CN103837796B - The transmission line malfunction visualization report method of a kind of sing on web and GIS and system - Google Patents
The transmission line malfunction visualization report method of a kind of sing on web and GIS and system Download PDFInfo
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Abstract
The invention discloses the transmission line malfunction visualization report method and system of a kind of sing on web and GIS, this system it include obtaining transmission line malfunction information and fault location to concrete shaft tower, in conjunction with the Web service end (1) of satellite map offer Web service;For connecting the switch (2) of Web service end (1) and client (3);Client (3) for transmission line malfunction visual presentation;Grid power transmission circuit triggers system work after breaking down, Web service end is after fault message computational analysis, orient fault shaft tower position and generate XML file, thering is provided Web service, supply client 3 to carry out visual presentation electric network fault information, the present invention the most intuitively shows transmission line malfunction information, improve the cognition degree directly perceived of power transmission network fault, improve electric power enterprise personnel in substantial amounts of electric power system data, represent important information, monitor the ability of electric network state, it is ensured that system reliability.
Description
Technical field:
The present invention relates to a kind of visualization report method and system, particularly relate to transmission line malfunction visualization report method and the system of a kind of sing on web and GIS.
Background technology:
The new technology that visualization (Visualization) is as technical development of computer and occurs, it is that some numerous and diverse words and data are converted into figure and image intuitively, people are helped to understand the implication of data or process visually, so that the essence of physical process, it is the supplementary and lifting of data or literal expression.Information visualization is exactly to utilize visual representation that computer supports, mutual, to abstract data, strengthens people's cognition to these non-physical abstracted informations.Electric network information visualization is that power science is multi-disciplinary with computer technology, Geomatics, ergonomics etc. to intersect and extension, is expansion and the development trend of power system dispatching automation technique.At other field, visualize in widespread attention and develop rapidly, and being limited in the visual application of transmission line malfunction.
Traditional data visualization is realized by following several ways mostly: the data gathered or process are shown by (1) with forms such as chart, curve map, block diagrams.(2) (3) use different colours to express different running statuses to use the form of animation to represent.
But these limited method for visualizing cannot meet dispatcher and the most accurately control the needs of operation of power networks status information.
Summary of the invention:
It is an object of the invention to overcome the deficiency of above-mentioned prior art to provide a kind of transmission line malfunction information of showing the most directly perceived, improve the cognition degree directly perceived of power transmission network fault, improve electric power enterprise personnel in substantial amounts of electric power system data, represent important information, monitor the ability of electric network state, it is ensured that the sing on web of system reliability and the transmission line malfunction visualization report method of GIS and system.
The purpose of the present invention can be reached by following measure: the transmission line malfunction visualization reporting chain of a kind of sing on web and GIS, it includes obtaining transmission line malfunction information and fault location to concrete shaft tower, provides the Web service end of Web service in conjunction with satellite map;For connecting Web service end
Switch with client;Client for transmission line malfunction visual presentation;Web service end and client are all connected to switch by netting twine;
Web service end includes transmission line malfunction information source module, GIS-Geographic Information System (GIS) module, transmission line of electricity MBM, fault information analysis module, Visualization Service module, DBM;Fault information analysis module connects transmission line malfunction information source module
, Visualization Service module and DBM;Visualization Service module connects GIS-Geographic Information System (GIS) module and DBM;Transmission line of electricity MBM
Connect GIS-Geographic Information System (GIS) module and DBM;
Transmission line malfunction information source module receives the storage transmission line malfunction information from transmission open acess system, including: transmission line of electricity name, affiliated transformer station, trouble point apart from the distance of affiliated transformer station, fault time, fault type, it it is the source of fault message during fault visual circular;
GIS-Geographic Information System (GIS) module is the source that system uses geographical map, and source is different, function the is different raster datas of satellite photo and the vector data of shaft tower circuit are made map sliced form and be distributed to Visualization Service module
Call;
Transmission line of electricity MBM includes that power supply area modeling and electric power line pole tower model two big functions;Power supply area modeling is in GIS-Geographic Information System (GIS) module
The scope that this electric company powers, generally administrative region is indicated in the satellite map provided;Electric power line pole tower modeled segments is to utilize electric power line pole tower latitude and longitude coordinates to carry out circuit modeling, coordinate data can generate corresponding XML file after importing, it is simultaneously stored in DBM, data in XML are for indicating the whole piece transmission line of electricity belonging to shaft tower, DBM with eye-catching color setting-out
Interior shaft tower coordinate carries out calculating location of deriving for fault information analysis module;
The fault message that fault information analysis module uses transmission line malfunction information source module to provide combines transmission line of electricity MBM
The shaft tower coordinate information being saved in DBM, calculates derivation and orients fault shaft tower, and the relevant geographic model XML data file of generation is saved in DBM module, supplies Visualization Service module
Call;Comprising in XML file: the time, faulty line name, fault type, range information, shaft tower is numbered;
Visualization Service module provides Web service to carry out web access for client, difference according to its request data, GIS-Geographic Information System (GIS) module, transmission line of electricity MBM, fault information analysis module, the function of DBM offer or the file of generation are provided, supply client carries out checking that GIS map, fault location information show service, also provides for query history fault data simultaneously, determined whether that system arranged (power supply area, electric power line pole tower) function;
DBM, for storing the transmission line tower coordinate data that transmission line of electricity MBM imports, the most also stores the generation XML file after fault information analysis module computational analysis;
Web service end collects process for resultant fault visual information, it is provided that Web service;Its internal fault information analysis module
The up-to-date transmission line malfunction information (including: transmission line of electricity name, affiliated transformer station, trouble point are apart from the distance of affiliated transformer station, fault time, fault type) provided according to transmission line malfunction information source module, recalls transmission line of electricity MBM
The shaft tower coordinate information being saved in during modeling in DBM, on the satellite map after being computed deriving, fault location to GIS-Geographic Information System (GIS) module provided, and show fault shaft tower with eye-catching mark, go out the whole piece transmission line of electricity belonging to shaft tower and transformer station, Visualization Service module with eye-catching color setting-out or graphic in satellite map
The fault diagnosis of proactive notification client is circulated a notice of program module in real time and is opened IE browser, and accesses specific web page interlinkage, the Web service using Visualization Service module to provide, and carries out visual presentation fault message at IE browser window;
Client includes that IE browser, fault diagnosis circulate a notice of program module in real time, for the access to Web service end;IE browser is circulated a notice of program in real time and is connected with fault diagnosis;
IE browser, for conducting interviews the Web of the offer of Web service end, shows geographical satellite map in IE browser window and (such as: special time period, transmission line of electricity) shows the fault message of transmission line of electricity on request;
Fault diagnosis circulates a notice of program module in real time, at Web service end
Visualization Service module proactive notification its faulty need show after, independently open IE browser, and access specific web page interlinkage, use the Web service that Web service end provides, fault visual displaying is carried out at IE browser window, specifically include that satellite map, circuit belonging to fault and two ends transformer station, and the information window of fault point display detailed trouble information.
A kind of electric network fault visualization report method of sing on web and GIS, it is characterized in that grid power transmission circuit triggers system work after breaking down, Web service end is after fault message computational analysis, orient fault shaft tower position and generate XML file, Web service is provided, supply client carries out visual presentation electric network fault information, and it comprises the following specific steps that:
Step one, client open and login system after, system determines whether to use first system;If using first, then carry out step 2;Non-use first, carry out step 3;
Step 2, power supply area and transmission line of electricity modeling: in previous step, if it is determined that use first, then prompting user is powered region and transmission line of electricity modelling operability;Power supply area scope is exactly typically the administrative region at this electric company place;Transmission line of electricity modeling is that the latitude and longitude coordinates of all to transmission line of electricity two ends transformer station and transmission line of electricity electric force pole towers is imported in database, and generate corresponding XML file, data in XML are for indicating the whole piece transmission line of electricity belonging to shaft tower with eye-catching color setting-out, shaft tower coordinate in database calculates, for fault information analysis, location of deriving, and power supply area and transmission line of electricity carry out step 3 after having modeled;
Step 3, fault message are monitored: monitoring fault message and the inquiry of historical data in real time;
Monitoring fault message in real time, whether monitoring has transmission line malfunction information in fault message source;
The inquiry of historical data, after login system, system can automatic enquiry of historical data, inquiry current time before half an hour (time is arbitrarily set), if faulty information;
Fault message refer to transmission line of electricity name, affiliated transformer station, trouble point apart from the distance of affiliated transformer station, fault time, fault type,
Both the above situation is: does not has fault data then to continue waiting for, periodically inquires about, and finds that fault data then carries out step 4;
Step 4, circuit model call: whether have the circuit model data (shaft tower coordinate) of this faulty line in inquiry database, if any then carrying out next step;
Step 5, accident analysis: according to transmission line malfunction distance (trouble point distance transformer station) and the circuit model data (shaft tower coordinate) of transmission line of electricity, calculate trouble point, specific to being supreme at which shaft tower;Derivation computational methods: the shaft tower coordinate in cyclic query database, 2 latitude and longitude coordinates of inquiry calculate apart from cumulative compared with fault distance every time, if accumulated value stops more than or equal to during fault distance, and take previous or current shaft tower coordinate data generation fault message XML data file, load this XML file display map when showing model generation;
Step 6, displaying model generation: call the geographic map information in GIS-Geographic Information System (GIS) and fault message XML data file, generate data model XML file, it is provided that call to Visualization Service;
Step 7, client visibleization are shown: Visualization Service function is pushed to client positioning result, client IE browser opens particular webpage link, IE browser window carries out fault visual displaying, specifically include that satellite map, circuit belonging to fault and two ends transformer station, and the information window of fault point display detailed trouble information, information window comprises and specifically includes that and include: transmission line of electricity name, affiliated transformer station, trouble point are apart from the distance of affiliated transformer station, fault time, fault type.
The present invention can produce following good effect compared with the prior art: the present invention is directed to grid power transmission circuit feature, in combination with guilty culprit place on line, uses different colorings to show transmission line malfunction information.Use Web, GIS(GIS-Geographic Information System) etc. technology between the service end being connected and client, realizes in real time displaying transmission line malfunction information directly perceived,
Improve the cognition degree directly perceived of power transmission network fault.It has the advantage that
Intuitive, the most important performance utilizing electronic geographic map visualization is exactly that it has directly perceived, vivid feature.
Visual query, mainly passes through visual query language, it is achieved the inquiry operation that data-base content and associated figure, table are visualized, intuitively changed.The result i.e. inquired about not only includes data, also includes the figure of associated visualization, form or word.
New visualization technique can be used to improve electric power enterprise personnel and represents important information in substantial amounts of electric power system data, monitors the ability of electric network state, it is ensured that system reliability.
Accompanying drawing illustrates:
Fig. 1 is the structural representation that the sing on web of the present invention and the transmission line malfunction of GIS visualize reporting chain;
Fig. 2 is the workflow diagram of the present invention.
Detailed description of the invention: below in conjunction with the accompanying drawings the detailed description of the invention of the present invention is elaborated:
Embodiment: transmission line malfunction visualization reporting chain (seeing Fig. 1) of a kind of sing on web and GIS, it includes obtaining transmission line malfunction information and fault location to concrete shaft tower, provides the Web service end 1 of Web service in conjunction with satellite map;For connecting the switch 2 of Web service end 1 and client 3;Client 3 for 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 includes transmission line malfunction information source module 1-1, GIS-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, DBM 1-6.Fault information analysis module 1-4 connects transmission line malfunction information source module 1-1, Visualization Service module 1-5 and DBM 1-6;Visualization Service module 1-5 connects GIS-Geographic Information System (GIS) module 1-2 and DBM 1-6;Transmission line of electricity MBM 1-3 connects GIS-Geographic Information System (GIS) module 1-2 and DBM 1-6.
Transmission line malfunction information source module 1-1 is connected with existing transmission open acess system, receive the storage transmission line malfunction information from transmission open acess system, receive and store transmission line malfunction information, including: transmission line of electricity name, affiliated transformer station, trouble point apart from the distance of affiliated transformer station, fault time, fault type, it it is the source of fault message during fault visual circular.
GIS-Geographic Information System (GIS) module 1-2 is the source that system uses geographical map, the raster data of satellite photo different for source, function is different and the vector data of shaft tower circuit is made map sliced form and is distributed to Visualization Service module 1-5 and calls.
Transmission line of electricity MBM 1-3 includes that power supply area modeling and electric power line pole tower model two big functions;Power supply area modeling is to indicate the scope that this electric company powers, generally administrative region in the satellite map that GIS-Geographic Information System (GIS) module 1-2 provides;Electric power line pole tower modeled segments is to utilize electric power line pole tower latitude and longitude coordinates to carry out circuit modeling, and coordinate data can generate corresponding XML file after importing, and is simultaneously stored in DBM 1-6,
Data in XML are for indicating the whole piece transmission line of electricity belonging to shaft tower with eye-catching color setting-out, and the shaft tower coordinate in DBM 1-6 carries out calculating location of deriving for fault information analysis module 1-4.
The fault message that fault information analysis module 1-4 uses transmission line malfunction information source module 1-1 to provide combines the shaft tower coordinate information that transmission line of electricity MBM 1-3 is saved in DBM 1-6, calculate derivation and orient fault shaft tower, and the relevant geographic model XML data file of generation is saved in DBM 1-6 module, supply Visualization Service module 1-5 is called;Comprising in XML file: the time, faulty line name, fault type, range information, shaft tower is numbered.
Visualization Service module 1-5, Web service is provided to carry out web access for client 3, difference according to its request data, GIS-Geographic Information System (GIS) module 1-2, transmission line of electricity MBM 1-3, fault information analysis module 1-4, the function of DBM 1-6 offer or the file of generation are provided, supply client 3 carries out checking that GIS map, fault location information show service, also provides for query history fault data simultaneously, determined whether that system arranged functions such as (power supply area, electric power line pole towers).
DBM 1-6, for storing the transmission line tower coordinate data that transmission line of electricity MBM 1-3 imports, the most also stores the generation XML file after fault information analysis module 1-4 computational analysis.
Web service end 1 collects process for resultant fault visual information, it is provided that Web service.nullThe up-to-date transmission line malfunction information that its internal fault information analysis module 1-4 provides according to transmission line malfunction information source module 1-1 (including: transmission line of electricity name、Affiliated transformer station、Trouble point is apart from the distance of affiliated transformer station、Fault time、Fault type),The shaft tower coordinate information being saved in DBM 1-6 when recalling transmission line of electricity MBM 1-3 modeling,On the satellite map after being computed deriving, fault location to GIS-Geographic Information System (GIS) module 1-2 provided,And show fault shaft tower with eye-catching mark in satellite map、The whole piece transmission line of electricity belonging to shaft tower and transformer station is gone out with 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 program module 3-2 in real time and is opened IE browser 3-1,And access specific web page interlinkage,Use the Web service that Visualization Service module 1-5 provides,Visual presentation fault message is carried out at IE browser 3-1 window.
Client 3 includes 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, for conducting interviews the Web of the offer of Web service end 1, shows geographical satellite map in IE browser 3-1 window and (such as: special time period, transmission line of electricity) shows the fault message of transmission line of electricity on request;
Fault diagnosis circulates a notice of program module 3-2 in real time, after showing at its faulty needs of the Visualization Service module 1-5 proactive notification of Web service end 1, independently open IE browser 3-1, and access specific web page interlinkage, the Web service using Web service end 1 to provide, carries out fault visual displaying at IE browser 3-1 window, specifically includes that satellite map, circuit belonging to fault and two ends transformer station, and the information window of fault point display detailed trouble information.
A kind of electric network fault visualization report method of sing on web and GIS, grid power transmission circuit triggers system work after breaking down, Web service end is after fault message computational analysis, orient fault shaft tower position and generate XML file, Web service, supply client is provided to carry out visual presentation electric network fault information.Comprise the following specific steps that (seeing Fig. 2):
Step one, client open and login system after, system determines whether to use first system;If using first, then carry out step 2;Non-use first, carry out step 3;
Step 2, power supply area and transmission line of electricity modeling: in previous step, if it is determined that use first, then prompting user is powered region and transmission line of electricity modelling operability.Power supply area scope is exactly typically the administrative region at this electric company place.Transmission line of electricity modeling is that the latitude and longitude coordinates of all to transmission line of electricity two ends transformer station and transmission line of electricity electric force pole towers is imported in database, and generate corresponding XML file, data in XML are for indicating the whole piece transmission line of electricity belonging to shaft tower with eye-catching color setting-out, shaft tower coordinate in database calculates, for fault information analysis, location of deriving, and power supply area and transmission line of electricity carry out step 3 after having modeled;
Step 3, fault message are monitored: monitoring fault message and the inquiry of historical data in real time;
Monitoring fault message in real time, whether monitoring has transmission line malfunction information in fault message source.
The inquiry of historical data, after login system, system can automatic enquiry of historical data, inquiry current time before half an hour (time is arbitrarily set), if faulty information.
Fault message refer to transmission line of electricity name, affiliated transformer station, trouble point apart from the distance of affiliated transformer station, fault time, fault type,
Both the above situation is: does not has fault data then to continue waiting for, periodically inquires about, and finds that fault data then carries out step 4;
Step 4, circuit model call: whether have the circuit model data (shaft tower coordinate) of this faulty line in inquiry database, if any then carrying out next step.
Step 5, accident analysis: according to transmission line malfunction distance (trouble point distance transformer station) and the circuit model data (shaft tower coordinate) of transmission line of electricity, calculate trouble point, specific to being supreme at which shaft tower.Derivation computational methods: the shaft tower coordinate in cyclic query database, 2 latitude and longitude coordinates of inquiry calculate apart from cumulative compared with fault distance every time, if accumulated value stops more than or equal to during fault distance, and take previous or current shaft tower coordinate data generation fault message XML data file, load this XML file display map when showing model generation.
Step 6, displaying model generation: call the geographic map information in GIS-Geographic Information System (GIS) and fault message XML data file, generate data model XML file, it is provided that call to Visualization Service.
Step 7, client visibleization are shown: Visualization Service function is pushed to client positioning result, client IE browser opens particular webpage link, IE browser window carries out fault visual displaying, specifically include that satellite map, circuit belonging to fault and two ends transformer station, and the information window of fault point display detailed trouble information, information window comprises and specifically includes that and include: transmission line of electricity name, affiliated transformer station, trouble point are apart from the distance of affiliated transformer station, fault time, fault type.
Above-described only presently preferred embodiments of the present invention, it is impossible to limit the interest field of the present invention with this.
Claims (1)
1. a transmission line malfunction visualization reporting chain of sing on web and GIS, it includes obtaining transmission line malfunction information and fault location to concrete shaft tower, provides the Web service end (1) of Web service in conjunction with satellite map;For connecting the switch (2) of Web service end (1) and client (3);Client (3) for 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) includes transmission line malfunction information source module (1-1), GIS-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), DBM (1-6);Fault information analysis module (1-4) connects transmission line malfunction information source module (1-1), Visualization Service module (1-5) and DBM (1-6);Visualization Service module (1-5) connects GIS-Geographic Information System (GIS) module (1-2) and DBM (1-6);Transmission line of electricity MBM (1-3) connects GIS-Geographic Information System (GIS) module (1-2) and DBM (1-6);
Transmission line malfunction information source module (1-1) receives the storage transmission line malfunction information from transmission open acess system, including: transmission line of electricity name, affiliated transformer station, trouble point apart from the distance of affiliated transformer station, fault time, fault type, it it is the source of fault message during fault visual circular;
GIS-Geographic Information System (GIS) module (1-2) is the source that system uses geographical map, the raster data of satellite photo different for source, function is different and the vector data of shaft tower circuit is made map sliced form and is distributed to Visualization Service module (1-5) and calls;
Transmission line of electricity MBM (1-3) includes that power supply area modeling and electric power line pole tower model two big functions;Power supply area modeling is to indicate the regional extent that electric company powers in the satellite map that GIS-Geographic Information System (GIS) module (1-2) provides, and power supply area scope is exactly the administrative region at electric company place;Electric power line pole tower modeled segments is to utilize electric power line pole tower latitude and longitude coordinates to carry out circuit modeling, coordinate data can generate corresponding XML file after importing, it is simultaneously stored in DBM (1-6), data in XML are for indicating the whole piece transmission line of electricity belonging to shaft tower with eye-catching color setting-out, and the shaft tower coordinate in DBM (1-6) carries out calculating location of deriving for fault information analysis module (1-4);
The fault message that fault information analysis module (1-4) uses transmission line malfunction information source module (1-1) to provide combines the shaft tower coordinate information that transmission line of electricity MBM (1-3) is saved in DBM (1-6), calculate derivation and orient fault shaft tower, and the relevant geographic model XML data file of generation is saved in DBM (1-6) module, supply Visualization Service module (1-5) is called;Comprising in XML file: the time, faulty line name, fault type, range information, shaft tower is numbered;
Visualization Service module (1-5) provides Web service to carry out web access for client (3), difference according to its request data, call GIS-Geographic Information System (GIS) module (1-2), function that transmission line of electricity MBM (1-3), fault information analysis module (1-4), DBM (1-6) provide or the file of generation, supply client (3) carries out checking that GIS map, fault location information show service, also provides for query history fault data simultaneously, determined whether system setting function;
DBM (1-6) is used for storing the generation XML file after the transmission line tower coordinate data that transmission line of electricity MBM (1-3) imports, the most also storage fault information analysis module (1-4) computational analysis;
Web service end (1) collects process for resultant fault visual information, it is provided that Web service;nullThe up-to-date transmission line malfunction information that its internal fault information analysis module (1-4) provides according to transmission line malfunction information source module (1-1),It is saved in the shaft tower coordinate information in DBM (1-6) when recalling transmission line of electricity MBM (1-3) modeling,On the satellite map after being computed deriving, fault location to GIS-Geographic Information System (GIS) module (1-2) provided,And show fault shaft tower with eye-catching mark in satellite map、The whole piece transmission line of electricity belonging to shaft tower and transformer station is gone out with 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 program module (3-2) in real time and is opened IE browser (3-1),And access specific web page interlinkage,Use the Web service that Visualization Service module (1-5) provides,Visual presentation fault message is carried out at IE browser (3-1) window;
Client (3) includes 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 program (3-2) in real time and is connected with fault diagnosis;
IE browser (3-1), for conducting interviews the Web of the offer of Web service end (1), shows geographical satellite map in IE browser (3-1) window and shows the fault message of transmission line of electricity on request;
Fault diagnosis circulates a notice of program module (3-2) in real time, after showing at its faulty needs of Visualization Service module (1-5) proactive notification of Web service end (1), independently open IE browser (3-1), and access specific web page interlinkage, the Web service using Web service end (1) to provide, carries out fault visual displaying at IE browser (3-1) window, specifically includes that satellite map, circuit belonging to fault and two ends transformer station, and the information window of fault point display detailed trouble information;
Grid power transmission circuit triggers system work after breaking down, Web service end, after fault message computational analysis, is oriented fault shaft tower position and generates XML file, it is provided that Web service, supply client carries out visual presentation electric network fault information, and it comprises the following specific steps that:
Step one, client open and login system after, system determines whether to use first system;If using first, then carry out step 2;Non-use first, carry out step 3;
Step 2, power supply area and transmission line of electricity modeling: in previous step, if it is determined that use first, then prompting user is powered region and transmission line of electricity modelling operability;Transmission line of electricity modeling is that the latitude and longitude coordinates of all to transmission line of electricity two ends transformer station and transmission line of electricity electric force pole towers is imported in database, and generate corresponding XML file, data in XML are for indicating the whole piece transmission line of electricity belonging to shaft tower with eye-catching color setting-out, shaft tower coordinate in database calculates, for fault information analysis, location of deriving, and power supply area and transmission line of electricity carry out step 3 after having modeled;
Step 3, fault message are monitored: monitoring fault message and the inquiry of historical data in real time;
Monitoring fault message in real time, whether monitoring has transmission line malfunction information in fault message source;
The inquiry of historical data, after login system, system can automatic enquiry of historical data, inquiry current time before half an hour, if faulty information;
Fault message refer to transmission line of electricity name, affiliated transformer station, trouble point apart from the distance of affiliated transformer station, fault time, fault type,
The working condition of monitoring fault message and the inquiry of historical data is in real time: does not has fault data then to continue waiting for, periodically inquires about, and finds that fault data then carries out step 4;
Step 4, circuit model call: whether have the circuit model data of this faulty line in inquiry database, if any then carrying out next step;
Step 5, accident analysis: according to transmission line malfunction distance and the circuit model data of transmission line of electricity, calculate trouble point, specific to being supreme at which shaft tower;Derivation computational methods: the shaft tower coordinate in cyclic query database, 2 latitude and longitude coordinates of inquiry calculate apart from cumulative compared with fault distance every time, if accumulated value stops more than or equal to during fault distance, and take previous or current shaft tower coordinate data generation fault message XML data file, load this XML file display map when showing model generation;
Step 6, displaying model generation: call the geographic map information in GIS-Geographic Information System (GIS) and fault message XML data file, generate data model XML file, it is provided that call to Visualization Service;
Step 7, client visibleization are shown: Visualization Service function is pushed to client positioning result, client IE browser opens particular webpage link, IE browser window carries out fault visual displaying, specifically include that satellite map, circuit belonging to fault and two ends transformer station, and the information window of fault point display detailed trouble information, information window comprises and specifically includes that and include: transmission line of electricity name, affiliated transformer station, trouble point are apart from the distance of affiliated transformer station, fault time, fault type.
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP3624248B2 (en) * | 2001-07-25 | 2005-03-02 | 株式会社シーイーシー | Handling of input data |
CN102118021A (en) * | 2010-01-05 | 2011-07-06 | 华北电力科学研究院有限责任公司 | Transmission line three-dimensional panoramic model-based fault processing method and system |
CN102570602A (en) * | 2011-12-04 | 2012-07-11 | 江苏省电力公司南京供电公司 | Fault comprehensive processing platform and method of distribution network |
CN102646230A (en) * | 2012-02-27 | 2012-08-22 | 广东电网公司深圳供电局 | Information system for realizing fast power restoration management of power distribution network faults |
CN103366246A (en) * | 2013-06-28 | 2013-10-23 | 中国南方电网有限责任公司 | Electrical geographic information service platform system |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US7031968B2 (en) * | 2000-12-07 | 2006-04-18 | Prev-U Israel Ltd. | Method and apparatus for providing web site preview information |
-
2014
- 2014-03-12 CN CN201410088478.4A patent/CN103837796B/en not_active Expired - Fee Related
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP3624248B2 (en) * | 2001-07-25 | 2005-03-02 | 株式会社シーイーシー | Handling of input data |
CN102118021A (en) * | 2010-01-05 | 2011-07-06 | 华北电力科学研究院有限责任公司 | Transmission line three-dimensional panoramic model-based fault processing method and system |
CN102570602A (en) * | 2011-12-04 | 2012-07-11 | 江苏省电力公司南京供电公司 | Fault comprehensive processing platform and method of distribution network |
CN103490521A (en) * | 2011-12-04 | 2014-01-01 | 江苏省电力公司南京供电公司 | Intelligent power distribution network fault treatment platform |
CN102646230A (en) * | 2012-02-27 | 2012-08-22 | 广东电网公司深圳供电局 | Information system for realizing fast power restoration management of power distribution network faults |
CN103366246A (en) * | 2013-06-28 | 2013-10-23 | 中国南方电网有限责任公司 | Electrical geographic information service platform system |
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