WO2016082617A1 - Gis-based method and system for associating meteorological information with power device - Google Patents

Abstract

A GIS-based method and system for associating meteorological information with a power device. Real-time meteorological monitoring and warning data is placed in a GIS platform, and a monitoring station is positioned; and a positioning mode is: performing positioning in a GIS map according to coordinate information of a meteorological monitoring stations. A meteorological chart layer is created: creating a meteorological chart layer in a warning system according to positioning information of the meteorological data in a GIS of a power grid. The meteorological chart layer is superimposed and associated with a device chart layer, so as to display meteorological information in real time, and perform warning analysis for and display a meteorological disaster of the power device. Occurrence and development of disastrous weather such as typhoon, rainstorms and strong convection are intuitively and comprehensively monitored for the power device in real time, movement and evolution of such weather systems are tracked, and analysis bases are provided for predicting disastrous weather.

Description

Method and system for correlating meteorological information and power equipment based on GIS Technical field

The invention relates to a method and system for correlating meteorological information and power equipment based on GIS.

Background technique

Various power facilities include transmission, substation, power distribution and other facilities, which are widely distributed. In the existing meteorological monitoring systems, there is no real-time monitoring and early warning of meteorological information for specific power equipment. When disasters occur, they are not timely. Effective early warning information brings great difficulties to the rescue and relief of electric power. It makes the meteorological warning to the power grid not play its due role, and the efficiency is low. Only after the meteorological disaster occurs can the corresponding measures be taken. It is also impossible to check the future weather conditions of electrical equipment and make early warnings.

Summary of the invention

In order to solve the deficiencies of the prior art, the present invention discloses a method and system for associating weather information with an electric device. The method can display the power equipment and the meteorological information on the GIS map, and can identify the weather affected equipment according to the meteorological information; and can also view the future weather conditions of the equipment in a certain specific weather time, and perform monitoring and early warning. Emergency response to reduce disaster losses.

To achieve the above object, the specific scheme of the present invention is as follows:

A method for associating weather information with power equipment based on GIS includes the following steps:

Step 1: Connect the meteorological information of real-time monitoring and early warning to the grid GIS system and store it in the meteorological database of the grid GIS system;

Step 2: coordinate positioning of meteorological information monitored by the monitoring station in the grid GIS system;

Step 3: Establish a weather layer in the early warning system based on the meteorological data in the location information of the grid GIS system. The power equipment database of the grid GIS system stores the coordinate information of the power equipment, and the power equipment layer is established in the grid GIS system;

Step 4: Superimpose the meteorological layer layer with the power equipment layer in the grid GIS system to realize real-time display of meteorological information, identify meteorological impact equipment according to meteorological information, and early warning analysis and display of meteorological disasters of power equipment.

The meteorological data in the first step includes: real-time meteorological monitoring data, county-level weather forecast data by 12 hours and 7 days, short-term near-weather data, short-term weather forecast data, medium-term weather forecast data, ten-year forecast data, and important weather forecast data. , geological hazard forecast data, forest fire hazard level forecast data, meteorological hazard warning data, lightning location data, radar data, cloud map data, typhoon forecast data.

The positioning method in the second step is: positioning to the grid GIS system according to the coordinate information of the weather monitoring station.

The method for establishing the power device layer and the weather layer in the third step is:

The grid GIS system contains the geographical coordinates of various power equipments, and the coordinate information of the power equipment is directly exported from the grid GIS platform to the GIS map, and the corresponding power equipment layer is established in the GIS map according to the coordinate information of the power equipment;

According to the coordinate information of the meteorological monitoring station in the GIS map, it is projected onto the GIS map, and the corresponding weather layer is established according to the coordinate information.

In the fourth step, the meteorological layer and the power device layer are superimposed and associated, and the specifics include:

The real-time meteorological data information is superimposed with the power equipment data, and the effect of superimposition of the weather layer and the equipment layer is displayed in the early warning system, and the weather affected equipment is identified according to the meteorological information, and the forecasting and early warning is performed;

A GIS-based system for correlating meteorological information with electrical equipment, including:

Meteorological data acquisition module for connecting meteorological data of real-time monitoring and early warning to the grid GIS platform;

a coordinate positioning module for positioning a weather monitoring station in an early warning area in a power grid GIS platform;

a layer establishing module, configured to respectively establish a device layer and a weather layer in the grid GIS map according to the positioning information of the power equipment and the weather monitoring station;

The association module is used for matching and matching weather layers and power equipment layers, realizing real-time display of meteorological information, and early warning analysis and display of meteorological disasters of power equipment.

The meteorological data includes: real-time meteorological monitoring data, county-level weather forecast data for 12 hours and 7 days, short-term near-weather data, short-term weather forecast data, medium-term weather forecast data, ten-year forecast data, important weather forecast data, and geological hazard forecast. Data, forest fire risk grade forecast data, meteorological disaster warning data, lightning location data, radar data, cloud map data, typhoon forecast data.

The layer building module specifically includes: the geographic coordinates of the power equipment included in the power grid GIS system, and the coordinate information of the power equipment is directly exported from the power grid GIS platform to the GIS map, and the corresponding information is established in the GIS map according to the coordinate information of the power equipment. Power equipment layer;

According to the coordinate information of the meteorological monitoring station in the GIS map, it is projected onto the GIS map, and the corresponding weather layer is established according to the coordinate information.

The weather layer and the device layer are superimposed and associated, and specifically include:

The real-time meteorological data information is superimposed with the power equipment data, and the effect of superimposition of the weather layer and the equipment layer is displayed in the early warning system, and the weather affected equipment is identified according to the meteorological information, and the forecasting and early warning is performed;

The grid equipment and meteorological data are superimposed on the GIS map, and the major meteorological disaster information and emergencies are alerted.

The meteorological layer and the device layer are superimposed and associated, and according to the range of the meteorological information, the coordinates are identified by the meteorological influence device, and the forecasting and early warning is performed.

The beneficial effects of the invention:

1. Improve the accuracy of early warning and effectively reduce the waste of emergency resources.

2. Real-time and comprehensive real-time monitoring of the occurrence and development of catastrophic weather such as typhoon, heavy rain and strong convection for power equipment, and tracking the movement and evolution of such weather systems, providing an analytical basis for predicting severe weather.

3. It can grasp the meteorological monitoring information such as temperature, wind direction, wind speed, humidity, precipitation, air pressure and visibility of important power equipment such as substation, transmission line and pole tower in real time, and provide intuitive meteorological real-time data for the grid, and provide 7 days in the future. 12-hour forecast and disaster warning information such as typhoon and lightning.

4. Based on the meteorological-electric equipment relationship, it can realize the monitoring, early warning, development trend and various emergency resources for natural disasters and emergencies through a series of disaster early warning assessment, control, emergency response system, and professional information reporting standard procedures. Intuitive information collection, display, deployment and command.

DRAWINGS

1 is a flow chart of a method for associating meteorological data with a grid facility of the present invention;

detailed description:

The present invention will be described in detail below with reference to the accompanying drawings:

As shown in FIG. 1, the present invention establishes a correlation model between meteorological real-time monitoring information and power equipment. The meteorological real-time monitoring data is combined with the grid transmission, transformation and distribution equipment to monitor the external environmental status of the grid in real time through special conversion, which greatly improves the breadth and accuracy of the grid monitoring. Supported by the grid GIS platform, it is possible to accurately locate various power transmission and distribution facilities in the province and establish a geographic information layer for the basic grid. On the other hand, the meteorological real-time monitoring and early warning information is connected to the GIS platform to establish a weather layer. By locating the associated power equipment to the meteorological monitoring points, an intuitive, convenient and interactive information query and retrieval function can be realized, and the implemented data can be presented to the emergency personnel.

It adopts J2EE multi-layer architecture, has good scalability, is easy to interconnect the system, has high security, and is easy to maintain and manage. At the same time, adopting the standard J2EE multi-layer system and component design, it provides a reliable underlying foundation for the operation of the platform system, making the system development faster and more efficient, system security, scalability, portability, usability, and easy Maintainability is strongly guaranteed.

The GIS-based correlation system between meteorological information and power equipment is as follows:

Step 1: Connect the meteorological real-time monitoring and early warning data to the GIS platform:

The currently accessed data types are as follows:

Real-time weather monitoring data
12-day, 7-day county-level forecast

Short time approaching
Short-term forecast
Medium term forecast
Forecast
Important weather forecast
Geological hazard forecast
Forest fire risk rating
Meteorological disaster warning signal
Lightning positioning
radar
Cloud map

Step 2: Position the monitoring station;

Positioning method: According to the coordinate information of the weather monitoring station, locate the GIS map.

Step 3: Establish a weather layer;

According to meteorological data, the meteorological layer is established in the early warning system based on the positioning information of the grid GIS system.

Step 4: Superimpose the meteorological layer and the equipment layer to realize real-time display of meteorological information and early warning analysis and display of meteorological disasters of power equipment.

The combination of meteorological real-time monitoring data and power equipment data, the effect of superimposition of weather layer and equipment layer is displayed in the early warning system, and the meteorological impact equipment is identified according to the scope of meteorological information, and the forecasting and early warning is carried out.

A GIS-based system for correlating meteorological information with electrical equipment, including:

Meteorological data acquisition module for connecting meteorological data of real-time monitoring and early warning to the grid GIS platform;

a coordinate positioning module for positioning a weather monitoring station in an early warning area in a power grid GIS platform;

a layer establishing module, configured to respectively establish a device layer and a weather layer in the grid GIS map according to the positioning information of the power equipment and the weather monitoring station;

The association module is used for matching and matching weather layers and power equipment layers, realizing real-time display of meteorological information, and early warning analysis and display of meteorological disasters of power equipment.

The meteorological data includes: real-time meteorological monitoring data, county-level weather forecast data for 12 hours and 7 days, short-term near-weather data, short-term weather forecast data, medium-term weather forecast data, ten-year forecast data, important weather forecast data, and geological hazard forecast. Data, forest fire risk rating data, meteorological disaster warning data, lightning location data, radar data, cloud map Data, typhoon forecast data.

The layer building module specifically includes: the geographic coordinates of the power equipment included in the power grid GIS system, and the coordinate information of the power equipment is directly exported from the power grid GIS platform to the GIS map, and the corresponding information is established in the GIS map according to the coordinate information of the power equipment. Power equipment layer;

According to the coordinate information of the meteorological monitoring station in the GIS map, it is projected onto the GIS map, and the corresponding weather layer is established according to the coordinate information.

The weather layer and the device layer are superimposed and associated, and specifically include:

The real-time meteorological data information is superimposed with the power equipment data, and the effect of superimposition of the weather layer and the equipment layer is displayed in the early warning system, and the weather affected equipment is identified according to the meteorological information, and the forecasting and early warning is performed;

The grid equipment and meteorological data are superimposed on the GIS map, and the major meteorological disaster information and emergencies are alerted.

The meteorological layer and the device layer are superimposed and associated, and according to the range of the meteorological information, the coordinates are identified by the meteorological influence device, and the forecasting and early warning is performed.

The above description of the specific embodiments of the present invention has been described with reference to the accompanying drawings, but it is not intended to limit the scope of the present invention. Those skilled in the art should understand that the skilled in the art does not require the creative work on the basis of the technical solutions of the present invention. Various modifications or variations that can be made are still within the scope of the invention.

Claims (10)

1. A method for associating weather information and power equipment based on GIS, characterized in that it comprises the following steps:

   Step 1: Connect the meteorological information of real-time monitoring and early warning to the grid GIS system and store it in the meteorological database of the grid GIS system;

   Step 2: coordinate positioning of meteorological information monitored by the monitoring station in the grid GIS system;

   Step 3: Establish a weather layer in the early warning system based on the meteorological data in the location information of the grid GIS system. The power equipment database of the grid GIS system stores the coordinate information of the power equipment, and the power equipment layer is established in the grid GIS system;

   Step 4: Superimpose the meteorological layer layer with the power equipment layer in the grid GIS system to realize real-time display of meteorological information, identify meteorological impact equipment according to meteorological information, and early warning analysis and display of meteorological disasters of power equipment.
2. The GIS-based meteorological information and power device association method according to claim 1, wherein the meteorological data in the first step comprises: real-time meteorological monitoring data, 12-day 7-day county-level weather forecast data, and short Near-weather data, short-term weather forecast data, medium-term weather forecast data, ten-year forecast data, important weather forecast data, geological hazard forecast data, forest fire risk level forecast data, meteorological disaster warning data, lightning location data, radar data, cloud map data, Typhoon forecast data.
3. The GIS-based method for associating meteorological information with a power device according to claim 1, wherein the positioning method in the second step is: positioning the GIS system according to the coordinate information of the weather monitoring station.
4. The GIS-based method for associating weather information with a power device according to claim 1, wherein the method for establishing the power device layer and the weather layer in the third step is:

   The grid GIS system contains the geographical coordinates of various power equipments, and the coordinate information of the power equipment is directly exported from the grid GIS platform to the GIS map, and the corresponding power equipment layer is established in the GIS map according to the coordinate information of the power equipment;

   According to the coordinate information of the meteorological monitoring station in the GIS map, it is projected onto the GIS map, and the corresponding weather layer is established according to the coordinate information.
5. The GIS-based method for associating weather information with a power device according to claim 1, wherein the step (4) superimposes the weather layer and the power device layer, specifically:

   The real-time meteorological data information is superimposed with the power equipment data, and the effect of superimposition of the weather layer and the equipment layer is displayed in the early warning system, and the weather affected equipment is identified according to the meteorological information, and the forecasting and early warning is performed.
6. A GIS-based system for correlating meteorological information with electrical equipment, characterized by comprising:

   Meteorological data acquisition module for connecting meteorological data of real-time monitoring and early warning to the grid GIS platform;

   a coordinate positioning module for positioning a weather monitoring station in an early warning area in a power grid GIS platform;

   A layer establishing module is configured to establish a weather layer in the early warning system according to the meteorological data in the location information of the grid GIS system, and the power equipment database of the grid GIS system stores the coordinate information of the power equipment, and is established in the grid GIS system. Power equipment layer;

   The association module is used for matching and matching weather layers and power equipment layers, realizing real-time display of meteorological information, and early warning analysis and display of meteorological disasters of power equipment.
7. The GIS-based meteorological information and power equipment association system according to claim 6, wherein the meteorological data comprises: real-time meteorological monitoring data, 12-day and 7-day county-level weather forecast data, and short-term near-weather data. Short-term weather forecast data, medium-term weather forecast data, ten-year forecast data, important weather forecast data, geological hazard forecast data, forest fire hazard level forecast data, meteorological hazard warning data, lightning location data, radar data, cloud map data, and typhoon forecast data.
8. The GIS-based meteorological information and power device association system according to claim 6, wherein the layer establishing module comprises: a grid GIS system comprising geographic coordinates of various power devices, and coordinate information of the power device. Directly exported to the GIS map by the grid GIS platform, and the corresponding power equipment layer is established in the GIS map according to the coordinate information of the power equipment;

   According to the coordinate information of the meteorological monitoring station in the GIS map, it is projected onto the GIS map, and the corresponding weather layer is established according to the coordinate information.
9. The GIS-based GIS-based meteorological information and power device association system according to claim 6, wherein the weather layer and the device layer are superimposed and associated, including:

   The real-time meteorological data information is superimposed with the power equipment data, and the effect of superimposition of the weather layer and the equipment layer is displayed in the early warning system, and the weather affected equipment is identified according to the meteorological information, and the forecasting and early warning is performed;

   The grid equipment and meteorological data are superimposed on the GIS map, and the major meteorological disaster information and emergencies are alerted.
10. The GIS-based meteorological information and power device association system according to claim 6, wherein the weather layer and the device layer are superimposed and associated, and the weather affected device is identified according to the range of the meteorological information. Forecast and warning.

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