CN106057008A - Dispatcher training simulation system based on real-time simulator and construction method - Google Patents
Dispatcher training simulation system based on real-time simulator and construction method Download PDFInfo
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Abstract
The invention discloses a dispatcher training simulation system based on a real-time simulator and a construction method. The dispatcher training simulation system includes a mirror image energy management subsystem, a dispatcher training simulation subsystem and a real-time simulator subsystem. The mirror energy management subsystem performs grid graphs, models, databases and real-time data synchronization in real time with an energy management system running in a dispatching center through a cross-site synchronization method; the dispatcher training simulation subsystem maps a power grid model to an RTDS grid model for teaching plan management, information exchange and comparative analysis; and the real-time simulator subsystem receives the control instructions issued by the dispatcher training simulation subsystem, and uploads transient steady-state simulation data to the dispatcher training simulation subsystem. The system improves the simulation accuracy of dispatcher training, achieves the requirement of a dispatcher understanding the power system transient change process, and improves the accident handling capacity of the dispatcher.
Description
Technical field
The invention belongs to technical field of power dispatching automation, be specifically related to a kind of dispatcher based on real-time simulator training
Instruction analogue system and building method.
Background technology
In existing dispatcher training system system, the artwork storehouse come based on actual EMS system image, can simulate and imitate
The various faults that true real power system is likely to occur, improve dispatcher's accident treatment energy.
Due to existing dispatcher training system system can not the various transient process of accurate simulation, dispatcher again in the urgent need to
Solve the temporal variations process of electrical network.RTDS (Real Time Digital Simulator, real-time digital simulator) can accurate mould
Intend transient state process of electric power system, by by tradition DTS (Dispatcher Training Simulator, dispatcher training system
System) and RTDS each advantage combine, dispatcher can be helped to understand electrical network temporal variations process, improve its process electrical network thing
Therefore ability.
Summary of the invention
In order to overcome the existing dispatcher training system system can not accurate simulation transient state process of electric power system and dispatcher
In the urgent need to understanding the contradiction of electric network fault transient change procedure, the present invention utilizes RTDS transient emulation advantage, it is provided that a kind of
Dispatcher training system system based on real-time simulator and building method.
Realizing above-mentioned technical purpose, reach above-mentioned technique effect, the present invention is achieved through the following technical solutions:
A kind of dispatcher training system system based on real-time simulator, including the mirror image energy management subsystem being sequentially connected with
System, dispatcher training system subsystem and real-time simulator subsystem;
Mirror image energy management subsystem: for by across on-the-spot synchronous method and the energy management system run in control centre
System carries out grid graph, model, data base and real-time data synchronization in real time;
Dispatcher training system subsystem: for electric network model being mapped to RTDS electric network model, generate model mapping table,
And carry out that teaching notes management, information is mutual and relative analysis;
Real-time simulator subsystem: for receiving the control instruction that dispatcher training system subsystem sends, according to control
Instruction carries out simulation calculation, and uploads temporary static Simulation data to dispatcher training system subsystem.
Described EMS belongs to on-the-spot one, and mirror image energy management subsystem belongs to on-the-spot two, and one with existing at the scene
Field two disposes two file server application modules respectively, by two file server application modules, it is achieved on-the-spot one to existing
Grid graph, model and the database synchronization of field two.
Described EMS belongs to on-the-spot one, and mirror image energy management subsystem belongs to on-the-spot two, and one with existing at the scene
Field two disposes two data message synchronous applications modules respectively, by two data message synchronous applications modules, it is achieved on-the-spot one
Real-time data of power grid to on-the-spot two synchronizes.
Described dispatcher training system subsystem includes: model mapping block, teaching notes management module, information interactive module and
Relative analysis module;Described model mapping block is used for the equivalent electric network model simplified according to actual electric network auto-building model,
And the equivalent electric network model simplified is manual association with the RTDS electric network model in real-time simulator subsystem, complete actual electricity
Pessimistic concurrency control maps between RTDS electric network model;Teaching notes management module is for after electrical network generation physical fault, electric network fault
Front section is selected in dispatcher training system subsystem, makes teaching notes according to actual electric network failure condition, relevant electrical network is set
Standby and measurement information is selected into teaching notes table, and arranges timing remote control, regularly remote regulating, logic control, logic remote regulating, nature of trouble, event
Barrier time of origin, trouble duration parameter, dispatcher training system subsystem automatically gives real-time simulator according to these parameters
Subsystem sends instruction, and teaching notes table can preserve and recycle;Information interactive module is information interactive interface;Relative analysis
WAMS data in the module wide area that actual electric network gathers when relative analysis is broken down monitoring WAMS system are with the most imitative
The temporary static Simulation data that true device subsystem is uploaded.
The control instruction that described real-time simulator subsystem receives includes: fault setting, timing remote control, regularly remote regulating, patrol
Collecting control, logic remote regulating instruction, real-time simulator subsystem is also equipped with net source coordination copying module, and Coordination Treatment net side is micro-
Second level real-time simulation and source Millisecond real-time simulation.
The building method of a kind of dispatcher training system system based on real-time simulator, comprises the following steps:
Step 1, foundation dispatcher training system system based on real-time simulator, including the mirror image energy pipe being sequentially connected with
Reason subsystem, dispatcher training system subsystem and real-time simulator subsystem;
Step 2, mirror image energy management subsystem are by across on-the-spot synchronous method and the energy management run in control centre
System carries out grid graph, model, data base and real-time data synchronization in real time;
Electric network model is mapped to RTDS model by step 3, dispatcher training system subsystem, generates model mapping table, and
Carry out that teaching notes management, information is mutual and relative analysis;
Step 4, real-time simulator subsystem receive the control instruction that dispatcher training system subsystem sends, according to control
Instruction carries out simulation calculation, and uploads temporary static Simulation data to dispatcher training system subsystem.
In described step 2, across on-the-spot synchronous method particularly as follows:
Described EMS belongs to on-the-spot one, and mirror image energy management subsystem belongs to on-the-spot two, and one with existing at the scene
Field two disposes two file server application modules respectively, by two file server application modules, it is achieved on-the-spot one to existing
Grid graph, model and the database synchronization of field two;
Described EMS belongs to on-the-spot one, and mirror image energy management subsystem belongs to on-the-spot two, and one with existing at the scene
Field two disposes two data message synchronous applications modules respectively, by two data message synchronous applications modules, it is achieved on-the-spot one
Real-time data of power grid to on-the-spot two synchronizes.
The building method of a kind of dispatcher training system system based on real-time simulator, before emulation starts, takes mirror image
Electric network model and data in energy management subsystem both can select the most disconnected as the initial section of training, initial section
Face, it is also possible to select Historic Section.
In described step 3, described electric network model is mapped to RTDS model, particularly as follows: automatic according to actual electric network model
Generate the equivalent electric network model simplified, and by the equivalent electric network model simplified and the RTDS electrical network mould in real-time simulator subsystem
Type is manual association, completes actual electric network model and maps between RTDS electric network model;The management of described teaching notes is particularly as follows: at electrical network
After there is physical fault, the section before electric network fault is selected in dispatcher training system subsystem, according to actual electric network fault
Situation makes teaching notes, relevant grid equipment and measurement information is selected into teaching notes table, and arranges timing remote control, regularly remote regulating, logic
Control, logic remote regulating, nature of trouble, time of failure, trouble duration parameter, dispatcher training system subsystem according to
These parameters send instruction to real-time simulation sub system automatically, and teaching notes table can preserve and recycle;Described information is mutual
Specifically by information interactive interface, transmission control instruction is to real-time simulator subsystem, and receives real-time simulator subsystem
The temporary static Simulation data uploaded;Described relative analysis particularly as follows: when relative analysis is broken down actual electric network gather wide area
WAMS data in monitoring WAMS system and the temporary static Simulation data uploaded of real-time simulator subsystem;Described transmission control refers to
The process of order is: the model that control instruction changes into RTDS according to model mapping table issues.
The control instruction that described real-time simulator subsystem receives includes: fault setting, timing remote control, regularly remote regulating, patrol
Collecting control, logic remote regulating instruction, real-time simulator subsystem is also equipped with net source coordination copying module, and Coordination Treatment net side is micro-
Second level real-time simulation and source Millisecond real-time simulation.
Beneficial effects of the present invention:
A kind of based on real-time simulator the dispatcher training system system of the present invention and building method, improve dispatcher
Simulated training accuracy, has reached dispatcher and has understood the requirement of electrical power system transient change procedure, improve at dispatcher's accident
Reason ability.
Accompanying drawing explanation
Fig. 1 is the dispatcher training system system structure schematic diagram based on real-time simulator of an embodiment of the present invention.
Fig. 2 is the flow chart of the building method of an embodiment of the present invention.
Detailed description of the invention
In order to make the purpose of the present invention, technical scheme and advantage clearer, below in conjunction with embodiment, to the present invention
It is further elaborated.Should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not used to
Limit the present invention.
Below in conjunction with the accompanying drawings the application principle of the present invention is explained in detail.
A kind of dispatcher training system system based on real-time simulator, including the mirror image energy management subsystem being sequentially connected with
System, dispatcher training system subsystem and real-time simulator subsystem;
Mirror image energy management subsystem: for by across on-the-spot synchronous method and the energy management system run in control centre
System carries out grid graph, model, data base and real-time data synchronization in real time, it is ensured that the verity of analogue system;
Dispatcher training system subsystem: for electric network model being mapped to RTDS electric network model, generate model mapping table,
Carry out that teaching notes management, information is mutual and relative analysis;
Real-time simulator subsystem: for receiving the control instruction that dispatcher training system subsystem sends, according to control
Instruction carries out simulation calculation, and uploads temporary static Simulation data to dispatcher training system subsystem.
Described EMS belongs to on-the-spot one, and mirror image energy management subsystem belongs to on-the-spot two, and one with existing at the scene
Field two disposes two file server application modules respectively, by two file server application modules, it is achieved on-the-spot one to existing
Grid graph, model and the database synchronization of field two.
Described EMS belongs to on-the-spot one, and mirror image energy management subsystem belongs to on-the-spot two, and one with existing at the scene
Field two disposes two data message synchronous applications modules respectively, by two data message synchronous applications modules, it is achieved on-the-spot one
Real-time data of power grid to on-the-spot two synchronizes.
Described dispatcher training system subsystem includes: model mapping block, teaching notes management module, information interactive module and
Relative analysis module;Described model mapping block is used for the equivalent electric network model simplified according to actual electric network auto-building model,
And the equivalent electric network model simplified is manual association with the RTDS electric network model in real-time simulator subsystem, complete actual electricity
Pessimistic concurrency control maps between RTDS electric network model;Teaching notes management module is used for: after electrical network generation physical fault, electric network fault
Front section is selected in dispatcher training system subsystem, makes teaching notes according to actual electric network failure condition, relevant electrical network is set
Standby and measurement information is selected into teaching notes table, and arranges timing remote control, regularly remote regulating, logic control, logic remote regulating, nature of trouble, event
The barrier parameter such as time of origin, trouble duration, dispatcher training system subsystem automatically gives real-time simulation according to these parameters
Subsystem sends instruction.Teaching notes table can preserve and recycle;Information interactive module is information interactive interface;Relative analysis
WAMS data in the module wide area that actual electric network gathers when relative analysis is broken down monitoring WAMS system are with the most imitative
The temporary static Simulation data that true device subsystem is uploaded.
The control instruction that described real-time simulator subsystem receives includes: fault setting, timing remote control, regularly remote regulating, patrol
Collecting control, logic remote regulating instruction, real-time simulator subsystem is also equipped with net source coordination copying module, and Coordination Treatment net side is micro-
Second level real-time simulation and source Millisecond real-time simulation.
The building method of a kind of dispatcher training system system based on real-time simulator, comprises the following steps:
Step 1, foundation dispatcher training system system based on real-time simulator, including the mirror image energy pipe being sequentially connected with
Reason subsystem, dispatcher training system subsystem and real-time simulator subsystem;
Step 2, mirror image energy management subsystem are by across on-the-spot synchronous method and the energy management run in control centre
System carries out grid graph, model, data base and real-time data synchronization in real time;
Electric network model is mapped to RTDS model by step 3, dispatcher training system subsystem, and carries out teaching notes management, letter
Cease mutual and relative analysis;
Step 4, real-time simulator subsystem receive the control instruction that dispatcher training system subsystem sends, according to control
Instruction carries out simulation calculation, and uploads temporary static Simulation data to dispatcher training system subsystem.
In described step 2, across on-the-spot synchronous method particularly as follows:
Described EMS belongs to on-the-spot one, and mirror image energy management subsystem belongs to on-the-spot two, and one with existing at the scene
Field two disposes two file server application modules respectively, by two file server application modules, it is achieved on-the-spot one to existing
Grid graph, model and the database synchronization of field two;
Described EMS belongs to on-the-spot one, and mirror image energy management subsystem belongs to on-the-spot two, and one with existing at the scene
Field two disposes two data message synchronous applications modules respectively, by two data message synchronous applications modules, it is achieved on-the-spot one
Real-time data of power grid to on-the-spot two synchronizes.
The building method of a kind of dispatcher training system system based on real-time simulator, before emulation starts, takes mirror image
Electric network model and data in energy management subsystem both can select the most disconnected as the initial section of training, initial section
Face, it is also possible to select Historic Section.Choose the section before real system fault, be used for emulating real system failure condition.When event
Section before barrier is consistent, and fault message arranges unanimously again, it is possible to reproduces failure process, carries out fault in-depth analysis.
In described step 3, described electric network model is mapped to RTDS model, particularly as follows: automatic according to actual electric network model
Generate the equivalent electric network model simplified, and by the equivalent electric network model simplified and the RTDS electrical network mould in real-time simulator subsystem
Type is manual association, completes actual electric network model and maps between RTDS electric network model;The management of described teaching notes is particularly as follows: at electrical network
After there is physical fault, the section before electric network fault is selected in dispatcher training system subsystem, according to actual electric network fault
Situation makes teaching notes, relevant grid equipment and measurement information is selected into teaching notes table, and arranges timing remote control, regularly remote regulating, logic
The parameters such as control, logic remote regulating, nature of trouble, time of failure, trouble duration, dispatcher training system subsystem root
Automatically instruction is sent to real-time simulation sub system according to these parameters.Teaching notes table can preserve and recycle.Described information is handed over
Mutually specifically by information interactive interface, transmission control instruction is to real-time simulator subsystem, and receives real-time simulator subsystem
The temporary static Simulation data that system is uploaded;Described relative analysis particularly as follows: when relative analysis is broken down actual electric network gather wide
WAMS data in territory monitoring WAMS system and the temporary static Simulation data uploaded of real-time simulator subsystem;Described transmission controls
The process of instruction is: according to model mapping table, the model that control instruction changes into RTDS issues, i.e. control instruction is at electrical network
Issue on model, after being converted to RTDS model according to this model mapping table, issue real-time simulation sub system again.
The control instruction that described real-time simulator subsystem receives includes: fault setting, timing remote control, regularly remote regulating, patrol
Collecting control, logic remote regulating instruction, real-time simulator subsystem is also equipped with net source coordination copying module, and Coordination Treatment net side is micro-
Second level real-time simulation and source Millisecond real-time simulation.
Embodiment one
Set up dispatcher training system system based on real-time simulator, including the mirror image energy management subsystem being sequentially connected with
System (MEMS subsystem), dispatcher training system subsystem (DTS subsystem) and real-time simulator subsystem (RDTS subsystem);
Mirror image energy management subsystem (MEMS subsystem) is by the energy run with control centre across on-the-spot synchronous method
Management system (EMS system) carries out figure, model and database synchronization in real time, it is ensured that the verity of analogue system.In EMS system
The scene one and MEMS subsystem institute at system place two disposes two file server application at the scene respectively, and on-the-spot two monitor scene
The file change message packet that one file server sends, after receiving message, is updated by FTP mode immediately according to message content
Local file, thus ensure that grid graph and the mold sync of on-the-spot to on-the-spot two.Scene one He at EMS system place
MEMS subsystem institute two disposes two data message synchronous applications at the scene respectively, and on-the-spot two monitor an on-the-spot data message synchronizes
The data variation message packet that application sends, after receiving message, updates local data base immediately according to message content.Except this it
Outward, on-the-spot two also can synchronize to on-the-spot full model of request in timing every day, thus ensure that the figure of on-the-spot to on-the-spot two
Shape, model and real-time data synchronization.
DTS subsystem mainly has model to map, teaching notes management, information are mutual and the function such as relative analysis.Start in emulation
Before, take the electric network model in MEMS subsystem and data and both can select the most in real time as the initial section of training, initial section
Section, it is also possible to select Historic Section.After emulation starts, DTS subsystem automatically generates the equivalent electricity of simplification according to actual electric network
Pessimistic concurrency control, multiple stage electromotor equivalent one-tenth one automatically, double-circuit line equivalent one-tenth single line automatically, with simplifying equivalent electric network model
It is manual association with the model in RTDS, completes actual electric network model and map between RTDS electric network model.At DTS subsystem
In, possess the functions such as electric network fault, timing remote control, regularly remote regulating, logic control, logic remote regulating are set.These operations are in tradition
Can be sent to DTS in DTS and emulate preposition process, in the present invention, these operations can change into RTDS's according to model mapping table
Model issues, and after RTDS receives these orders, can carry out simulation calculation, and simulation result is uploaded in real time DTS subsystem
System, can the simulation calculation process of Real Time Observation RTDS in DTS subsystem.After electrical network generation physical fault, can be electrical network event
Section before barrier is selected in DTS subsystem, makes teaching notes according to actual electric network failure condition, and DTS subsystem can according to teaching notes certainly
Move and send fault or divide-shut brake order to RTDS subsystem, thus simulate the failure process of true electrical network, after emulation terminates, can be right
The wide area monitoring WAMS system data and the RTDS that gather than actual electric network when analyzing fault emulate Temporal Data.
In an embodiment of the present invention, RTDS subsystem is also equipped with net source coordination copying, can be with Coordination Treatment
Net side Microsecond grade real-time simulation and source Millisecond real-time simulation, improve simulation accuracy.
The ultimate principle of the present invention and principal character and advantages of the present invention have more than been shown and described.The technology of the industry
Personnel, it should be appreciated that the present invention is not restricted to the described embodiments, simply illustrating this described in above-described embodiment and description
The principle of invention, without departing from the spirit and scope of the present invention, the present invention also has various changes and modifications, and these become
Change and improvement both falls within scope of the claimed invention.Claimed scope by appending claims and
Equivalent defines.
Claims (10)
1. a dispatcher training system system based on real-time simulator, it is characterised in that: include the mirror image energy being sequentially connected with
Buret reason subsystem, dispatcher training system subsystem and real-time simulator subsystem;
Mirror image energy management subsystem: for by real with the EMS run in control centre across on-the-spot synchronous method
Shi Jinhang grid graph, model, data base and real-time data synchronization;
Dispatcher training system subsystem: for electric network model being mapped to RTDS electric network model, generating model mapping table, going forward side by side
Row teaching notes manage, information is mutual and relative analysis;
Real-time simulator subsystem: for receiving the control instruction that dispatcher training system subsystem sends, according to control instruction
Carry out simulation calculation, and upload temporary static Simulation data to dispatcher training system subsystem.
A kind of dispatcher training system system based on real-time simulator the most according to claim 1, it is characterised in that: institute
Stating EMS and belong to on-the-spot one, mirror image energy management subsystem belongs to on-the-spot two, and at the scene one and on-the-spot two difference portions
Affix one's name to two file server application modules, by two file server application modules, it is achieved the electrical network of on-the-spot to on-the-spot two
Figure, model and database synchronization.
A kind of dispatcher training system system based on real-time simulator the most according to claim 2, it is characterised in that: institute
Stating EMS and belong to on-the-spot one, mirror image energy management subsystem belongs to on-the-spot two, and at the scene one and on-the-spot two difference portions
Affix one's name to two data message synchronous applications modules, by two data message synchronous applications modules, it is achieved on-the-spot one to on-the-spot two
Real-time data of power grid synchronizes.
A kind of dispatcher training system system based on real-time simulator the most according to claim 1, it is characterised in that: institute
State dispatcher training system subsystem to include: model mapping block, teaching notes management module, information interactive module and relative analysis mould
Block;Described model mapping block is used for the equivalent electric network model simplified according to actual electric network auto-building model, and by simplification
Equivalent electric network model is manual association with the RTDS electric network model in real-time simulator subsystem, completes actual electric network model and arrives
Map between RTDS electric network model;Teaching notes management module is for after electrical network generation physical fault, the section before electric network fault
It is selected in dispatcher training system subsystem, makes teaching notes according to actual electric network failure condition, relevant grid equipment and measurement
Information is selected into teaching notes table, and when timing remote control, regularly remote regulating, logic control, logic remote regulating, nature of trouble, fault generation are set
Between, trouble duration parameter, dispatcher training system subsystem according to these parameters automatically give real-time simulator subsystem send out
Send instruction, teaching notes table can to preserve and recycle;Information interactive module is information interactive interface;Relative analysis module is used for
WAMS data in the wide area monitoring WAMS system that when relative analysis is broken down, actual electric network gathers and real-time simulator subsystem
The temporary static Simulation data that system is uploaded.
A kind of dispatcher training system system based on real-time simulator the most according to claim 1, it is characterised in that: institute
The control instruction stating the reception of real-time simulator subsystem includes: fault setting, timing remote control, regularly remote regulating, logic control, logic
Remote regulating instructs, and real-time simulator subsystem is also equipped with net source coordination copying module, and Coordination Treatment net side Microsecond grade is imitated in real time
True and source Millisecond real-time simulation.
The building method of a kind of dispatcher training system system based on real-time simulator the most according to claim 1, its
It is characterised by, comprises the following steps:
Step 1, foundation dispatcher training system system based on real-time simulator, including mirror image energy management being sequentially connected with
System, dispatcher training system subsystem and real-time simulator subsystem;
Step 2, mirror image energy management subsystem are by across on-the-spot synchronous method and the EMS run in control centre
Carry out grid graph, model, data base and real-time data synchronization in real time;
Electric network model is mapped to RTDS model by step 3, dispatcher training system subsystem, generates model mapping table, and carries out
Teaching notes manage, information is mutual and relative analysis;
Step 4, real-time simulator subsystem receive the control instruction that dispatcher training system subsystem sends, according to control instruction
Carry out simulation calculation, and upload temporary static Simulation data to dispatcher training system subsystem.
The building method of a kind of dispatcher training system system based on real-time simulator the most according to claim 6, its
Be characterised by, in described step 2, across on-the-spot synchronous method particularly as follows:
Described EMS belongs to on-the-spot one, and mirror image energy management subsystem belongs to on-the-spot two, and at the scene one and on-the-spot two
Dispose two file server application modules respectively, by two file server application modules, it is achieved on-the-spot one to on-the-spot two
Grid graph, model and database synchronization;
Described EMS belongs to on-the-spot one, and mirror image energy management subsystem belongs to on-the-spot two, and at the scene one and on-the-spot two
Dispose two data message synchronous applications modules respectively, by two data message synchronous applications modules, it is achieved on-the-spot one to existing
The real-time data of power grid of field two synchronizes.
The building method of a kind of dispatcher training system system based on real-time simulator the most according to claim 1, its
Be characterised by, before emulation starts, take the electric network model in mirror image energy management subsystem and data as train initial section,
Initial section both can select current section in real time, it is also possible to selects Historic Section.
The building method of a kind of dispatcher training system system based on real-time simulator the most according to claim 8, its
It is characterised by, in described step 3, described electric network model is mapped to RTDS model, particularly as follows: automatic according to actual electric network model
Generate the equivalent electric network model simplified, and by the equivalent electric network model simplified and the RTDS electrical network mould in real-time simulator subsystem
Type is manual association, completes actual electric network model and maps between RTDS electric network model;The management of described teaching notes is particularly as follows: at electrical network
After there is physical fault, the section before electric network fault is selected in dispatcher training system subsystem, according to actual electric network fault
Situation makes teaching notes, relevant grid equipment and measurement information is selected into teaching notes table, and arranges timing remote control, regularly remote regulating, logic
Control, logic remote regulating, nature of trouble, time of failure, trouble duration parameter, dispatcher training system subsystem according to
These parameters send instruction to real-time simulation sub system automatically, and teaching notes table can preserve and recycle;Described information is mutual
Specifically by information interactive interface, transmission control instruction is to real-time simulator subsystem, and receives real-time simulator subsystem
The temporary static Simulation data uploaded;Described relative analysis particularly as follows: when relative analysis is broken down actual electric network gather wide area
WAMS data in monitoring WAMS system and the temporary static Simulation data uploaded of real-time simulator subsystem;Described transmission control refers to
The process of order is: the model that control instruction changes into RTDS according to model mapping table issues.
The building method of a kind of dispatcher training system system based on real-time simulator the most according to claim 9, its
Being characterised by, the control instruction that described real-time simulator subsystem receives includes: fault setting, timing remote control, regularly remote regulating, patrol
Collecting control, logic remote regulating instruction, real-time simulator subsystem is also equipped with net source coordination copying module, and Coordination Treatment net side is micro-
Second level real-time simulation and source Millisecond real-time simulation.
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Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107038286A (en) * | 2017-03-22 | 2017-08-11 | 南方电网科学研究院有限责任公司 | Power grid simulation method and device |
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Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102184209A (en) * | 2011-04-29 | 2011-09-14 | 中国电力科学研究院 | Simulation data accessing method based on power grid CIM (Common Information Model) interface |
CN103676670A (en) * | 2013-12-13 | 2014-03-26 | 华北电力大学 | Source-network coordinating combination real-time simulation system and data transmission method based on RTDS |
CN104616572A (en) * | 2015-01-08 | 2015-05-13 | 中国南方电网有限责任公司电网技术研究中心 | Alternating current-direct current power grid operating characteristic display system and display method based on RTDS real-time digital simulation |
CN105139712A (en) * | 2015-09-15 | 2015-12-09 | 中国南方电网有限责任公司电网技术研究中心 | On-line dispatcher training simulator based on real-time simulation and method thereof. |
JP2016001280A (en) * | 2014-06-12 | 2016-01-07 | 株式会社東芝 | Power system training simulator device |
CN105321397A (en) * | 2014-08-05 | 2016-02-10 | 国家电网公司 | Simulation method, device and system |
-
2016
- 2016-06-28 CN CN201610490242.2A patent/CN106057008B/en active Active
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102184209A (en) * | 2011-04-29 | 2011-09-14 | 中国电力科学研究院 | Simulation data accessing method based on power grid CIM (Common Information Model) interface |
CN103676670A (en) * | 2013-12-13 | 2014-03-26 | 华北电力大学 | Source-network coordinating combination real-time simulation system and data transmission method based on RTDS |
JP2016001280A (en) * | 2014-06-12 | 2016-01-07 | 株式会社東芝 | Power system training simulator device |
CN105321397A (en) * | 2014-08-05 | 2016-02-10 | 国家电网公司 | Simulation method, device and system |
CN104616572A (en) * | 2015-01-08 | 2015-05-13 | 中国南方电网有限责任公司电网技术研究中心 | Alternating current-direct current power grid operating characteristic display system and display method based on RTDS real-time digital simulation |
CN105139712A (en) * | 2015-09-15 | 2015-12-09 | 中国南方电网有限责任公司电网技术研究中心 | On-line dispatcher training simulator based on real-time simulation and method thereof. |
Cited By (17)
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---|---|---|---|---|
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CN109542977B (en) * | 2018-10-29 | 2023-04-28 | 国网新疆电力有限公司昌吉供电公司 | Future state distribution network graph data processing method based on IEC standard |
CN109523859A (en) * | 2018-12-19 | 2019-03-26 | 南京南瑞继保电气有限公司 | A kind of track traffic synthetic monitoring mixing Training Simulation System and method |
CN109523859B (en) * | 2018-12-19 | 2021-08-27 | 南京南瑞继保电气有限公司 | Track traffic comprehensive monitoring hybrid training simulation system and method |
CN110288866A (en) * | 2019-05-23 | 2019-09-27 | 国网山东省电力公司临沂供电公司 | A kind of dispatch data net simulation training system and method |
WO2020259149A1 (en) * | 2019-06-26 | 2020-12-30 | 中兴通讯股份有限公司 | System and method for implementing incremental data comparison |
CN112231324A (en) * | 2019-06-26 | 2021-01-15 | 中兴通讯股份有限公司 | System and method for realizing incremental data comparison |
US11941023B2 (en) | 2019-06-26 | 2024-03-26 | Zte Corporation | System and method for implementing incremental data comparison |
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CN112381427A (en) * | 2020-11-18 | 2021-02-19 | 中国南方电网有限责任公司 | Scheduling data interaction anti-error method based on multi-source data intercommunication |
CN112527256A (en) * | 2020-12-16 | 2021-03-19 | 北京中水科水电科技开发有限公司 | Integrated hydropower station model development system and method |
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