RU106975U1 - GEOINFORMATION SYSTEM FOR MONITORING ECOLOGICAL AND ELECTROMAGNETIC COMPATIBILITY OF ELECTRIC POWER OBJECTS - Google Patents

Abstract

 The geographic information system for monitoring the environmental and electromagnetic compatibility of electric power facilities contains a user center, a single center for monitoring the geographic information system of environmental risks of users, including geo-and metadata databases, display and documentation tools, a local monitoring center, application and system software, and the system is also equipped with many local systems monitoring of environmental risks that are connected by communication channels to the local moni center Oring through the archive database server, characterized in that the Monitoring Center of geoinformation system of environmental risks of users is further provided with center modeling of environmental and electromagnetic compatibility of electric power facilities with a modulator of coincidences connected channels of communication with the server database file of local monitoring and local monitoring center.

Description

The utility model relates to specialized information systems in the field of environmental safety and is intended for operational information support of monitoring processes of electric power facilities, and management decisions to maintain environmental stability and electromagnetic compatibility.

A well-known geographic information system (GIS) containing communication tools, system and application software, a metadata and geospatial database, means for managing the reception and execution of customer applications, display and documentation tools (see RF certificate for utility model No. 18586, IPC ⁷ G06F 17 / 30, published on June 27, 2001).

The disadvantages are the lack of local monitoring systems that allow obtaining information directly on the studied electric power facilities, technical equipment designed to study the processes of environmental and electromagnetic compatibility.

Closest to the claimed one is a GIS containing a user center, a single center for monitoring the geographic information system of user environmental risks (GISMER), including geo - and metadata databases, display and documentation tools, a local monitoring center, application and system software, and the system is also equipped with many local environmental risk monitoring systems (LSMER), which are connected by communication channels to a local monitoring center through a database archive server (see RF patent for Utility Model No. 87280, IPC ⁸ G06F 17/30, published September 27, 2009).

The disadvantages of the prototype is the lack of blocks that allow modeling processes of electromagnetic compatibility of electric power facilities.

The objective of the proposed technical solution is to create a geographic information system that allows monitoring of electric power facilities for environmental and electromagnetic compatibility.

The solution of the proposed problem is achieved by the fact that the geographic information system contains a user center, a single monitoring center for the geographic information system of environmental risks of users, including geo-and metadata databases, display and documentation tools, a local monitoring center, application and system software, and the system is also equipped with many local systems environmental risk monitoring, which are connected by communication channels to the local monitoring center through the database archive server, according to As a useful model, the monitoring center for the geographic information system of environmental risks of users is additionally equipped with a center for modeling the processes of environmental and electromagnetic compatibility of electric power facilities with a random coincidence modulator connected by communication channels to the archive database server of the local monitoring systems and the local monitoring center.

This system will improve the monitoring of environmental and electromagnetic compatibility of electric power facilities using special software and software, as well as save and analyze a database of external electromagnetic processes occurring at electric power facilities in the ecosystem under study and determine its stability.

The essence of the claimed GIS monitoring of environmental and electromagnetic compatibility of electric power facilities is illustrated in the drawing, which shows a block diagram of the system.

Geoinformation system, contains user center 1, a single center for monitoring the geographic information system of environmental risks (GISMER) users 2, a metadata database and a geospatial database 3, display and documentation tools 4, a local monitoring center 5, application 6 and system 7 software, a modeling center processes of environmental and electromagnetic compatibility of electric power facilities 8 with a random coincidence modulator 9. The GIS is also equipped with many local monitoring systems nga environmental risks 11-15, which are connected by communication channels 16 with the local monitoring center through the archive database server 10 and the center of the modeling processes of environmental and electromagnetic compatibility of electric power facilities 8.

GIS monitoring of environmental and electromagnetic compatibility of electric power facilities works as follows.

From the user center 1, which can be executed, for example, in the form of a computer, the request arrives at the GISMER 2. The monitoring center 2 includes the system software 7, selects and activates the application software 6 depending on the nature of the request and the task to be solved, includes the center local monitoring 5 and the center for modeling the electromagnetic compatibility of electric power facilities 8. Center 8 uses a random coincidence modulator 9, working on the principle of random coincidences of the occurrence of nature anomalies and irregularities in the system of environmental and electromagnetic compatibility of electric power facilities, through the communication channels 16, for example, fiber-optic communications, Internet or radio. Then, the local monitoring center 5, which can be made in the form of a stationary computer or laptop, connects the metadata base and geospatial data 3, made in the form of digital maps indicating the characteristics and addresses of specialized data. Further, through the archive server of the database 10, depending on the consumer’s request through the local monitoring center 5 on electromagnetic processes occurring at electric power facilities, local environmental risk monitoring systems 11-15 are connected to center 8, either all at once, or only in areas of interest to the consumer ecosystems. Local systems 11-15, using technical means, provide the required information on environmental and electromagnetic compatibility to the database archive server 10. From server 10, the information goes to center 8, where the processes of environmental and electromagnetic compatibility of electric power facilities are simulated by a random coincidence modulator and various software and mathematics, after which the resulting information goes to the local monitoring center 5, where the received data are processed and analyzed. Then the center 5 connects the display and documentation 4, made in the form of, for example, printers, displays, recording or storage devices, and sends the results to user center 1.

Local systems for monitoring environmental risks 11-15 are installed, for example, in a control room for managing electric power facilities at hydroelectric power stations, nuclear power plants, substations of various levels, as well as at other electric power facilities where there is a possibility of violation of environmental stability and electromagnetic compatibility. The random coincidence modulator 9 makes it possible to determine the probability of failures by the method of statistical modeling of random processes based on the application, for example, of the Monte Carlo method.

This geographic information system for monitoring the environmental and electromagnetic compatibility of electric power facilities, compared with the prototype, will increase the effectiveness of research related to the modeling of various processes for environmental and electromagnetic compatibility of electric power facilities and to determine random coincidences of natural anomalies and violations in the system of environmental and electromagnetic compatibility of electric power facilities increasing reliability, and mustache oychivost their work, as well as to simulate and predict the possible emergency situations that arise as a result of environmental and electromagnetic compatibility of electric power facilities.

Claims (1)

The geographic information system for monitoring the environmental and electromagnetic compatibility of electric power facilities contains a user center, a single monitoring center for the geographic information system of environmental risks of users, including geo-and metadata databases, display and documentation tools, a local monitoring center, application and system software, and the system is also equipped with many local systems environmental risk monitoring, which are connected by communication channels to the local moni center Oring through the archive database server, characterized in that the Monitoring Center of geoinformation system of environmental risks of users is further provided with center modeling of environmental and electromagnetic compatibility of electric power facilities with a modulator of coincidences connected channels of communication with the server database file of local monitoring and local monitoring center.