RU30014U1 - GEOINFORMATION SYSTEM OF THE ENTERPRISE OF ELECTRIC NETWORKS - Google Patents

Description

Technical field

This technical solution relates to the field of computer technology, namely, to enterprise management systems.

State of the art

An analogue of this technical solution is the computer-aided distributed information management system and the graphic editor CADIMAGE (Computer Aided Distribution Information, Management and Graphics Editor), by Boston Edison (ARCREVIEW magazine (modern geographic information technologies) N 4/1998, p. 5). The system contains data on all elements of a distributed economy, on the boundaries of districts, water bodies, buildings, objects on the ground, users, etc. Users can contact dispatchers and repair crews, as well as receive graphic, textual and related information, which optimizes, according to the authors of advertising materials, equipment maintenance and repair, improves customer service efficiency.

MPK7 G06F 13/00 G06F 17/30

- 2

opportunities, lack of implementation, for example, of the following required functions: certification of low-voltage elements of overhead lines and transformer substations.

An analogue of this technical solution is also a geographic information system (utility model N 18586, 7G06F 17/30, BIPM 18/2001), containing communication tools, system software and application software, a metadata database, a geospatial database, and reception and execution controls consumer applications and means for displaying and documenting, which means that the means for controlling the reception and execution of applications is made in the form of a kernel of the system, the outputs and inputs of which are connected to the means of communication, with system software and application software, display and documentation tools, as well as a metadata database and a geospatial database integrated into one subsystem.

A disadvantage of the known technical solution is the excessive centralization of the control system and, as a result, the insufficient reliability of operation.

The closest analogue of this technical solution (prototype) is the Information system for the service of lines 35 - 500 kV and the Information-analytical system for distribution networks O, 4 - 10 kV (source: Information-methodical materials of the 3rd All-Russian Scientific and Technical Seminar Modern computer technologies in operation of distribution electric networks March 13-17, 2000, Moscow). The system contains information about the locations of power lines, the location of transformer substations, poles, their design.

foundations, brands of wires and their sections, phasing. types of reinforcement tied to specific supports. Power lines, substations, poles and other elements are geographically linked to maps and bypass circuits. The system was developed for the Tyumen electric networks of Tyumenenergo.

The disadvantage of the prototype is the work with large-scale maps and paper copies of topographic maps (situational schemes M 1: 50,000), which are used as a substrate (picture) on which the elements of power lines are applied, as well as the lack of a database on substation hardware.

The essence of the technical solution

The well-known geographic information system of an electric grid enterprise contains common resources (Windows NT server) and workstations (AWS) of users connected to an industrial AC network and interconnected by a local area network (LAN).

The purpose of this technical solution is to expand the functional capabilities, consisting in the use of digital maps (plans) of terrain of any scale, the applicability of GIS for any structural units of the energy economy: region, enterprise, district, in the implementation of analytical functions that provide managers and specialists with the opportunity to take balanced technical and economic decisions on scheduled or emergency operations at energy facilities.

 about

- 4 director's workstation (director's workstation), workplace of the chief engineer (workstation of the chief engineer), workstation of the production and technical service (workstation PTS), workstation of the overhead lines (workstation SVL), workstation of the substation (AWP SPS), an automated workstation of the Reliability and Safety Engineering Service (AWS SN and TB), an automated workstation of the relay protection, automation and measurement service (AWP of the Relay Protection and Automation Institute), automated th workplace local services of dispatching and technological management (ARM MoD supervisory control system), a workstation operatively-dispatching service (AWS UDF). Shared resources (Windows NT-server) contain a database connected via MS SQL-cepBep to the virtual functional trunk of the database, WEB pages with NSI (reference information), through the WEB server connected to the virtual functional trunk of WEB, shared files through the file server connected to the virtual functional trunk FS (file server). The director’s workstation contains programs and databases of PTS automated workplace, VL service automated workstation, substation automated workplace service automated workstation, RPAI workstation automated workstation, RPMA automated workplace service station, automated workplace of automated data transmission system and automated command and control system connected to the virtual functional trunk of the database (database). The workstation of the chief engineer contains the programs and databases of the automated workplace of the PTS, the automated workplace of the VL service, the automated workplace of the SS, the automated workplace of the SN and TB, the automated workplace of the RPAI, the automated workplace of the MSDS and the automated workplace of the integrated command and control system, connected to the virtual functional trunk of the database.

- 5 And the NSI database (reference information) connected to the WEB virtual functional trunk and the second input of the user interface, the VL passport and database and the PS passport connected to the database virtual functional trunk, with the user and NSI interface, as well respectively, with the output of information in the form of references and reports, a program for monitoring the network frequency connected to the backbone of an industrial network, as well as with a user interface and output of information in the form of a report. The VL service arm contains a user interface connected to the FS virtual functional trunk, an NSI program and database connected to the WEB virtual functional trunk and the second input of the user interface, a VL passport program and database connected to the database virtual functional trunk, with the user interface and NSI, as well as with the output of information in the form of reports and references, an electronic map program and database connected to the user interface and NSI, as well as output to the map for Arc View, program mmm reference circuit connected to the user interface and the NSI, as well as to the output of the circuit, program and database, service frames and accessories accounting cards connected respectively to the database virtual functional trunk and user interface, the network frequency control program connected to the industrial main, with user interface as well as report output. Workstation of the NS service contains a user interface connected to the virtual functional trunk of the FS, a program and database of the NSI connected to the virtual functional trunk

- 6 WEB And with the second input of the user interface, the program and the database the passport of the PS connected to the virtual functional trunk of the database, the user interface and the NSI, as well as the output of the help report, the program and the database are the electronic map connected to the user interface and the NSI, and also with the output to the map for Arc View, the database schematic diagrams connected to the user interface and the NSI, as well as the output of the diagram, program and database, service frames and accessories accounting cards connected respectively to the virtual th functional backbone of database and user interface, frequency control program networks connected to the backbone of industrial networks with a user interface, as well as the conclusions of the report. AWS SN and TB contains a user interface connected to the FS virtual functional trunk, an NSI program and database connected to the WEB virtual trunk and the second input of the user interface, program and database, the VL passport and the PS passport connected to the database virtual functional trunk, the user interface and the NSI, as well as the report output, respectively, as well as the workstation programs of the RPAI service, the workstation workstation of the local SDTU service, connected to the virtual functional trunk of the database and the interface via zovatelya and NSI, the program schedule of work with the staff, coupled with a virtual functional backbone of database and user interface control program of the mains frequency, connected to the backbone of industrial networks with a user interface, as well as the conclusions of the report.

for its data, connected to the WEB virtual functional trunk and the second input of the user interface, substation programs 110/35/10 kV, substations 110/10 - 110/6 kV, substations 35/10 kV connected to the user interface, as well as circuit output and programs and databases, inter-cabinet connection diagrams, control and automation cabinets, inputs and lines, transformers, setpoint calculation, programs and databases, service frames and accessories metering cards connected to the virtual functional trunk of the database and user interface, Ranma frequency control network connected to the backbone of industrial networks with a user interface, as well as the conclusions of the report.

The workstation of the local SDTU service contains a user interface connected to the FS virtual functional trunk, an NSI program and database connected to the WEB virtual functional trunk and a second user interface input, programs and databases, service frames and accessories accounting cards connected to the database virtual functional trunk and user interface, programs and databases, equipment accounting, equipment passport templates and complexes passport templates connected to a virtual function The main line of the database, the user interface, as well as each with a report output, a program and a database of communication schemes connected to the user interface, as well as a circuit output, a network frequency control program connected to the main of an industrial network, with a user interface, as well as with a conclusion report.

- 7 connected to the virtual functional trunk WEB and the second input of the user interface, program and database passport VL and passport PS connected to the virtual functional trunk DB, with the user interface and the NSI, as well as the information output in the form of a report, the program and a database of an electronic map connected to the user interface and the NSI, as well as output to a map for Arc View, a program and a database of a load measurement sheet connected to the user interface and, as well as output Yes ny, program and database normal diagram, connected to the virtual functional trunk WEB and user interface, programs and databases, service frames and cards accounting accessories, connected respectively to the virtual functional trunk DB and user interface, frequency sensor, network frequency monitoring program connected respectively, with the backbone of the industrial network, frequency sensor, user interface, as well as with the conclusion of the report.

List of figures, drawings and other materials

In FIG. 1 shows the structural diagram of the geographic information system of the enterprise electrical networks (for example, Nizhne-Lomovsky electrical networks)

In FIG. 2 shows the information and logical structure of the geographic information system of the enterprise electrical networks.

In FIG. Figure 3 shows a sample screen of the window for organizing the interface of an official workstation of an official.

richesky networks (on the example of the Nizhne-Lomovsky electric networks).

An example embodiment of a utility model

The geographic information system of an electric grid enterprise (Fig. 1) contains common resources 1, an automated workstation (AWP) of a director 2, an automated workplace of a chief engineer 3, an automated workstation of a production and technical service (AWP PTS) 4, an automated workstation of an overhead line service (AWL SVL ) 5, the automated workstation of the substation service (AWP SPS) 6, the automated workstation of the service of reliability and safety (AWS SN and TB) 7, the automated workstation of the relay protection, automation and rhenium (workstation of the RPAI service) 8, an automated workstation of the local service of dispatch and technological control tools (AWP MS SDTU) 9, an automated workplace of the operational dispatch service (AWS ОДС) 10. MS SClL server 11. database of overhead line elements and substations (DB) 12. WEB server 13. WEB pages with reference information (NSI) 14. file server 15. shared files 16. user interface 17, reference information (NSI) of service 18, program and database passport of overhead lines (VL) 19, report, certificate (paper copy) 20, program and database substation passport (PS) 21, report, certificate (paper copy) 22, network frequency control program 23. report (paper copy) 24, program and database electronic map 25. map for Arc Veiw (paper copy ) 26, the program reference scheme 27, the scheme (paper copy) 28, the program and database personnel service 29. the program and database of the card accounting accessories 9 30, the database schematic diagrams 31, schemes (paper copy) 32, the program plan schedule of work with personnel 33, program electronic circuits of relay protection and automation devices of substation 110/35/10 kV 34, program electronic circuits of relay protection and automation equipment of substation 110/10 - 110/6 kV 35, program electronic circuits of relay protection and automation equipment of substation 35/10 kV 36, schemes (paper copy) 37, program and database of interconnect circuitry 38, program and database of control cabinet circuit automation 39, a program and a database of inputs and lines 40, a program and a database of transformers 41, a program and a database, calculation of settings 42, a program and a database of equipment accounting 43, a report 44. a program and a database of a communication circuit 45, a circuit 46, a program and a database of equipment passport templates 47, report (paper ia) 48, a program and a database of templates for passports of complexes 49, a report (paper copy) 50, a program and a database, a sheet of load measurements 51, data 52, a program and a database normal circuit 53, a frequency sensor 54, the designation of information links file server 55, database 56, WEB server 57, power supply (50 Hz) 58, local area network (LAN) 59.

The diagram of the information-logical structure of the geographic information system (Fig. 2) shows the shell 60, WEB browser 61, ARCVIEW 62 package, application programs 63, WEB server package 64, ODBC 65, BDE 66. VD 60 database, database management system database data MS SQL 68. stored procedures 69, reference information 70. electronic map 71. information about energy facilities 72, electronic (digital) plans and mnemonic diagrams 73.

- 10 Purpose and functions of GIS.

The geographic information system (GIS) of an electric grid enterprise (PES) is designed to automate the collection, storage and processing of information about the technical condition of energy facilities of an electric grid enterprise (using the example of the Nizhne-Lomovsk electric networks (NiLES)), maintain operational documentation for the production and technical service (PTS) ) 4. overhead line services (SVL) 5, substation services (SPS) 6. reliability and safety services (SN and TB) 7, relay protection, automation and measurement services (RZAI) 8, local facilities supervisory control (SDTU MS) and 9 of dispatching service (SLM) 10 (service description) NiLES electronically.

The goal of creating a GIS PES is to automate the collection of information about accidents, the results of periodic and extraordinary inspections, in analyzing this information for various information sections to identify the causes of equipment failures, followed by the planning of capital and extraordinary repairs of equipment with optimization of the work performed according to the criterion of minimizing material costs by equipment operating time, accident forecasting and presentation of information to service personnel in a familiar, accessible form.

Developed in accordance with current regulatory and technical documents for the operation of power lines (transmission lines) and tested in conjunction with specialists from enterprises of Penzaenergo OJSC, the GIS PES working methods allow:

- 11 -IMPROVE the efficiency and effectiveness of organizational and managerial decisions on the integrated elimination of emergency situations;

-organize the proper storage and use of design estimates of energy facilities in electronic form;

-organize proper accounting of the composition and condition of equipment and technical documentation of energy facilities and PES services;

-reduce the time for preparation and approval of planning and administrative documentation for PES;

-predict, plan and carry out targeted (spot) repairs, more quickly eliminate the arising malfunctions;

- top management promptly and efficiently, based on the results of situational assessments carried out with the help of GIS, to take adequate measures to eliminate emergencies and manage liquidation work.

Geographic information system PES provides:

- input, storage, display and operational editing of documentation for objects and equipment (power line passports and supports, statements, reports, references, etc.);

- entry, storage, search and display of normative and reference information (standard operating instructions, guidelines, instructions for the elimination of accidents);

-storage, display and updating of a digital map of the area (MSC), digital plans of the area (MSC) with energy facilities attached to them;

- 12 tantsii, power transmission poles, bases of district electric networks (RES). warehouses, garages, etc.) to the cartographic basis:

-operative display of the location on the MSC of moving objects;

-production of hard copies of documentation;

-integral collection and presentation of the technical condition of objects according to information coming from moving objects;

- input of the results of repairs at the facilities;

-preparing defective statements;

- emergency repair planning (route map);

-Alarm about the accident;

-measurement of distances;

-automatized control over the execution of incoming documents, instructions from management and work schedules;

- Automated scheduling of repair and maintenance work;

- input, storage and display of information about working with staff.

GIS performs the following functions:

-work with CCM;

-alarm about the receipt of information about objects, its reception and display;

-accounting for the status of existing repair crews, vehicles, equipment, supplies;

-planning of emergency repairs (determining the composition of repair and diagnostic equipment, consumables);

- 13 repairs, and for calendar intervals;

- maintaining databases of accounting for the technical condition of energy facilities;

- Entering and updating a database of information from mobile objects and other sources;

-planning of routine and repair work at power facilities taking into account their condition;

- introduction of passports for all objects;

- storage of reference information;

- storage of passport and technical data on power equipment;

- accounting for the involvement of repair personnel and equipment;

-controlling the quality of repair work;

- monitoring the position of moving objects on the background of the CCM in real time.

Composition and structure of GIS PES software.

The composition and structure of the software (GIS) of the GIS PES is determined primarily by the list of PES services on the workstation of which the GIS is installed; the composition of functional modules and tasks solved by the GIS, and the composition of the layers of the GIS PES information model.

Route support of GIS PES is used at LRM 9 of director 2, chief engineer 2 and at workplaces of employees of the following PES services:

-production and technical service (TCP) 4;

- 14 - services of reliability and safety measures (SN and TB) 7;

Relay protection, automation and measurement services (RZAI) 8;

-Local service of dispatch and technological control facilities (MS SDTU) 9;

-operative dispatching service (SLM) 10.

GIS PES contains the following main functional modules of software:

-work with CCM, coordinate referencing of control objects (electrical substations, OHL supports, RES bases, warehouses, garages, etc.) with determining distances, displaying the location of malfunctioning overhead lines (OHL);

-operative display of the location on the MSC cars and repair crews (developed a system for transmitting data over the air from GPS receivers);

- information on the overhead line passport and accounting for the state of the overhead line elements;

-introduction of the passport of substations and the state of the elements of substations;

-integration of GIS PES and RTPZ.1 technical loss calculation program for calculating electricity losses in distribution networks;

-introduction of material value cards;

- calculation of statements of measurements of electrical loads;

-calculating the settings of relay protection and automation (RPA) of substations;

- calculation of wire sag in overhead lines;

-calculation of undergrowth of trees and shrubs in overhead spans;

- 15 - display of the location of the overhead line fault on the MSC;

-accounting for the state of OHL elements;

-measurement of distances on the MSC;

-definition of the profile of the terrain under the overhead line;

-control, display, save data on changes in the network frequency with the issuance of an alarm when leaving the range;

-automated drafting and coordination of work schedules, monitoring the implementation of schedules and incoming documents, management instructions;

-work with graphic documentation (diagrams, drawings, photographs);

-generation of supporting circuits of overhead lines;

-work with hypertext electronic forms of normative-reference documentation and standard technological maps (HTML-files).

The architecture and composition of the AWP GIS PES are determined by the organizational structure of the enterprise. As a rule, in each service, 1-2 workplaces are equipped with automation tools. All AWP services are integrated into a local area network, which includes a number of shared resources. The workstation software included in this GIS includes both general programs (for example, a program for monitoring the network frequency) and programs that implement the main specific tasks of the services.

The implemented functional modules made it possible to create the basis of an integrated NLES database that implements the statistical processing of information on the technical, technological and spatial (graphical) characteristics of electrical equipment.

- 16 Principles for the implementation of GIS PES.

The implementation of GIS PES is based on the following principles:

-modularity and openness;

-evolutionary phased development, buildup and improvement of GIS in order to implement new functions;

-maximum convenience of work of GIS users through the use of effective means of organizing dialogue and the availability of training and reference components as part of the GIS software;

-the ability to quickly configure the GIS in the process of its preparation for operation.

An ideology is implemented in the GIS PES, which makes it easy to integrate new types of software into the GIS in order to perform additional functions.

GIS PES software consists of general software (OPO), system-wide software (OSPO), special software (SPO), and mapping software.

The logical information structure of the GIS is shown in FIG. 2.

GIS includes the following components:

shell 60;

- database (DB) 67.

The shell includes modules from the composition of special (application) software, borrowed programs and packages, such as Arcview 62, Web browser 61, etc.

The database includes:

- 17-electronic (digital) card 71;

- reference information 70;

-mechanisms of shell interaction with DB (ODBC and BDE) 65. 66.

ODBC 65 and BDE 66 communicate special software with a database management system such as MS SQL.

General software.

The main elements of the GIS NILES GIS are the Windows NT operating system and the Microsoft SQL-Server 6.5 database management system.

The architecture of Windows NT has the following main features and advantages:

-compatibility;

-portability;

-scalability;

-safety system;

distributed processing;

-reliability and fault tolerance;

-localization;

-extensibility.

Client-server database management system Microsoft SQL Server 6.5. provides a wide range of capabilities that facilitate the process of creating, implementing and managing distributed client-server applications. Microsoft SQL Server provides the performance, security, and interoperability with other systems that are essential to the organization of an enterprise. At the same time, this system is very economical and easy to manage, which makes it an ideal solution for enterprises of any level. SQ, L Server allows you to solve most problems when creating distributed document processing systems in the client / server architecture.

System-wide software.

The system-wide software for GIS PES includes:

-Vlslo software package for creating electronic forms and generating circuits;

-program package of the integrated development environment Microsoft Office 97.

- The program for organizing the interface of the workstation of an official (RDPI.00528-01).

The program for organizing the interface of the workstation of an official is the outer shell of the GIS and provides a single and convenient interface for all AWP PES. In this shell, all the work performed and the data used are defined in a hierarchical structure using Russian-language terminology adopted in PES. A specific hierarchy configuration is proposed for each workstation, but the user can easily change both the structure and branches of the hierarchy, providing a call to the used programs from this hierarchy.

After loading the program, the program window appears in front of the operator (Fig. 3). The upper two lines of the window, respectively: the name of the program and the program menu. Below the menu are buttons for quick access to frequently used commands. Below are two windows. In the left, the structure of the loaded workstation is displayed in the form

- 19 trees (AWP RZAI). The right window is a window for quick viewing of files. If a file is associated with any branch, then it will be displayed in this window (list of documentation).

The program implements the following main target functions:

-formation and display on the screen of the menu hierarchies defined by the table in the database;

-Enter and edit information on the composition and structure of menu hierarchies;

- launching programs with the given initial data in accordance with the activated menu hierarchy items;

- Entering and editing information about the paths to the programs and data files launched by the selected menu items with setting startup parameters.

Using this program allows you to reduce the time for making a management decision by increasing the speed of access to parameters, functional circuits, equipment certificates, etc.

Special software includes 67 applications:

Passport VL 19,

Passport PS 21,

Personnel Service 29,

Accessory Cards 30,

Network frequency control 23,

Accounting equipment 45,

- 20 Electronic plans, maps, diagrams and mimic diagrams 77.

Digital map of the area and a set of programs for working with the CCM.

Digital cartographic information (CCI) is part of the GIS information foundation. An electronic map in NIS LIS is considered as a multicomponent model of reality. The main goals of its creation and the opportunities provided are:

-graphic communication of spatial relationships and distributions;

-improving the possibility of analysis, processing and display of geographic information data:

- visual display of digital models of phenomena not visible to the human eye;

-automatization of display and cartographic analysis in control systems;

-examination of objects, phenomena and processes, taking into account the dynamics of their development and possible use;

- obtaining expert solutions in graphical form in real and divided time modes;

-selectivity (syntheticity), separate presentation or highlighting the characteristic features of reality, which are manifested together or in isolation;

- visualization, the possibility of visual perception of spatial forms, sizes, relationships reproduced with the effect of lighting and surface texture of the depicted objects;

- 21 relationships;

-the possibility of thematic focus;

- formation of cartographic images in interactive and automated modes;

-automatic cartometry: determination of coordinates and directions, distances and lengths, areas and volumes; construction of lines of levels and surfaces.

A feature of an electronic card is that it is organized as a multitude of layers (coatings). The fact that an object or part of an object belongs to a layer allows you to use and add group properties to the objects of this layer. The multi-layer organization of an electronic map with a flexible layer management mechanism allows you to combine and display not only more information than on a regular map, but also significantly simplify the analysis of map data by selecting the data necessary for the current review and using the transparency mechanism of the electronic map.

Modern electronic cards use a set of multimedia capabilities, which gives them greater expressiveness and visibility compared to conventional cards. For example: moving above the surface (Flight mode) with the visual effect of flying in three-dimensional space.

In the GIS NiLES, the MCC of the Penza Region was used. The CCM of the Penza Region includes a number of layers containing information on the location of NiLES energy facilities on the ground: substations, overhead lines 35 - 110 kV. In 2000, a layer with overhead lines of 10 kV of the Narovchatsky Distribution Zone was added to the CCM.

.

- 22 overhead lines 10 kV and substations 10 / 0.4 kV Nizhnelomovsky. Zemetchinsky, Vadinsky and Bednodemyanovsky RES.

To visualize OHL of 4 kV, an atlas of digital plans of the terrain of settlements and cities located on the territory of NiLES must be created on a scale of 1: 2000, 1: 500.

Industrial applicability

This technical solution is industrially feasible, has wider functionality due to the use of maps (plans) of terrain of any scale, the applicability of the geographic information system for any structural units of the energy economy, in the implementation of analytical functions that provide managers and specialists with the opportunity to make informed technical and economic decisions on conducting planned or emergency operations at energy facilities.

- 23 Authors:

Mamykin A.P. Kadnikov L.N. Morozov G.M. Ukhanov N.I.

/ Gordienko A.G. Dlf Ustinov V.I.

Kireev Yu.P. Rozhkov P.V. Chuvashov A.E.

Claims (11)

1. Geo-information system of an enterprise of electrical networks containing shared resources (Windows NT-server) and workstations (AWS) of users connected to an industrial AC network and interconnected by a local area network (LAN), characterized in that the geo-information system of the enterprise contains the director’s workstation (director’s workstation), the chief engineer’s workstation (chief engineer’s workstation), the production and technical workstation services (AWP PTS), an automated workstation of an overhead line service (AWS SVL), an automated workstation of a substation service (AWS SPS), an automated workstation of a service for reliability and safety (AWS SN and TB), an automated workstation of a relay protection service, automation and measurements (workstation of the RZAI service), an automated workplace of the local service of dispatch and technological management tools (AWP MS SDTU), an automated workplace of the operational dispatch service (AWS ODS). 2. The geographic information system according to claim 1, characterized in that the shared resources (Windows NT server) contain a database connected via a MS SQL server to the virtual functional trunk of the database, a web page with NSI (reference information), through WEB server connected to the WEB virtual functional trunk, shared files connected through the file server to the FS virtual functional trunk (file server). 3. The geographic information system according to claim 1, characterized in that the director’s workstation contains programs and databases of the PTS automated workstation, VL service AWP, PS automated workstation arm, SNM and TB automated workstation arm, RZAI automated workstation, AWS MS SDTU and AWM ODM connected to a virtual functional trunk of the database (database). 4. The geographic information system according to claim 1, characterized in that the workstation of the chief engineer contains programs and databases of the workstation of the PTS, workstation of the overhead line, workstation of the service of the workstation, workstation of SN and TB, workstation of the service RZAI, workstation of MS SDTU and workstation of ODS virtual functional trunk of the database. 5. The geographic information system according to claim 1, characterized in that the PTS workstation contains a user interface connected to the FS virtual functional trunk (file server), a NSI program and database (reference information) connected to the WEB virtual functional trunk, and the second input of the user interface, program and database, the VL passport and the PS passport, connected to the virtual functional trunk of the database, with the user interface and the NSI, as well as the output of information in the form of certificates and reports, etc. Network frequency monitoring icon connected to the mains of the industrial network, as well as with the user interface and output of information in the form of a report. 6. The geographic information system according to claim 1, characterized in that the VL service AWP comprises a user interface connected to the virtual functional trunk of the FS, a program and NSI database connected to the virtual functional trunk of WEB and the second input of the user interface, the program and the database passport VL connected to the virtual functional trunk of the database, with the user interface and NSI, as well as with the output of information in the form of reports and inquiries, the program and the database electronic map connected to the user interface the caller and the NSI, as well as with the output to the map for Arc View, the supporting circuit program connected to the user interface and the NSI, as well as with the output of the circuit, program and database, service frames and accessories accounting cards, connected respectively to the virtual functional trunk of the database and user interface, a network frequency monitoring program connected to the backbone of an industrial network, with a user interface, as well as with a report output. 7. The geographic information system according to claim 1, characterized in that the workstation of the PS service comprises a user interface connected to the virtual functional trunk of the FS, a program and NSI database connected to the virtual functional trunk of WEB and the second input of the user interface, the program and the database passport Subscriber units connected to the virtual functional trunk of the database, user interface and NSI, as well as the output of the help report, program and database electronic map connected to the user interface and NSI, as well as with the output to the map for Arc View, the database schematic diagrams connected to the user interface and the NSI, as well as the output of the diagrams, programs and databases, service frames and accessories accounting cards, connected respectively to the virtual functional trunk of the database and the user interface, control program network frequencies connected to the backbone of the industrial network, with the user interface, as well as with the output of the report. 8. The geographic information system according to claim 1, characterized in that the automated workplace of SN and TB contains a user interface connected to the virtual functional trunk of the FS, a program and NSI database connected to the virtual functional trunk of WEB and the second input of the user interface, program and database VL passport and PS passport connected to the virtual functional trunk of the database, the user interface and the NSI, as well as the report output, respectively, as well as the workstation program of the RPAI service, the workstation of the local SDTU service, connected to the ualnoy functional backbone of database and user interface and NSI, the program schedule of work with the staff, coupled with a virtual functional backbone of database and user interface control program of the mains frequency, connected to the backbone of industrial networks with a user interface, as well as the conclusions of the report. 9. The geographic information system according to claim 1, characterized in that the workstation of the REI service comprises a user interface connected to the virtual functional trunk of the FS, a program and database of the NSI connected to the virtual functional trunk of WEB and the second input of the user interface, substation program 110/35 / 10 kV, 110 / 10-110 / 6 kV substations, 35/10 kV substations connected to the user interface, as well as to the output of the circuit and programs and databases of the inter-cabinet circuit, control and automation cabinets, inputs and lines, transformers, calculation of settings, programs and databases, service frames and accessories metering cards connected to the database virtual functional trunk and user interface, network frequency control program connected to the industrial network trunk, with the user interface, as well as with the report output. 10. The geographic information system according to claim 1, characterized in that the workstation of the local SDTU service contains a user interface connected to the virtual functional trunk of the FS, a program and NSI database connected to the virtual functional trunk of WEB and the second input of the user interface, program and database service personnel and accessories accounting cards connected to the virtual functional trunk of the database and user interface, programs and databases, equipment accounting, equipment passport templates and user templates sports complexes connected to the virtual functional trunk of the database, the user interface, as well as each with a report output, a program and a database of communication schemes connected to the user interface, as well as the output of the circuit, a program for monitoring the frequency of the network connected to the highway of the industrial network, with an interface user, as well as with the conclusion of the report. 11. The geographic information system according to claim 1, characterized in that the ODS automated workplace contains a user interface connected to the FS virtual functional trunk, an NSI program and database connected to the WEB virtual functional trunk and the second input of the user interface, program and database, VL passport and the passport of the PS connected to the virtual functional trunk of the database, with the user interface and the NSI, as well as, respectively, with the outputs of the information in the form of a report, the program and the database, an electronic map connected to the with the user interface and the NSI, as well as with the output to the map for Arc View, the program and the database, the load measurements list connected to the user interface and, as well as the Data, program and database output, the normal circuit connected to the WEB virtual functional trunk and the interface user, program and database service frames and accessories accounting cards, connected respectively to the database virtual functional trunk and user interface, frequency sensor, network frequency monitoring program, connected respectively, to the backbone network of industrial frequency sensor, user interface, and from the report output.