance acquisition unit 11a2 by the drawing data quantity of monitoring arrangement A type, monitoring data bulk and
The image 31a for drawing time interval is shown near the image 31 of monitoring arrangement A type.
The image 31a of the drawing data quantity of monitoring arrangement A type, monitoring data bulk and drafting time interval is shown in
The image 31 of monitoring arrangement A type nearby refers to, with the distance between image 31a and image 31 than image 31a and other structures
The short mode of the distance between the image 32,33,34 or 35 of element shows image 31a.
When user can readily recognize drawing data quantity, monitoring data bulk and the drafting of monitoring arrangement A type as a result,
Between be spaced.
It is whole to monitor that performance acquisition unit 11a3 in step S104, obtains the prison of monitoring system entirety referring again to Figure 12
Depending on performance.In the embodiment 1, for the monitoring performance of monitoring system entirety, there are monitoring data via control device A
Type, network C C-Link, server B type and monitoring arrangement A type and the 1st path transmitted, and monitoring data are via control device C
Type, network C C-Link, server B type and monitoring arrangement A type and the 2nd path transmitted.
It is whole to monitor performance acquisition unit 11a3 by the monitoring time interval " 100ms " of control device A type, network C C-Link
Communication time interval " 100ms ", the monitoring time interval " 400ms " of server B type, between the drafting time of monitoring arrangement A type
It is added every " 800ms ", obtains the monitoring performance " 1400ms " in the 1st path.
Whole monitoring performance acquisition unit 11a3 is by the monitoring time interval " 60ms " of control device c-type, network C C-Link
Communication time interval " 100ms ", the monitoring time interval " 400ms " of server B type, the drafting time interval of monitoring arrangement A type
" 800ms " is added, and obtains the monitoring performance " 1360ms " in the 2nd path.
The monitoring performance of monitoring system entirety in step s 106, is shown in display by whole monitoring performance display unit 11a4
Portion 16.
In detail, whole monitoring performance display unit 11a4 will indicate the image 52 of the monitoring performance in the 1st path and indicate
The image 53 of the monitoring performance in the 2nd path is shown in structure chart creation region 16a.
User will appreciate that the rough monitoring performance of monitoring system in the design phase of monitoring system as a result,.Therefore, it is
System Design assistant device 1 is able to suppress actual implementation and goes out after monitoring system the problem of monitoring performance as target is not achieved.
At this point, whole monitoring performance display unit 11a4 is by the monitoring performance " 1400ms " in the 1st path with threshold data 14d's
Threshold value " 1380ms " in row 14d1 is compared, and the monitoring performance " 1400ms " in the 1st path has been more than the row of threshold data 14d
Threshold value " 1380ms " in 14d1, therefore the 1st path of display otherwise can be known with user.As what can be identified with user
Mode shows the 1st this way of path, exemplifies the structural element by the 1st path in structure chart 41 with red display.
User can easily identify the path of the monitoring less than foot-eye of performance as a result,.Therefore, system Design assistant fills
Setting 1 can be easy by the research and development transfiguration of the design of monitoring system.
Bottleneck display unit 11a5 can be known using user in step S108 and show that the structure as bottleneck is wanted otherwise
Element.
Bottleneck display unit 11a5 is by the row 14d5 of the monitoring time interval " 100ms " of control device A type and threshold data 14d
Interior threshold value " 100ms " is compared, and the monitoring time interval " 100ms " of control device A type is less than the row of threshold data 14d
Threshold value " 100ms " in 14d5, therefore, it is determined that not being bottleneck for control device A type.
Bottleneck display unit 11a5 is by the row 14d5 of the monitoring time interval " 60ms " of control device c-type and threshold data 14d
Interior threshold value " 100ms " is compared, and the monitoring time interval " 60ms " of control device c-type is less than the row of threshold data 14d
Threshold value " 100ms " in 14d5, therefore, it is determined that not being bottleneck for control device c-type.
Bottleneck display unit 11a5 is by the row 14d4 of the communication time interval " 100ms " of network C C-Link and threshold data 14d
Interior threshold value " 100ms " is compared, and the communication time interval " 100ms " of network C C-Link is less than the row of threshold data 14d
Threshold value " 100ms " in 14d4, therefore, it is determined that not being bottleneck for network C C-Link.
Bottleneck display unit 11a5 will be in the row 14d3 of the monitoring time interval " 400ms " of server B type and threshold data 14d
Threshold value " 400ms " be compared, the monitoring time interval " 400ms " of server B type is less than the row 14d3 of threshold data 14d
Interior threshold value " 400ms ", therefore, it is determined that not being bottleneck for server B type.
Bottleneck display unit 11a5 is by the row 14d2 of the drafting time interval " 800ms " of monitoring arrangement A type and threshold data 14d
Interior threshold value " 600ms " is compared, and the drafting time interval " 800ms " of monitoring arrangement A type is more than the row of threshold data 14d
Threshold value " 600ms " in 14d2, therefore, it is determined that being bottleneck for monitoring arrangement A type.
Therefore, bottleneck display unit 11a5 can be known using user shows the figure as the monitoring arrangement A type of bottleneck otherwise
As 31.As this way of the image 31 of Showing monitoring arrangement A type otherwise can be known with user, illustrated in structure chart 41
The image 31 of monitoring arrangement A type flashing is carried out with red out to show.
User can easily grasp the structural element as bottleneck as a result,.Therefore, system Design assistant device 1 can
The research and development transfiguration of the design of monitoring system is easy.
In addition it is also possible to be if multiple structural elements are more than threshold value, bottleneck display unit 11a5 will be more than threshold value
It is shown with the maximum structural element of difference of threshold value as bottleneck in multiple structural elements.
In addition, bottleneck display unit 11a5 determines whether each structural element is bottleneck and being compared with threshold value, but not
It is defined in this.Bottleneck display unit 11a5 can also will monitor or draw the maximum structural element of time interval and sentence in each structural element
It is set to bottleneck.
In step s 110, the structural element as bottleneck is shown referring again to Figure 12, improvement plan display unit 11a6
Improvement plan.
Improvement plan display unit 11a6 is determined as that monitoring arrangement A type is bottleneck in step S108, therefore shows to describe have
The content of the monitoring arrangement improvement plan data 14e2 of monitoring arrangement improvement plan.
Figure 15 is the figure of the system Design assistant picture for the system Design assistant device for indicating that embodiment 1 is related to.
The image 51 for indicating the content of monitoring arrangement improvement plan data 14e2 is shown in by improvement plan display unit 11a6
Near the image 31 of monitoring arrangement A type.
The image 51 for indicating the content of monitoring arrangement improvement plan data 14e2 is shown in the image 31 of monitoring arrangement A type
Nearby refer to, the image 32,33,34 or 35 with the distance between image 51 and image 31 than image 51 and other structural elements
The distance between short mode show image 51.
User can easily grasp the improvement plan of bottleneck as a result,.Therefore, system Design assistant device 1 can will supervise
The research and development transfiguration of the design of viewing system is easy.
As described above, the system Design assistant device 1 being related to according to embodiment 1, whole to monitoring system
Monitoring performance is shown.User will appreciate that the rough monitoring of monitoring system in the design phase of monitoring system as a result,
Energy.Therefore, system Design assistant device 1 is able to suppress after actual implementation goes out monitoring system, and the monitoring as target is not achieved
The problem of energy.
In addition, system Design assistant device 1 can know the structural element shown otherwise as bottleneck using user.By
This, user can easily grasp the structural element as bottleneck.Therefore, system Design assistant device 1 can be by monitoring system
Design research and development transfiguration it is easy.
In addition, for system Design assistant device 1, if replacing the specified of monitoring data bulk and program step number, and
The specified of project data is carried out to control device, then referring to appointed project data, obtains monitoring data bulk and program step
Number.System Design assistant device 1 is able to suppress the workload of user as a result,.
In addition, system Design assistant device 1 shows the improvement plan of bottleneck.User can easily grasp bottleneck as a result,
Improvement plan.Therefore, system Design assistant device 1 can be easy by the research and development transfiguration of the design of monitoring system.
Representation shown in above embodiment be the contents of the present invention an example, can either be with other public affairs
The technology known is combined, and can also be omitted, be become to a part of structure without departing from the spirit and scope of the invention
More.
The explanation of label
1 system Design assistant device, 11 CPU, 11a system Design assistant portion, 11a1 structure chart establishment portion, 11a2 structure
Element monitors performance acquisition unit, and 11a3 integrally monitors performance acquisition unit, and 11a4 integrally monitors that performance display unit, 11a5 bottleneck are shown
Portion, 11a6 improvement plan display unit, 14 storage units, 14a, 14b project data, 14c monitoring performance data, 14d threshold data,
14e improvement plan data.
Claims (7)
1. a kind of system Design assistant device, the monitoring that will be indicated by the time interval of the monitoring of data, drafting or communication
It can be used as index, the design of monitoring system is assisted,
Characterized by possessing
Structure chart establishment portion is created the structure chart of the monitoring system and is incited somebody to action based on the input from the user to input unit
The structure chart is shown in display unit;
Structural element monitors performance acquisition unit, obtains the respective monitoring of multiple structural elements being configured in the structure chart
Energy;
Whole monitoring performance acquisition unit, is based on the respective monitoring performance of the multiple structural element, obtains the monitoring system
Whole monitoring performance;And
Whole monitoring performance display unit, is shown in the display unit for the monitoring performance of the monitoring system entirety.
2. system according to claim 1 Design assistant device, which is characterized in that
The respective monitoring performance of the multiple structural element is shown in the display by the structural element monitoring performance acquisition unit
Portion.
3. system according to claim 1 Design assistant device, which is characterized in that
Also there is bottleneck display unit, which will become the structure of the bottleneck of monitoring performance in the monitoring system
Element can be known with user and be shown in the display unit otherwise.
4. system according to claim 1 Design assistant device, which is characterized in that
If being directed to the structural element by user, the control program comprising being executed by the structural element is specified and to described
Multiple working regions in the memory of structural element carry out the project data of defined device memory, then the structural element
It monitors that performance acquisition unit obtains program step number referring to the control program, obtains monitoring data number referring to the device memory
Amount is based on described program step number and the monitoring data bulk, obtains the monitoring performance of the structural element.
5. system according to claim 1 Design assistant device, which is characterized in that
Also there is improvement plan display unit, which will become the bottleneck of monitoring performance in the monitoring system
The improvement plan of the structural element be shown in the display unit.
6. a kind of system design aiding method, the monitoring that will be indicated by the time interval of the monitoring of data, drafting or communication
It can be used as index, the design of monitoring system is assisted,
Characterized by possessing
Structure chart foundation step, the input based on user create the structure chart of the monitoring system;
Structural element monitors performance obtaining step, obtains the respective monitoring of multiple structural elements being configured in the structure chart
Energy;
Whole monitoring performance obtaining step, is based on the respective monitoring performance of the multiple structural element, obtains the monitoring system
Whole monitoring performance;And
Whole monitoring performance shows step, and the monitoring performance of the monitoring system entirety is shown in display unit.
7. a kind of system Design assistant program is used for the prison that will be indicated by the time interval of the monitoring of data, drafting or communication
Depending on performance as index, the design of monitoring system is assisted,
It is characterized in that, executing computer:
Structure chart foundation step, the input based on user create the structure chart of the monitoring system;
Structural element monitors performance obtaining step, obtains the respective monitoring of multiple structural elements being configured in the structure chart
Energy;
Whole monitoring performance obtaining step, is based on the respective monitoring performance of the multiple structural element, obtains the monitoring system
Whole monitoring performance;And
Whole monitoring performance shows step, and the monitoring performance of the monitoring system entirety is shown in display unit.
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JP2014154070A (en) * | 2013-02-13 | 2014-08-25 | Mitsubishi Electric Corp | Plant control monitoring system design support tool |
CN104345662A (en) * | 2013-07-24 | 2015-02-11 | 横河电机株式会社 | Process control apparatus and system, and method for determining normality thereof |
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JP2014154070A (en) * | 2013-02-13 | 2014-08-25 | Mitsubishi Electric Corp | Plant control monitoring system design support tool |
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