CN102622268A - Power generation dispatching multi-Agent visualization system and method - Google Patents

Abstract

The invention discloses a power generation dispatching multi-Agent visualization system and a power generation dispatching multi-Agent visualization method. The system is characterized in that: a power generation dispatching processing graph and a control for a multi-Agent system are displayed in a uniform interface by employing Visual Graph software, and prompt is given in a mode of immediately updating data. According to the power generation dispatching multi-Agent visualization system, a power generation dispatching system manufactured by the power generation dispatching multi-Agent visualization method is characterized in that: a generator set, general dispatching calculation and the power generation dispatching multi-Agent system are represented by controls with corresponding names and are represented in a dispatching computer through the Visual Graph software. The system is low in manufacturing cost, dispatching personnel can conveniently and intuitively know an operating state of the current Agent, and an operating state of the system is known and analyzed further.

Description

The visualization system of power generation dispatching multi-Agent and method for visualizing thereof

Technical field

The present invention relates to a kind of visualization processing technical field, be specifically related to a kind of visualization system and method for visualizing thereof of power generation dispatching multi-Agent.

Background technology

Electrical network is basic industry and the PW that are related to economic life line of the country; The key period that the development of modern power network has welcome opportunities and challenges and deposited; Electrical network need be tackled environment and the resource pressure that grows with each passing day at present; Face simultaneously and answer power system reform, in addition, the distribution of a series of technology such as generating, information, power transmission and distribution and also be problem to be solved comprehensively.

Therefore, intelligent grid becomes the inevitable choice of modern electric power industry, and the having flexibly of intelligent grid, cleaning, safety, economy and close friend etc. are a plurality of a bit.Energy-conservation generating intelligent scheduling then is to realize intelligent grid the key link; Yet; The energy-saving power generation dispatching design content is extensive; The mathematical model that the combination of unit under this pattern is appeared is the problem of the nonlinear optimization of multiple goal, multi-period, multiple constraint, traditional mathematic optimization method and the system that is difficult to handle complicacy like this.Therefore, Agent system is theoretical has opened up new way for addressing the above problem, and Agent system is the intelligent body of agent-oriention programming, and adaptivity is that Agent is different from the notable feature of " object " in the traditional program.

The inventor has delivered paper " energy-saving power generation dispatching plan multi-Agent is formulated the system " (electric power network technique about Agent system in May, 2011; Article numbering: 1000-3673 (2011) 05-0090-07); The feasibility of Agent system The Theory Construction power generation dispatching plan multi-Agent formulation system set forth in article; And interactive collaboration between the passing through of power generation dispatching Agent system, can formulate the high-quality dispatch command jointly to reach the energy-conservation notional result of power generation dispatching.This article has been established theoretical foundation for the present invention.

Yet; Working condition in present intelligent grid power generation dispatching Agent system; And data variation; All be that " secret " carries out in server, the dispatcher need go into the working condition that server just can be checked the Agent system through editor's fingering, and this just need provide the method for a kind of " visual " to show the course of work of energy-saving power generation dispatching plan multi-Agent in the intelligent grid and the content of each Agent information interaction.

Summary of the invention

The objective of the invention is to; A kind of visualization system of power generation dispatching multi-Agent is provided; Can be so that the dispatcher can observe the working condition of current Agent more convenient, intuitively; And then can understand and analyze the state that total system is moved, and help the integral body of power generation dispatching plan adjustment content is held, make electrical network more intelligence, safer and more stable operation.

Scheme of the present invention is through such realization: a kind of visualization system of power generation dispatching multi-Agent; Comprise genset; Total activation calculates Agent; The power generation dispatching Agent system, server and dispatching are equipped with Visual Graph software in the dispatching; Said genset comprises separate wind-powered electricity generation unit, fired power generating unit, Hydropower Unit, photovoltaic generation unit and nuclear power generating sets; Said power generation dispatching Agent system comprises separate total load Management Agent and genset Agent, and said genset Agent comprises separate wind-powered electricity generation unit Agent, fired power generating unit Agent, Hydropower Unit Agent, photovoltaic generation unit Agent and nuclear power generating sets Agent, and said power generation dispatching Agent system is arranged in the server; Said genset is connected with server through transmission medium, and the genset information transmitted is dispensed among each Agent of server power generation dispatching Agent system:

(1) visual interface of said Visual Graph software is provided with the total activation calculating Agent control that the expression total activation calculates Agent; Power generation dispatching Agent system control is represented the power generation dispatching Agent system, wherein, and each Agent in each control faithful representation power generation dispatching Agent system in the power generation dispatching Agent system control;

(2) each Agent is provided with independently webpage of correspondence separately in the said power generation dispatching Agent system in server, and each control in the power generation dispatching Agent system control is provided with the corresponding independently webpage of Agent institute of its expression and links; For example, fired power generating unit Agent is provided with independently webpage of correspondence in server, and fired power generating unit Agent control and this webpage are provided with linking relationship;

(3) said total activation calculates between Agent control and the power generation dispatching Agent system control and has drawn the annexation topology with line segment; Through annexation topology, can see that total activation calculates the related of Agent and power generation dispatching Agent system data variation from the visual interface of Visual Graph software intuitively;

(4) said annexation topology line segment is provided with the variable characters control that is used to reflect power generation dispatching Agent system data variation; This variable characters control is used to reflect the data variation of each Agent; Size according to data variation shows different identification colors simultaneously; For example, the information of before its corresponding webpage refreshes, receiving when total load Management Agent control is: load value is 100MW, and this moment, total load Management Agent control was after its corresponding webpage refreshes; The information of receiving is: load value 120MW, then total activation calculates and being connected of Agent control and total load Management Agent control shows on the line segment that load value changes 20MW.

The above power generation dispatching Agent system control comprises total load Management Agent control and genset Agent control.

Above-described genset Agent control comprises separate wind-powered electricity generation unit Agent control, fired power generating unit Agent control, Hydropower Unit Agent control, photovoltaic generation unit Agent control and nuclear power generating sets Agent control.

The above total activation calculates the Agent control and power generation dispatching Agent system control comprises the identification title; The identification picture; The data presentation window, for example wind-powered electricity generation unit control lower end is inserted with the synoptic diagram and the data presentation window of wind-powered electricity generation unit with identification name wind-powered electricity generation unit in the control; Can make things convenient for the dispatcher intuitively and easily to identify each control like this, and observe the data variation of the corresponding A gent of institute through control.

But the above data presentation window comprises column diagram and variable value; But the instant data that its pairing Agent received are reflected through column diagram and variable value; For example; Exerting oneself that fired power generating unit Agent control is received immediately is 120W, and then column diagram demonstrates the represented numerical value height of 120W in its interface, but the numerical value that the while variable value reflects is 120W.

The corresponding separate webpage of each Agent all has independently network address in the above power generation dispatching Agent system, and each control webpage pairing with it mainly set up with the network address of webpage through the geturl () function in the Visual Graph software and linked.

The visual interface of above-described said Visual Graph software is provided with timer; Set the refresh time of timer; Make that geturl () function can the whole visual interface of periodic refresh, make each control to show the up-to-date data that receive of corresponding webpage according to refresh time.Timer triggers the once geturl function of each control according to update time, and each geturl () function becomes the web data interface through the network address with correspondence, sends http and asks server end; Server end uses servlet to accept the HTTP request; And this request message sent to corresponding Agent, and obtain data from this Agent, return server; Server turns back to the pairing webpage of Agent with data, and data finally can turn back in the Visual Graph visualization interface.

Above-described variable characters control is provided with the corresponding webpage of control that line segment connected of its below and links; For example; Wind-powered electricity generation unit control is connected line segment with total activation calculating Agent and is provided with the variable characters control; Its corresponding webpage with wind-powered electricity generation unit control is provided with and links, and reflects the latest data and the variation thereof of this webpage.

The visualization system principle of work of power generation dispatching multi-Agent is following: change and originally adopt many interfaces to show that the power house goes out the mode of activity of force and power generation dispatching Agent system operational data; Then on Visual Graph software visual interface, represent that with control total activation calculates each Agent in Agent and the power generation dispatching Agent system; Draw out its annexation topology through line segment again; Maintenance data display window or variable characters control are expressed genset and are fed back to the data variation in the power generation dispatching Agent system in control, on the line segment; Let the dispatcher can get more information about the duty of current Agent; And then the state of understanding and analytic system operation, strengthen assurance to power generation dispatching plan adjustment content.

Among the present invention, the method for visualizing of the visualization system of power generation dispatching multi-Agent, this method may further comprise the steps:

Step 1: in Visual Graph software, represent respectively that with control total activation calculates each Agent in Agent and the power generation dispatching Agent system; And below control, insert corresponding identification title according to institute's corresponding A gent title; In control, insert the identification picture of expression corresponding A gent, in each Agent of power generation dispatching Agent system, insert the data presentation window;

Insert the data presentation window; Step is following: in Visual Graph software, click the file option; In drop-down menu, select to open picture library subsequently; Click vg/lib/ watch-dog .tbl; Click Vindicator at last, Vindicator is column diagram, and its insertion genset control and total load Management Agent control inside are got final product;

Step 2: represent that with line segment total activation calculates annexation topology between Agent control and the power generation dispatching Agent system control, and the variable characters control is set on line segment;

Step 3: on server, each Agent in the power generation dispatching Agent system is provided with independently webpage of correspondence, and each webpage is provided with independently network address; For example, the total load Management Agent is set up independent webpage, its network address is: http://localhost:8080/myagent/DispatchServlet action=load;

Step 4: in the visual interface of said Visual Graph software, each control all inserts geturl () function; Through geturl () function the corresponding webpage network address of Agent institute of each control and its expression is set up and link, simultaneously, the variable characters control also set up with the corresponding webpage of control that line segment connected below it link; For example: the address of supposing total load Management Agent control is: http://localhost:8080/myagent/DispatchServlet action=load, and then the web data interface is:

Load=val(geturl(http://localhost:8080/myagent/DispatchServlet?action=load)；

Each geturl () function becomes the web data interface through the network address with correspondence; Send http and ask server end, server end uses servlet to accept the HTTP request, and this request message is sent to corresponding Agent; Obtain data from this Agent; Return server, server turns back to the pairing webpage of Agent with data, and data finally can turn back in the Visual Graph visualization interface.Wherein the meaning of the val () of function is: with the information translation of bracket the inside is that numerical value extracts;

Step 5: in the visual interface of Visual Graph software, insert timer, timer and each geturl () function are connected.For example, total load Management Agent network address is:

http://localhost:8080/myagent/DispatchServlet?action=load；

Timer setting-up time on the webpage is 1 second, and then timer is every at a distance from 1 second refreshed web page data, the web data interface promptly:

Load=val(geturl(http://localhost:8080/myagent/DispatchServlet?action=load)；

Per 1 second of total load Management Agent control reception information from the total load Management Agent all then.

Genset in the above step 1; Total activation calculates Agent and representes through identical and/or difform control with the power generation dispatching Agent system; For example, the genset control can be represented by the rectangle control, and the power generation dispatching Agent system adopts circular control to represent.

It is following that preset web page address described in the above step 3 is provided with form: main frame+port numbers+service routine file+Servlet title+"? transmit variable name=variate-value, for example the address of total load Management Agent control is:

Http:// localhost:8080/myagent/DispatchServlet action=load; Http wherein: // be Hostname, localhost:8080 is a port numbers, myagent is the service routine file; DispatchServlet is the servlet title, and action=Load is a variate-value.

The visualization system of power generation dispatching multi-Agent of the present invention and method for visualizing thereof, outstanding substantive distinguishing features and obvious improvement are:

(1) in the existing power generation dispatching system, therefore the operating state data of Agent is kept in the server; When each checks the delta data of each Agent, must squeeze into corresponding order, get in the server and just can check; And among the present invention, each Agent and genset are exerted oneself and all are presented in the Visual Graph software visualization interface through control, and in the interface; Be provided with the data presentation window and the variable characters control of instant playback, make to come into plain view when the dispatcher checks data.

(2) total activation calculates the annexation topology that marks with line segment between Agent control and the power generation dispatching multi-Agent control; Data presentation window in the control, and the variable characters control on the line segment can reflect the data variation of each Agent clearly; In addition; The variable characters control can adopt different colours to represent according to the size of data variation amount, can reach the duty that the traffic control personnel can understand current Agent more convenient, intuitively with caution, and then the state of understanding and analytic system operation; Reinforcement makes electrical network more intelligence, the safer more aim of stable operation that reaches to the assurance of power generation dispatching plan adjustment content.

(3) cost of manufacture of the present invention is low, only need adopt Visual Graph that each Agent in the server is coupled together, and representes to locate out total activation with control and calculate Agent and power generation dispatching multi-Agent and data variation thereof, and interpolation linking relationship topology gets final product.

Description of drawings

Fig. 1 is the synoptic diagram of visualization interface of the visualization system of power generation dispatching multi-Agent of the present invention;

Fig. 2 is the synoptic diagram of Visual Graph visualization interface during 3:00 among the embodiment 1;

Fig. 3 is the synoptic diagram of Visual Graph visualization interface during 3:01 among the embodiment 1;

Fig. 4 is the synoptic diagram of Visual Graph visualization interface during 5:00 among the embodiment 2;

Fig. 5 is the synoptic diagram of Visual Graph visualization interface during 5:01 among the embodiment 2.

Embodiment

Below in conjunction with accompanying drawing principle of work of the present invention is described:

The visualization system of power generation dispatching multi-Agent comprises genset, and total activation calculates Agent; The power generation dispatching Agent system; Server, dispatching is equipped with Visual Graph software in the dispatching; Said genset comprises separate wind-powered electricity generation unit, fired power generating unit, Hydropower Unit, photovoltaic generation unit and nuclear power generating sets, and said power generation dispatching Agent system comprises separate total load Management Agent and genset Agent; Said genset Agent comprises separate wind-powered electricity generation unit Agent, fired power generating unit Agent, Hydropower Unit Agent, photovoltaic generation unit Agent and nuclear power generating sets Agent, and these Agent are stored in the server.As shown in Figure 1; In Visual Graph software visualization interface; Wind-powered electricity generation unit Agent, fired power generating unit Agent, Hydropower Unit Agent, photovoltaic generation unit Agent and nuclear power generating sets Agent represent with the rectangle control respectively; With the identification title of each genset Agent of band table, with the identification figure picture of representing each genset, these controls are generically and collectively referred to as genset Agent control to each control in the control down; Total load Management Agent and total activation calculate Agent and also represent with the rectangle control that has title; And under this control with corresponding identification title; Be provided with corresponding identification picture in the control, these controls are called total load Management Agent control respectively and total activation calculates the Agent control.Wherein, Total load Management Agent control and genset Agent control are generically and collectively referred to as power generation dispatching Agent system control; Each control all is provided with the data presentation window in the power generation dispatching Agent system control; But the data presentation window comprises column diagram and variable value, and it is used to reflect the data situation of this control.Total activation calculates between Agent control and the power generation dispatching Agent system control and has drawn the annexation topology with line segment; Annexation topology line segment is provided with the variable characters control that is used to reflect power generation dispatching Agent system data variation; This variable characters control refreshes preceding data through contrasting corresponding webpage, demonstrates the difference of 2 refresh datas.

In server, each control of power generation dispatching Agent system all is provided with independently webpage of correspondence, and each webpage all is provided with independently network address; In the visual interface of Visual Graph software, each control all is provided with geturl () function; The Agent of each control through geturl () function and its expression corresponding webpage network address set up link the variable characters control also set up with the corresponding webpage of control that line segment was connected below it and link; The foundation rule of web page address is as follows: main frame+port numbers+service routine file+Servlet title+"? transmit variable name=variate-value, for example the address of total load Management Agent control is:

Http:// localhost:8080/myagent/DispatchServlet action=load; Http wherein: // be Hostname; Localhost:8080 is a port numbers, and myagent is the service routine file, and DispatchServlet is the servlet title; Action=Load is a variate-value, in the visual interface of Visual Graph software, is provided with timer.

During use, through transmitting cable server is connected with dispatching respectively at connecting genset, the generator unit is with among each corresponding Agent of information transmission to server; And be kept in the pairing webpage of Agent, and information is transferred to total activation calculating Agent again, after calculating through total activation calculating Agent; Information feedback after calculating is returned corresponding Agent; Information transmission after Agent will calculate again is to genset, the operation of adjustment genset, for example fired power generating unit with the generated output information transmission to fired power generating unit Agent; And remain in the webpage of fired power generating unit Agent; And information be sent to total activation calculate among the Agent, after the information via total activation of exerting oneself calculates Agent and calculates, again with information feedback to fired power generating unit Agent; To calculate good information feedback to genset again by fired power generating unit Agent at last, adjustment firepower group of motors is exerted oneself.Wherein, When genset is kept at the webpage of each Agent correspondence with information; Geturl () function in each control can regularly connect the pairing webpage of control according to the time of setting in the timer; Obtain up-to-date information, and show in data presentation window and the variable characters space, describe below in conjunction with example:

Embodiment 1:

Be 3:00 the start-up time of system, and the address of the web page address that fired power generating unit Agent is corresponding is:

Http:// localhost:8080/myagent/DispatchServlet action=thermal-1, it is 1 second that the timer in the webpage is set refresh time; It is 40MW that the fired power generating unit that fired power generating unit Agent 3:00 receives goes out force information, and it is 50MW that the fired power generating unit that 3:01 receives goes out force information.As shown in Figure 2, during 3:00, the numerical value that the data presentation window on the fired power generating unit Agent control shows is 40MW, and the variable characters control of the line segment top that is connected with fired power generating unit Agent control does not show any information;

As shown in Figure 3, timer refreshes at 3:01, and the geturl () function in the fired power generating unit Agent control sends the request of receiving information to server, and geturl () function becomes the web data interface through the network address with correspondence, that is:

thermal=val(geturl(http://localhost:8080/myagent/DispatchServlet?action=thermal-1)；

Geturl () sends http and asks server end, and server end uses servlet to accept the HTTP request, and this request message is sent to fired power generating unit Agent; Obtain data from this Agent; Return server, server turns back to the pairing webpage of fired power generating unit Agent with data, and data finally can turn back in the Visual Graph visualization interface; As shown in Figure 3; Then data presented is 50MW on the data presentation window on the fired power generating unit Agent control, and the variable characters control data presented of the line segment top that is connected with fired power generating unit Agent control is: fired power generating unit is exerted oneself and is 50MW, additional issue 10MW.

Embodiment 2:

Be 5:00 the start-up time of system, and the address of the web page address that wind-powered electricity generation unit Agent is corresponding is:

Http:// localhost:8080/myagent/DispatchServlet action=wind, it is 1 second that the timer in the webpage is set refresh time; The wind-powered electricity generation unit output information that wind-powered electricity generation unit Agent 5:00 receives is 80MW, and the wind-powered electricity generation unit output information that 5:01 receives is 100MW.As shown in Figure 4, during 5:00, the numerical value that the data presentation window on the wind-powered electricity generation unit Agent control shows is 80MW, and the variable characters control of the line segment top that is connected with wind-powered electricity generation unit Agent control does not show any information;

As shown in Figure 5, timer refreshes at 5:01, and the geturl () function in the wind-powered electricity generation unit Agent control sends the request of receiving information to server, and geturl () function becomes the web data interface through the network address with correspondence, that is:

wind=val?(geturl(http://localhost:8080/myagent/DispatchServlet?action=wind)；

Geturl () sends http and asks server end, and server end uses servlet to accept the HTTP request, and this request message is sent to wind-powered electricity generation unit Agent; Obtain data from this Agent; Return server, server turns back to the pairing webpage of wind-powered electricity generation unit Agent with data, and data finally can turn back in the Visual Graph visualization interface; As shown in Figure 5; Then data presented is 100MW on the data presentation window on the wind-powered electricity generation unit Agent control, and the variable characters control data presented of the line segment top that is connected with wind-powered electricity generation unit Agent control is: the wind-powered electricity generation unit output is 100MW, additional issue 20MW.

Claims (10)

1. the visualization system of a power generation dispatching multi-Agent; Comprise genset; Total activation calculates Agent; The power generation dispatching Agent system, server and dispatching are equipped with Visual Graph software in the dispatching; Said genset comprises separate wind-powered electricity generation unit, fired power generating unit, Hydropower Unit, photovoltaic generation unit and nuclear power generating sets; Said power generation dispatching Agent system comprises separate total load Management Agent and genset Agent, and said genset Agent comprises separate wind-powered electricity generation unit Agent, fired power generating unit Agent, Hydropower Unit Agent, photovoltaic generation unit Agent and nuclear power generating sets Agent, and said power generation dispatching Agent system is arranged in the server; Said genset is connected with server through transmission medium, and the genset information transmitted is dispensed among each Agent of server power generation dispatching Agent system; It is characterized in that,

(1) visual interface of said Visual Graph software is provided with the total activation calculating Agent control that the expression total activation calculates Agent; Power generation dispatching Agent system control is represented the power generation dispatching Agent system, wherein, and each Agent in each control faithful representation power generation dispatching Agent system in the power generation dispatching Agent system control;

(2) each Agent is provided with independently webpage of correspondence separately in the said power generation dispatching Agent system in server, and each control in the power generation dispatching Agent system control is provided with the corresponding independently webpage of Agent institute of its expression and links;

(3) said total activation calculates between Agent control and the power generation dispatching Agent system control and has drawn the annexation topology with line segment;

(4) said annexation topology line segment is provided with the variable characters control that is used to reflect power generation dispatching Agent system data variation.

2. the visualization system of power generation dispatching multi-Agent according to claim 1 is characterized in that, said power generation dispatching Agent system control comprises total load Management Agent control and genset Agent control.

3. the visualization system of power generation dispatching multi-Agent according to claim 2; It is characterized in that; Described genset Agent control comprises separate wind-powered electricity generation unit Agent control, fired power generating unit Agent control, Hydropower Unit Agent control, photovoltaic generation unit Agent control and nuclear power generating sets Agent control.

4. the visualization system of power generation dispatching multi-Agent according to claim 1 is characterized in that, said total activation calculates the Agent control and power generation dispatching Agent system control comprises the identification title, identification picture, data presentation window.

5. the visualization system of power generation dispatching multi-Agent according to claim 4, but said data presentation window comprises column diagram and variable value.

6. according to the visualization system of the said power generation dispatching multi-Agent of claim 1, it is characterized in that the corresponding separate webpage of each Agent all has independently network address in the said power generation dispatching Agent system.

7. according to the visualization system of the said power generation dispatching multi-Agent of claim 1, it is characterized in that the visual interface of described said Visual Graph software is provided with timer.

8. according to the visualization system of the said power generation dispatching multi-Agent of claim 1, it is characterized in that described variable characters control is provided with the corresponding webpage of control that line segment connected of its below and links.

9. according to the method for visualizing of the visualization system of the described a kind of power generation dispatching multi-Agent of claim 1-8, its characteristics are that this method may further comprise the steps:

Step 1: in Visual Graph software, represent respectively that with control total activation calculates each Agent in Agent and the power generation dispatching Agent system; And below control, insert corresponding identification title according to institute's corresponding A gent title; In control, insert the identification picture of expression corresponding A gent, in each Agent of power generation dispatching Agent system, insert the data presentation window;

Step 2: represent that with line segment total activation calculates annexation topology between Agent control and the power generation dispatching Agent system control, and the variable characters control is set on line segment;

Step 3: on server, each Agent in the power generation dispatching Agent system is provided with independently webpage of correspondence, and each webpage is provided with independently network address;

Step 4: in the visual interface of said Visual Graph software, each control all inserts geturl () function; Through geturl () function the corresponding webpage network address of Agent institute of each control and its expression is set up and link, simultaneously, the variable characters control also set up with the corresponding webpage of control that line segment connected below it link;

Step 5: in the visual interface of Visual Graph software, insert timer, timer and each geturl () function are connected.

10. according to the method for visualizing of the visualization system of the said power generation dispatching multi-Agent of claim 9; It is characterized in that; Genset described in the step 1, total activation calculate Agent and represent through identical and/or difform control with the power generation dispatching Agent system; It is following that preset web page address described in the said step 3 is provided with form: main frame+port numbers+service routine file+Servlet title+"? " Transmit variable name=variate-value.

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