CN103837796A - Transmission line malfunction visualized report method and system based on Web and GIS - Google Patents

Abstract

The invention discloses a transmission line malfunction visualized report method and system based on a Web and a GIS. The system comprises a web server side (1), a switch (2) and a client side (3). The web server side (1) is used for acquiring transmission line malfunction information, locating a malfunction to a specific tower, and providing Web services by combining a satellite map. The switch (2) is used for enabling the web server side (1) and the client side (3) to be connected. The client side (3) is used for visualized displaying of the transmission line malfunction. After electric transmission lines of a power grid break down, the system is triggered to work, the Web service side locates the malfunction tower position and generates an XML file after malfunction information computational analysis, and provides Web services to the client side (3) to carry out visualized displaying of the malfunction information. According to the transmission line malfunction visualized report method and system based on the Web and the GIS, the transmission line malfunction information is displayed visually in real time, the visual cognition degree of power transmission network malfunctions is improved, the capacities that power enterprise personnel display important information in a large amount of power system data and monitor the states of the power grid can be improved, and the reliability of the system is guaranteed.

Description

The visual report method of a kind of transmission line malfunction based on Web and GIS and system

Technical field:

The present invention relates to a kind of visual report method and system, relate in particular to the visual report method of a kind of transmission line malfunction based on Web and GIS and system.

Background technology:

Visual (Visualization) is the new technology occurring along with technical development of computer, that some numerous and diverse words are become to figure and image intuitively with data-switching, help people to understand visually the implication of data or process, so that the essence of physical process, it is supplementing and promoting of data or literal expression.Information visualization is exactly to utilize computing machine visual representation that support, mutual, to abstract data, strengthens the cognition of people to these non-physics abstracted informations.Electric network information is visual is power science and multi-disciplinary the intersections and extension such as computer technology, Geomatics, ergonomics, is expansion and the development trend of power system dispatching automation technique.At other field, visual in widespread attention and develop rapidly, and be limited in the visual application of transmission line malfunction.

Traditional data visualization is realized by following several modes mostly: (1) is shown the data that gather or process with forms such as chart, curve map, histograms.(2) adopt the form of animation to represent that (3) adopt different colours to express different running statuses.

But these limited method for visualizing cannot meet yardman's accurate needs of controlling operation of power networks status information in real time.

Summary of the invention:

The object of the invention is to overcome the deficiency of above-mentioned prior art and provide one intuitively to show in real time transmission line malfunction information, improve the cognition degree directly perceived of power transmission network fault, improve electric power enterprise personnel and in a large amount of electric power system datas, represent important information, monitor the ability of electric network state, guarantee the visual report method of the transmission line malfunction based on Web and GIS and the system of system reliability.

Object of the present invention can reach by following measure: the visual reporting chain of a kind of transmission line malfunction based on Web and GIS, it comprise obtain transmission line malfunction information and localization of fault to concrete shaft tower, the Web service end of Web service is provided in conjunction with satellite map; For connecting the switch of Web service end and client; For the client of transmission line malfunction visual presentation; Web service end and client are all connected to switch by netting twine;

Web service end comprises transmission line malfunction information source module, Geographic Information System (GIS) module, transmission line of electricity MBM, fault information analysis module, Visualization Service module, database module; Fault information analysis module connects transmission line malfunction information source module, Visualization Service module and database module; Visualization Service module connects Geographic Information System (GIS) module and database module; Transmission line of electricity MBM connects Geographic Information System (GIS) module and database module;

Transmission line malfunction information source module receives the transmission line malfunction information of storage from transmission line malfunction positioning system, comprise: distance, fault-time, the fault type of transmission line of electricity name, affiliated transformer station, the trouble spot affiliated transformer station of distance are the sources of failure message in fault visual circular process;

Geographic Information System (GIS) module is that system adopts the source of geographical map, the raster data of satellite photo that source is different, function is different and the vector data of shaft tower circuit is made to map sliced form and be distributed to Visualization Service module and call;

Transmission line of electricity MBM comprises power supply area modeling and the large function of electric power line pole tower modeling two; Power supply area modeling is the scope that this electric company's power supply is provided in the satellite map providing in Geographic Information System (GIS) module, is generally administrative region; Electric power line pole tower modeling part is to utilize electric power line pole tower latitude and longitude coordinates to carry out circuit modeling, after importing, coordinate data can generate corresponding XML file, store database module into simultaneously, data in XML are for indicating the whole piece transmission line of electricity under shaft tower with eye-catching color setting-out, and the shaft tower coordinate in database module calculates for fault information analysis module the location of deriving;

The failure message that fault information analysis module is used transmission line malfunction information source module to provide is saved in the shaft tower coordinate information in database module in conjunction with transmission line of electricity MBM, calculating derives orients fault shaft tower, and generate relevant geographic model XML data file and be saved in database module module, supply with Visualization Service module and call; In XML file, comprise: time, faulty line name, fault type, range information, shaft tower numbering;

Visualization Service module provides Web service to carry out web access for client, according to the difference of its request msg, call function that Geographic Information System (GIS) module, transmission line of electricity MBM, fault information analysis module, database module provide or the file of generation, supply with client and check GIS map, the service of localization of fault information display, also provide query history fault data, (power supply area, the electric power line pole tower) function that judged whether system setting simultaneously;

The transmission line tower coordinate data that database module imports for storing transmission line of electricity MBM, go back the generation XML file after the computational analysis of storage failure information analysis module in addition;

Web service end, for the processing that collects of resultant fault visual information, provides Web service, the up-to-date transmission line malfunction information that its inner fault information analysis module provides according to transmission line malfunction information source module (comprising: transmission line of electricity name, affiliated transformer station, the distance of the trouble spot affiliated transformer station of distance, fault-time, fault type), while calling again the modeling of transmission line of electricity MBM, be saved in the shaft tower coordinate information in database module, on the satellite map after deriving as calculated, localization of fault being provided to Geographic Information System (GIS) module, and show fault shaft tower with eye-catching mark in satellite map, go out whole piece transmission line of electricity and the transformer station under shaft tower by eye-catching color setting-out or graphic, the fault diagnosis of Visualization Service module proactive notification client is circulated a notice of in real time program module and is opened IE browser, and access specific web page interlinkage, the Web service that uses Visualization Service module to provide, carry out visual presentation failure message at IE browser window,

Client comprises that IE browser, fault diagnosis circulate a notice of program module in real time, for the access to Web service end; IE browser and fault diagnosis in real time circular program are connected;

IE browser is for conducting interviews to the Web providing of Web service end, shows geographical satellite map and the failure message of (as: special time period, transmission line of electricity) demonstration transmission line of electricity on request in IE browser window;

Fault diagnosis is circulated a notice of program module in real time, after for the Visualization Service module proactive notification at Web service end, it has fault to show, independently open IE browser, and access specific web page interlinkage, the Web service that uses Web service end to provide, carries out fault visual displaying at IE browser window, mainly comprises: satellite map, circuit and two ends transformer station under fault, and trouble spot place shows the information window of detailed trouble information.

The visual report method of a kind of electric network fault based on Web and GIS, it is characterized in that grid power transmission circuit break down after triggering system work, Web service end is after failure message computational analysis, orient fault shaft tower position and generate XML file, Web service is provided, supply with client and carry out visual presentation electric network fault information, it comprises following concrete steps:

Step 1, client open and login system after, system determines whether to use first system; If use first, carry out step 2; Step 3 is carried out in non-use first;

Step 2, power supply area and transmission line of electricity modeling: in previous step, use if be judged as first, point out user to carry out power supply area and transmission line of electricity modelling operability; Power supply area scope is exactly generally the administrative region at this electric company place; Transmission line of electricity modeling is that the latitude and longitude coordinates of transmission line of electricity two ends transformer station and all electric force pole towers of transmission line of electricity is imported in database, and generate corresponding XML file, data in XML are for indicating the whole piece transmission line of electricity under shaft tower with eye-catching color setting-out, shaft tower coordinate in database calculates for fault information analysis the location of deriving, and after power supply area and transmission line of electricity modeling complete, carries out step 3;

Step 3, failure message monitoring: Real-Time Monitoring failure message and the inquiry of historical data;

Real-Time Monitoring failure message, whether monitoring has transmission line malfunction information in failure message source;

The inquiry of historical data, with after login system, system can automatic enquiry of historical data, and half an hour before inquiry current time, whether (setup times arbitrarily), had failure message;

Failure message refers to distance, fault-time, the fault type of transmission line of electricity name, affiliated transformer station, the trouble spot affiliated transformer station of distance,

Above two kinds of situations are: do not have fault data to continue to wait for, regularly inquiry, finds that fault data carries out step 4;

Step 4, circuit model call: in Query Database, whether have the circuit model data (shaft tower coordinate) of this faulty line, if any carrying out next step;

Step 5, fault analysis: according to the circuit model data (shaft tower coordinate) of transmission line malfunction distance (trouble spot is apart from transformer station) and transmission line of electricity, calculate trouble spot, specific to being supreme at which shaft tower; Derivation computing method: the shaft tower coordinate in cyclic query database, 2 latitude and longitude coordinates of each inquiry are calculated apart from cumulative and are compared with fault distance, if stopped when accumulated value is more than or equal to fault distance, and get previous or current shaft tower coordinate data generation failure message XML data file, while showing model generation, load this XML file and show map;

Step 6, displaying model generation: call geographical map information and failure message XML data file in Geographic Information System (GIS), generated data model XML file, offers Visualization Service and call;

Step 7, client visibleization are shown: Visualization Service function is pushed to client positioning result, client IE browser is opened particular webpage link, IE browser window carries out fault visual displaying, mainly comprise: satellite map, circuit and two ends transformer station under fault, and the information window of trouble spot place demonstration detailed trouble information, information window comprises mainly and comprises: comprising: distance, fault-time, the fault type of transmission line of electricity name, affiliated transformer station, the trouble spot affiliated transformer station of distance.

The present invention can produce following good effect compared with the prior art: the present invention is directed to grid power transmission circuit feature, simultaneously in conjunction with guilty culprit place on line, adopt the different painted transmission line malfunction information that shows.Adopt Web, GIS(Geographic Information System) etc. technology between the service end being connected and client, realizes displaying transmission line malfunction information directly perceived in real time, improved the cognition degree directly perceived of power transmission network fault.Its tool has the following advantages:

Intuitive, the most important performance that utilizes electronic geographic map visualization is exactly that it has directly perceived, vivid feature.

Visual query, is mainly by visual query language, realizes the query manipulation that data-base content and associated figure, table are carried out to imagery, visualize.The result of inquiry not only comprises data, also comprises figure, form or the word of associated imagery.

New visualization technique can be used to improve electric power enterprise personnel and in a large amount of electric power system datas, represents important information, monitors the ability of electric network state, guarantees system reliability.

Accompanying drawing explanation:

Fig. 1 is the structural representation of the visual reporting chain of transmission line malfunction based on Web and GIS of the present invention;

Fig. 2 is workflow diagram of the present invention.

Embodiment: the specific embodiment of the present invention is elaborated below in conjunction with accompanying drawing:

Embodiment: the visual reporting chain of a kind of transmission line malfunction based on Web and GIS (referring to Fig. 1), it comprise obtain transmission line malfunction information and localization of fault to concrete shaft tower, the Web service end 1 of Web service is provided in conjunction with satellite map; For connecting the switch 2 of Web service end 1 and client 3; For the client 3 of transmission line malfunction visual presentation; Web service end 1 and client 3 are all connected to switch 2 by netting twine.

Web service end 1 comprises transmission line malfunction information source module 1-1, Geographic Information System (GIS) module 1-2, transmission line of electricity MBM 1-3, fault information analysis module 1-4, Visualization Service module 1-5, database module 1-6.Fault information analysis module 1-4 connects transmission line malfunction information source module 1-1, Visualization Service module 1-5 and database module 1-6; Visualization Service module 1-5 connects Geographic Information System (GIS) module 1-2 and database module 1-6; Transmission line of electricity MBM 1-3 connects Geographic Information System (GIS) module 1-2 and database module 1-6.

Transmission line malfunction information source module 1-1 is connected with existing transmission line malfunction positioning system, receive the transmission line malfunction information of storage from transmission line malfunction positioning system, receive and store transmission line malfunction information, comprise: distance, fault-time, the fault type of transmission line of electricity name, affiliated transformer station, the trouble spot affiliated transformer station of distance are the sources of failure message in fault visual circular process.

Geographic Information System (GIS) module 1-2 is that system adopts the source of geographical map, the raster data of satellite photo that source is different, function is different and the vector data of shaft tower circuit is made to map sliced form and be distributed to Visualization Service module 1-5 and call.

Transmission line of electricity MBM 1-3 comprises power supply area modeling and the large function of electric power line pole tower modeling two; Power supply area modeling is the scope that this electric company's power supply is provided in the satellite map providing at Geographic Information System (GIS) module 1-2, is generally administrative region; Electric power line pole tower modeling part is to utilize electric power line pole tower latitude and longitude coordinates to carry out circuit modeling, after importing, coordinate data can generate corresponding XML file, store database module 1-6 into simultaneously, data in XML are for indicating the whole piece transmission line of electricity under shaft tower with eye-catching color setting-out, and the shaft tower coordinate in database module 1-6 calculates for fault information analysis module 1-4 the location of deriving.

The failure message that fault information analysis module 1-4 uses transmission line malfunction information source module 1-1 to provide is saved in the shaft tower coordinate information in database module 1-6 in conjunction with transmission line of electricity MBM 1-3, calculating derives orients fault shaft tower, and generate relevant geographic model XML data file and be saved in database module 1-6 module, supply with Visualization Service module 1-5 and call; In XML file, comprise: time, faulty line name, fault type, range information, shaft tower numbering.

Visualization Service module 1-5, provide Web service to carry out web access for client 3, according to the difference of its request msg, call function that Geographic Information System (GIS) module 1-2, transmission line of electricity MBM 1-3, fault information analysis module 1-4, database module 1-6 provide or the file of generation, supply with client 3 and check GIS map, the service of localization of fault information display, also provide query history fault data, the functions such as (power supply area, electric power line pole towers) that judged whether system setting simultaneously.

The transmission line tower coordinate data that database module 1-6 imports for storing transmission line of electricity MBM 1-3, go back the generation XML file after storage failure information analysis module 1-4 computational analysis in addition.

Web service end 1, for the processing that collects of resultant fault visual information, provides Web service.The up-to-date transmission line malfunction information that its inner fault information analysis module 1-4 provides according to transmission line malfunction information source module 1-1 (comprising: transmission line of electricity name, affiliated transformer station, the distance of the trouble spot affiliated transformer station of distance, fault-time, fault type), while calling again transmission line of electricity MBM 1-3 modeling, be saved in the shaft tower coordinate information in database module 1-6, on the satellite map after deriving as calculated, localization of fault being provided to Geographic Information System (GIS) module 1-2, and show fault shaft tower with eye-catching mark in satellite map, go out whole piece transmission line of electricity and the transformer station under shaft tower by eye-catching color setting-out or graphic, the fault diagnosis of Visualization Service module 1-5 proactive notification client 3 is circulated a notice of in real time program module 3-2 and is opened IE browser 3-1, and access specific web page interlinkage, the Web service that uses Visualization Service module 1-5 to provide, carry out visual presentation failure message at IE browser 3-1 window.

Client 3 comprises that IE browser 3-1, fault diagnosis circulate a notice of program module 3-2 in real time, for the access to Web service end 1.IE browser 3-1 with-be connected.

IE browser 3-1 is for conducting interviews to the Web providing of Web service end 1, shows geographical satellite map and the failure message of (as: special time period, transmission line of electricity) demonstration transmission line of electricity on request in IE browser 3-1 window;

Fault diagnosis is circulated a notice of program module 3-2 in real time, for after in the Visualization Service module 1-5 of Web service end 1 proactive notification, it has fault to show, independently open IE browser 3-1, and access specific web page interlinkage, the Web service that uses Web service end 1 to provide, carries out fault visual displaying at IE browser 3-1 window, mainly comprises: satellite map, circuit and two ends transformer station under fault, and trouble spot place shows the information window of detailed trouble information.

The visual report method of a kind of electric network fault based on Web and GIS, triggering system work after grid power transmission circuit breaks down, Web service end is after failure message computational analysis, orient fault shaft tower position and generate XML file, Web service is provided, supplies with client and carry out visual presentation electric network fault information.Comprise following concrete steps (referring to Fig. 2):

Step 1, client open and login system after, system determines whether to use first system; If use first, carry out step 2; Step 3 is carried out in non-use first;

Step 2, power supply area and transmission line of electricity modeling: in previous step, use if be judged as first, point out user to carry out power supply area and transmission line of electricity modelling operability.Power supply area scope is exactly generally the administrative region at this electric company place.Transmission line of electricity modeling is that the latitude and longitude coordinates of transmission line of electricity two ends transformer station and all electric force pole towers of transmission line of electricity is imported in database, and generate corresponding XML file, data in XML are for indicating the whole piece transmission line of electricity under shaft tower with eye-catching color setting-out, shaft tower coordinate in database calculates for fault information analysis the location of deriving, and after power supply area and transmission line of electricity modeling complete, carries out step 3;

Step 3, failure message monitoring: Real-Time Monitoring failure message and the inquiry of historical data;

Real-Time Monitoring failure message, whether monitoring has transmission line malfunction information in failure message source.

The inquiry of historical data, with after login system, system can automatic enquiry of historical data, and half an hour before inquiry current time, whether (setup times arbitrarily), had failure message.

Failure message refers to distance, fault-time, the fault type of transmission line of electricity name, affiliated transformer station, the trouble spot affiliated transformer station of distance,

Above two kinds of situations are: do not have fault data to continue to wait for, regularly inquiry, finds that fault data carries out step 4;

Step 4, circuit model call: in Query Database, whether have the circuit model data (shaft tower coordinate) of this faulty line, if any carrying out next step.

Step 5, fault analysis: according to the circuit model data (shaft tower coordinate) of transmission line malfunction distance (trouble spot is apart from transformer station) and transmission line of electricity, calculate trouble spot, specific to being supreme at which shaft tower.Derivation computing method: the shaft tower coordinate in cyclic query database, 2 latitude and longitude coordinates of each inquiry are calculated apart from cumulative and are compared with fault distance, if stopped when accumulated value is more than or equal to fault distance, and get previous or current shaft tower coordinate data generation failure message XML data file, while showing model generation, load this XML file and show map.

Step 6, displaying model generation: call geographical map information and failure message XML data file in Geographic Information System (GIS), generated data model XML file, offers Visualization Service and call.

Step 7, client visibleization are shown: Visualization Service function is pushed to client positioning result, client IE browser is opened particular webpage link, IE browser window carries out fault visual displaying, mainly comprise: satellite map, circuit and two ends transformer station under fault, and the information window of trouble spot place demonstration detailed trouble information, information window comprises mainly and comprises: comprising: distance, fault-time, the fault type of transmission line of electricity name, affiliated transformer station, the trouble spot affiliated transformer station of distance.

Above-described is only preferred embodiment of the present invention, can not limit with this interest field of the present invention.

Claims (2)

1. the visual reporting chain of the transmission line malfunction based on Web and GIS, it comprise obtain transmission line malfunction information and localization of fault to concrete shaft tower, the Web service end (1) of Web service is provided in conjunction with satellite map; Be used for connecting the switch (2) of Web service end (1) and client (3); For the client (3) of transmission line malfunction visual presentation; Web service end (1) and client (3) are all connected to switch (2) by netting twine;

Web service end (1) comprises transmission line malfunction information source module (1-1), Geographic Information System (GIS) module (1-2), transmission line of electricity MBM (1-3), fault information analysis module (1-4), Visualization Service module (1-5), database module (1-6); Fault information analysis module (1-4) connects transmission line malfunction information source module (1-1), Visualization Service module (1-5) and database module (1-6); Visualization Service module (1-5) connects Geographic Information System (GIS) module (1-2) and database module (1-6); Transmission line of electricity MBM (1-3) connects Geographic Information System (GIS) module (1-2) and database module (1-6);

Transmission line malfunction information source module (1-1) receives the transmission line malfunction information of storage from transmission line malfunction positioning system, comprise: distance, fault-time, the fault type of transmission line of electricity name, affiliated transformer station, the trouble spot affiliated transformer station of distance are the sources of failure message in fault visual circular process;

Geographic Information System (GIS) module (1-2) is that system adopts the source of geographical map, the raster data of satellite photo that source is different, function is different and the vector data of shaft tower circuit is made to map sliced form and be distributed to Visualization Service module (1-5) and call;

Transmission line of electricity MBM (1-3) comprises power supply area modeling and the large function of electric power line pole tower modeling two; Power supply area modeling is the scope that this electric company's power supply is provided in the satellite map providing in Geographic Information System (GIS) module (1-2), is generally administrative region; Electric power line pole tower modeling part is to utilize electric power line pole tower latitude and longitude coordinates to carry out circuit modeling, after importing, coordinate data can generate corresponding XML file, store database module (1-6) into simultaneously, data in XML are for indicating the whole piece transmission line of electricity under shaft tower with eye-catching color setting-out, and the shaft tower coordinate in database module (1-6) calculates for fault information analysis module (1-4) location of deriving;

Fault information analysis module (1-4) is used the failure message that transmission line malfunction information source module (1-1) provides to be saved in the shaft tower coordinate information in database module (1-6) in conjunction with transmission line of electricity MBM (1-3), calculating derives orients fault shaft tower, and generate relevant geographic model XML data file and be saved in database module (1-6) module, supply with Visualization Service module (1-5) and call; In XML file, comprise: time, faulty line name, fault type, range information, shaft tower numbering;

Visualization Service module (1-5) provides Web service to carry out web access for client (3), according to the difference of its request msg, call function that Geographic Information System (GIS) module (1-2), transmission line of electricity MBM (1-3), fault information analysis module (1-4), database module (1-6) provide or the file of generation, supply with client (3) and check GIS map, the service of localization of fault information display, also provide query history fault data, (power supply area, the electric power line pole tower) function that judged whether system setting simultaneously;

The transmission line tower coordinate data that database module (1-6) imports for storing transmission line of electricity MBM (1-3), go back the generation XML file after storage failure information analysis module (1-4) computational analysis in addition;

Web service end (1), for the processing that collects of resultant fault visual information, provides Web service, the up-to-date transmission line malfunction information that its inner fault information analysis module (1-4) provides according to transmission line malfunction information source module (1-1) (comprising: transmission line of electricity name, affiliated transformer station, the distance of the trouble spot affiliated transformer station of distance, fault-time, fault type), while calling again transmission line of electricity MBM (1-3) modeling, be saved in the shaft tower coordinate information in database module (1-6), on the satellite map after deriving as calculated, localization of fault being provided to Geographic Information System (GIS) module (1-2), and show fault shaft tower with eye-catching mark in satellite map, go out whole piece transmission line of electricity and the transformer station under shaft tower by eye-catching color setting-out or graphic, the fault diagnosis of Visualization Service module (1-5) proactive notification client (3) is circulated a notice of in real time program module (3-2) and is opened IE browser (3-1), and access specific web page interlinkage, the Web service that uses Visualization Service module (1-5) to provide, carry out visual presentation failure message at IE browser (3-1) window,

Client (3) comprises that IE browser (3-1), fault diagnosis circulate a notice of program module (3-2) in real time, for the access to Web service end (1); IE browser (3-1) is circulated a notice of in real time program (3-2) with fault diagnosis and is connected;

IE browser (3-1) is for the Web providing of Web service end (1) is conducted interviews, in IE browser (3-1) window, show geographical satellite map and on request (as: special time period, transmission line of electricity) show the failure message of transmission line of electricity;

Fault diagnosis is circulated a notice of program module (3-2) in real time, after for Visualization Service module (1-5) proactive notification at Web service end (1), it has fault to show, independently open IE browser (3-1), and access specific web page interlinkage, the Web service that uses Web service end (1) to provide, carry out fault visual displaying at IE browser (3-1) window, mainly comprise: satellite map, circuit and two ends transformer station under fault, and trouble spot place shows the information window of detailed trouble information.

2. the visual report method of the electric network fault based on Web and GIS, it is characterized in that grid power transmission circuit break down after triggering system work, Web service end is after failure message computational analysis, orient fault shaft tower position and generate XML file, Web service is provided, supply with client and carry out visual presentation electric network fault information, it comprises following concrete steps:

Step 1, client open and login system after, system determines whether to use first system; If use first, carry out step 2; Step 3 is carried out in non-use first;

Step 2, power supply area and transmission line of electricity modeling: in previous step, use if be judged as first, point out user to carry out power supply area and transmission line of electricity modelling operability; Power supply area scope is exactly generally the administrative region at this electric company place; Transmission line of electricity modeling is that the latitude and longitude coordinates of transmission line of electricity two ends transformer station and all electric force pole towers of transmission line of electricity is imported in database, and generate corresponding XML file, data in XML are for indicating the whole piece transmission line of electricity under shaft tower with eye-catching color setting-out, shaft tower coordinate in database calculates for fault information analysis the location of deriving, and after power supply area and transmission line of electricity modeling complete, carries out step 3;

Step 3, failure message monitoring: Real-Time Monitoring failure message and the inquiry of historical data;

Real-Time Monitoring failure message, whether monitoring has transmission line malfunction information in failure message source;

The inquiry of historical data, with after login system, system can automatic enquiry of historical data, and half an hour before inquiry current time, whether (setup times arbitrarily), had failure message;

Failure message refers to distance, fault-time, the fault type of transmission line of electricity name, affiliated transformer station, the trouble spot affiliated transformer station of distance,

Above two kinds of situations are: do not have fault data to continue to wait for, regularly inquiry, finds that fault data carries out step 4;

Step 4, circuit model call: in Query Database, whether have the circuit model data (shaft tower coordinate) of this faulty line, if any carrying out next step;

Step 5, fault analysis: according to the circuit model data (shaft tower coordinate) of transmission line malfunction distance (trouble spot is apart from transformer station) and transmission line of electricity, calculate trouble spot, specific to being supreme at which shaft tower; Derivation computing method: the shaft tower coordinate in cyclic query database, 2 latitude and longitude coordinates of each inquiry are calculated apart from cumulative and are compared with fault distance, if stopped when accumulated value is more than or equal to fault distance, and get previous or current shaft tower coordinate data generation failure message XML data file, while showing model generation, load this XML file and show map;

Step 6, displaying model generation: call geographical map information and failure message XML data file in Geographic Information System (GIS), generated data model XML file, offers Visualization Service and call;

Step 7, client visibleization are shown: Visualization Service function is pushed to client positioning result, client IE browser is opened particular webpage link, IE browser window carries out fault visual displaying, mainly comprise: satellite map, circuit and two ends transformer station under fault, and the information window of trouble spot place demonstration detailed trouble information, information window comprises mainly and comprises: comprising: distance, fault-time, the fault type of transmission line of electricity name, affiliated transformer station, the trouble spot affiliated transformer station of distance.

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