WO2016034140A1

WO2016034140A1 - Gis map-based dynamic status plotting system and method

Info

Publication number: WO2016034140A1
Application number: PCT/CN2015/088915
Authority: WO
Inventors: 蒋斌; 孙世军; 田兵; 韩洪; 李勇; 张鹏; 许乃媛; 常英贤; 丁书耕; 何成; 牛爱梅; 高松
Original assignee: 国家电网公司; 国网山东省电力公司应急管理中心; 山东鲁能软件技术有限公司
Priority date: 2014-09-04
Filing date: 2015-09-02
Publication date: 2016-03-10
Also published as: CN105320712B; CN105320712A

Abstract

A GIS map-based dynamic status plotting system and method; said system automatically implements plotting on the basis of an incident, thus resolving the problem of the low efficiency of manual plotting. The present invention dynamically plots on a GIS map the incident source, vehicles or other supplies and allocated routes of travel; implements storage and statistical analysis of submitted data; on the basis of the incident type and level of danger, analyses affected scope and optimum route of travel; automatically generates an emergency status map; visually estimates the arrival time of each team and vehicle; provides for emergency response a variety of assessed options of allocated routes; uses graphical and symbolic plotting language to completely, comprehensively, accurately, and immediately display a rescue status; issues notifications and commands to each participating unit member in a graphical format; immediately understands the entire status development; and implements central commands.

Description

Dynamic situation plotting system and method based on GIS map

Technical field

The invention relates to a dynamic situation mapping system and method based on GIS map.

Background technique

Situational mapping is a common function of application industries such as electric power repair, military command, forest fire prevention, and earthquake emergency. It is the basis for graphical analysis of situation analysis, task deployment, and collaborative work.

For the map-based repair and command application system, if the event source or material is simply displayed on the map as an image symbol, and the entire process of displaying the event cannot be enriched, the system's advantages cannot be expressed. Application systems based on GIS maps should have the function of plotting.

The general geographic information system contains the situation plotting function. The imaged symbols using some vectors are displayed according to the business needs, but it is necessary to manually mark the event source, team and materials manually, and draw the direction of material transfer according to different situations. , the route of the vehicle. For complex business, especially for emergency response of multiple units, due to the large number of personnel and vehicles, manual manual plotting is not accurate enough, and it will take a lot of time and effort. In fact, the efficiency is obviously not enough to meet the demand.

The situation plotting system refers to the drawing of the specified symbols, characters and colors on the map or other special background maps. The core of the situation plotting system is the drawing of the figures, but these plots are all based on the people to draw.

Summary of the invention

In order to solve the above problems, the present invention proposes a dynamic situation mapping system and method based on GIS map, which automatically plots according to events, solves the problem of low manual drawing efficiency, and dynamically plots on GIS maps. Event source, vehicle or other supplies and route to transfer.

In order to achieve the above object, the present invention adopts the following technical solutions:

A dynamic situation plotting system based on GIS map, comprising a data acquisition module, a data calling module, a data statistics module, an analysis processing module, a data storage module, a monitoring module and a situation generating module, wherein the data acquisition module is connected to the data calling module, The data acquisition module communicates with the data invoking module and the data statistics module, the data statistics module communicates with the analysis processing module, the analysis processing module connects the data storage module and the situation generation module, and the monitoring module is connected to the data storage module.

The data collection module is configured to collect data of an emergency information reporting system, a weather warning platform, and an information filling system of a local power supply company, and transmit the data to a data statistics module;

The data calling module is configured to invoke data information of the material database, and pass the result of the call to the data statistics module;

The data statistics module is configured to receive data transmitted by the data collection module and the data invoking module, perform statistics, and transmit the statistical result to the analysis processing module;

The analysis processing module analyzes the affected range and the optimal travel route according to the type of the event and the hazard level of the event, and transmits the result to the situation generation module and the data storage module;

The monitoring module is configured for real-time GPS positioning of the vehicle;

The situation generating module is configured to generate an emergency situation map on the GIS map by analyzing the analysis result of the processing module;

The data storage module is configured to store result data of the analysis processing module, operation data of the user, and GPS data of the vehicle in a database.

The dynamic situation mapping method based on the above system specifically includes the following steps:

(1) The data acquisition unit collects the information of the early warning and the fault, and the situation generating module automatically generates various thematic maps and the overall situation map;

(2) The data calling module uses the DBLink method to call the data, and transfers the called data to the data statistics module;

(3) The data statistics module collects three system early warning events for the data acquisition module, and performs statistics on whether the event is effective, whether it is duplicated, or whether it is emergency protection;

(4) The analysis processing module receives the statistical data of the data statistics module, and determines the disaster scope of the event and the type of materials invoked according to the six categories of events, the 22 categories, the event warning and response level, and the event cooperation unit, combined with the GIS system. Select the optimal path;

(5) The situation generation module will analyze the processing result of the processing module, and intuitively draw the situation map on the GIS map by calling the standardized situation symbol library;

(6) The data storage module saves the analysis result of the analysis processing module in the situation table, and the operation of the user on the plotting system is saved in the operation table of the situation, and the GPS information of the vehicle is stored in the historical track table of the vehicle for later use. Playback of the vehicle's driving route;

(7) The monitoring module is responsible for monitoring the position of the vehicle by repairing the GPS device of the vehicle, and transmitting the information of the vehicle to the situation mapping system. The monitoring module plots the vehicle on the map through the real-time coordinate information of the vehicle and updates the position of the vehicle in real time. .

In the step (1), the specific method is: the data source collected by the data collection module is divided into three systems: emergency information reporting The system, the weather warning platform and the reporting system of the power supply companies in different cities, the data collection is realized by publishing the webservice, realizing the real-time push of data through the external service interface, and the data collection module transmits the data collected in real time to the data statistics. Module.

The step (2), the specific method is: the data calling module is a database of the calling material system, the system and the material system belong to different departments, but the database of the system and the material is on the intranet, so the data of the material database is called. The DBLink method performs data call and passes the called data to the data statistics module.

In the step (4), the specific division method of the six categories of the event is: the type of the event and the classification level are determined according to the "Overall Emergency Plan of the Electric Power Group Corporation Incident"; the event type specifically includes the power Emergency categories, electricity service categories, public health events, natural disasters, accident disasters, and safety incidents, including power emergencies including power emergencies and large-scale blackouts; Power shortage time, important power-saving events and power service incidents; natural disasters include floods and droughts, meteorological disasters, earthquake disasters, geological disasters, marine disasters and forest fires; accident disasters include fires, road bus events, power infrastructure Accidents, communication system accidents and environmental pollution accidents; security incidents include mass incident networks and information emergencies, casualties and foreign-related incidents.

The specific method of the step (4) is: the analysis processing module sets the statistical data of the data statistics module, determines the disaster scope of the event according to the six categories of the event, the 22 categories, the event warning and response level, and the event cooperation unit. The type of materials invoked; then the network topology of the grid facility is called to analyze the affected substation and transmission line, and some power grid repair resources such as the generator car and the repair vehicle are dispatched; in the case of the repair resource category, the GIS needs to be called again. The path service analyzes the road situation between the event location and the repair support site, calculates the time of arrival at the destination according to the traveling speed, and automatically recommends the first arrival vehicle and the optimal travel route.

The specific method of the step (4) is: calculating the path length between the emergency event and the material warehouse according to the geographic location of the emergency event, the geographical location of the material warehouse, and the road distribution, and setting the vehicle speed to be n, 60 km/h. ≤n≤110km/h, calculate the driving time T _1i , i=1,2...,m,m is the total quantity of the material warehouse. If the quantity of the adjustable materials in the material warehouse is not enough, it is necessary to calculate the supplementary materials from other warehouses. Travel time T _2i ; The travel time T=T _1i +T _2i between different material warehouses and emergencies is calculated in turn, and the smaller the T is, the better the scheme is considered.

The beneficial effects of the invention are:

1. The present invention performs statistical analysis on the submitted data, and then invokes the material database to automatically generate an emergency situation map according to the type of the event, the hazard level of the event, the affected range and the optimal travel route, and It can visualize the arrival time of each team and vehicle, and provide various allocation route evaluation options for emergency response;

2. Displaying the repair situation in a complete, comprehensive, accurate and timely manner with rich graphic language such as graphic and symbolic;

3, the generated situation map can be permanently solidified into the database, save the situation map in the form of pictures as needed, and then send notifications and instructions to the participating units in the form of pictures, and understand the development of the whole situation in time, and Execution center instructions.

DRAWINGS

Figure 1 is a schematic view of the structure of the present invention.

detailed description:

The invention will be further described below in conjunction with the drawings and embodiments.

As shown in FIG. 1 , a dynamic situation plotting system based on GIS map includes a data acquisition module, a data calling module, a data statistics module, an analysis processing module, a data storage module, a monitoring module, and a situation generating module.

The monitoring module is used for GPS real-time positioning of the vehicle.

The data storage module is configured to store result data of the analysis processing module, operation data of the user, and GPS data of the vehicle in a database;

The method based on the situation situation of the above system includes the following steps:

1) The data source collected by the data acquisition module is divided into three systems: emergency information reporting system, weather warning platform and reporting system of power supply companies in various cities. The data collection is realized by publishing webservice, and the external service interface is realized. The data is sent in real time, and the data acquisition module transmits the data collected in real time to the data statistics module.

2) The data calling module is the database of the calling material system. The system and the material system belong to different departments, but the database of the system and materials is on the intranet, so the data of the material database is called by DBLink to call the data. The data that is called is passed to the data statistics module.

3) The data statistics module is an early warning event that collects the data acquisition module into three systems, and is effective for the event, Whether it is repeated, whether it is emergency protection, etc., preliminary statistics and screening.

4) The analysis and processing module is the most complicated module. The statistical data of the data statistics module is determined according to the six categories of the event, the 22 categories, the event warning and response level, and the event cooperation unit. Type of material. Then, the network topology of the grid facility is called to analyze the affected substation and transmission line, and some power grid repair resources such as the corresponding power generation vehicle and repair vehicle are dispatched. In the case where the repair resource category is determined, the path service of the GIS needs to be called again, and the road situation between the event location and the repair support site is analyzed, and the time to reach the destination is calculated according to the traveling speed of 60 km/h or 90 km/h. The vehicle that first arrives at the event location and the optimal driving route are automatically recommended.

5) The situation generation module intuitively draws the situational map on the GIS map by calling the standardized situation symbol library by processing the processing structure of the analysis processing module.

6) The data storage module saves the results analyzed by the analysis processing module in the situation table, the operation of the user on the plotting system, such as the new driving route plotted, and the attributes of the modified symbols are saved in the operation table of the situation, the vehicle The GPS information is stored in the vehicle history track table for playback of the vehicle's driving route in the future.

7) The monitoring module is responsible for monitoring the location of the repaired vehicle. The GPS equipment is installed on the repair vehicle, and the vehicle information can be transmitted to the situation plotting system in real time. The monitoring module plots the vehicle on the map through the real-time coordinate information of the vehicle. Update the vehicle position in real time.

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

A dynamic situation plotting system based on GIS map, comprising: a data acquisition module, a data calling module, a data statistics module, an analysis processing module, a data storage module, a monitoring module and a situation generating module, wherein the data acquisition module is connected The data calling module, the data collecting module and the data calling module communicate with the data statistics module, the data statistics module communicates with the analysis processing module, the analysis processing module connects the data storage module and the situation generating module, and the monitoring module connects the data storage module.
The dynamic situation mapping system based on GIS map according to claim 1, wherein the data collection module is configured to collect an emergency information reporting system, a weather warning platform, and an information filling system of each city power supply company. Data, pass it to the data statistics module;

The data calling module is configured to invoke data information of the material database, and pass the result of the call to the data statistics module;

The data statistics module is configured to receive data transmitted by the data collection module and the data invoking module, perform statistics, and transmit the statistical result to the analysis processing module;

The analysis processing module analyzes the affected range and the optimal travel route according to the type of the event and the hazard level of the event, and transmits the result to the situation generation module and the data storage module;

The monitoring module is configured for real-time GPS positioning of the vehicle;

The situation generating module is configured to generate an emergency situation map on the GIS map by analyzing the analysis result of the processing module;

The data storage module is configured to store result data of the analysis processing module, operation data of the user, and GPS data of the vehicle in a database.
The dynamic situation mapping method for a dynamic situation mapping system based on a GIS map according to any one of claims 1-2, characterized in that the method comprises the following steps:

(1) The data acquisition unit collects the information of the early warning and the fault, and the situation generating module automatically generates various thematic maps and the overall situation map;

(2) The data calling module uses the DBLink method to call the data, and transfers the called data to the data statistics module;

(3) The data statistics module collects three system early warning events for the data acquisition module, and performs statistics on whether the event is effective, whether it is duplicated, or whether it is emergency protection;

(4) The analysis processing module receives the statistical data of the data statistics module, and determines the disaster scope of the event and the type of materials invoked according to the six categories of events, the 22 categories, the event warning and response level, and the event cooperation unit, combined with the GIS system. Select the optimal path;

(5) The situation generation module will analyze the processing result of the processing module, and intuitively draw the situation map on the GIS map by calling the standardized situation symbol library;

(6) The data storage module saves the analysis result of the analysis processing module in the situation table, and the operation of the user on the plotting system is saved in the operation table of the situation, and the GPS information of the vehicle is stored in the historical track table of the vehicle for later use. Playback of the vehicle's driving route;

(7) The monitoring module is responsible for monitoring the position of the vehicle by repairing the GPS device of the vehicle, and transmitting the information of the vehicle to the situation mapping system. The monitoring module plots the vehicle on the map through the real-time coordinate information of the vehicle and updates the position of the vehicle in real time. .
The dynamic situation mapping method according to claim 3, characterized in that: in the step (1), the specific method is: the data source collected by the data acquisition module is divided into three systems: an emergency information reporting system, a weather warning platform, and The reporting system of the power supply companies in various cities, the data collection is realized by publishing the webservice, realizing the real-time push of data through the external service interface, and the data acquisition module transmits the data collected in real time to the data statistics module.
The dynamic situation mapping method according to claim 3, characterized in that: in the step (2), the specific method is: the data calling module is a database of the calling material system, and the system and the material system belong to different departments, but The database of the system and materials is on the intranet, so the data of the material database is called by DBLink to transfer the data to the data statistics module.
The dynamic situation mapping method according to claim 3, wherein in the step (4), the specific division method of the six categories of the event is: the type of the event, and the classification level is according to the "Power Group". The company's overall emergency plan for emergencies is determined; the types of events include power emergencies, power services, public health events, natural disasters, accident disasters, and security incidents, among which power emergencies The categories include power emergencies and large-scale blackouts; power service categories include power shortage time, important power-saving events, and power service events; natural disasters include floods and droughts, meteorological disasters, earthquake disasters, geological disasters, and marine disasters. And forest fires; accident disasters include fires, road bus incidents, power infrastructure accidents, communication system accidents and environmental pollution accidents; security incidents include mass incident networks and information emergencies, casualties and foreign-related incidents.
The dynamic situation mapping method according to claim 3, wherein the specific method of the step (4) is: the analysis processing module sets the statistical data of the data statistics module according to the six categories of events, 22 subclasses, events. The early warning and response level, the event coordination unit determines the disaster scope of the event and the type of materials that should be called; then the network topology of the grid facility is called to analyze the affected substation and transmission line, and the corresponding power generation vehicles and repair vehicles are dispatched. To repair resources; in the case of determining the type of repair resources, you need to call the path service of GIS to analyze the event location and the repair support site. In the case of the road, the time to arrive at the destination is calculated based on the traveling speed, and the vehicle that first arrives at the event and the optimal driving route are automatically recommended.
The dynamic situation mapping method according to claim 7, wherein the specific method of the step (4) is: calculating an emergency event according to the geographic location of the emergency event, the geographical location of the material warehouse, and the road distribution, The path length between the material warehouses is set to n, 60km/h≤n≤110km/h, and the travel time T 1i , i=1, 2...,m,m is calculated as the total quantity of the material warehouse, if The quantity of adjustable materials in the material warehouse is not enough. It is necessary to calculate the travel time T 2i from other warehouses; and calculate the travel time T=T 1i +T 2i between different material warehouses and emergencies in turn, and the smaller the T is, Then think that the program is optimal.