CN118036916A - Emergency information management system - Google Patents

Abstract

The application provides an emergency information management system which comprises a data acquisition module, a power failure and power restoration monitoring module, a data processing module, a visualization module and an information pushing module, wherein the data acquisition module is used for acquiring information of a user; the emergency data acquired by the data acquisition module are integrated and analyzed through the data processing module to obtain target data, a power failure area in the target area is determined through the power failure and power restoration monitoring module, and power failure information is generated, so that the visualization module can be combined with GIS service to visually display weather conditions, the target data and the power failure area. Therefore, the power grid staff can intuitively know the integrated and analyzed emergency data, accurately master the power failure area affected by the disaster, avoid the problems of multi-head report, repeated report and the like, furthest realize information sharing, assist the emergency decision of the power grid, enable the power grid unit to timely and effectively develop emergency actions such as equipment rush repair, power failure and power restoration information report and the like, and further improve the efficiency of emergency management of the power grid.

Description

Emergency information management system

Technical Field

The application relates to the technical field of emergency management, in particular to an emergency information management system.

Background

Along with the acceleration of industrialization and urbanization, electric power becomes one of the irremovable resources in life of everyone, and the coverage range of power grid equipment is wider and most of the power grid equipment is in an open air environment, so that the stable operation of the power grid equipment is easily affected by external conditions, and the production and management order of society can be seriously affected once the electric power supply is lost when natural disasters occur.

At present, emergency information is reported and collected through a scattered and diverse way, and the integration and sharing of heterologous messages are lacked. The emergency information is not timely reported, and the disaster affected area is difficult to accurately grasp, so that the efficiency of emergency management of the power grid is reduced.

Disclosure of Invention

The object of the present application is to solve at least one of the above technical drawbacks, and in particular to lack of integrated sharing of heterologous messages in the prior art. The technical defect that the emergency information is not timely reported, the disaster affected area is difficult to accurately grasp, and the efficiency of power grid emergency management is further reduced is caused.

The application provides an emergency information management system, which comprises a data acquisition module, a power failure and power restoration monitoring module, a data processing module, a visualization module and an information pushing module, wherein the data acquisition module is used for acquiring information of a user;

the data acquisition module is used for acquiring emergency data of each target system in the target area;

The data processing module is used for integrating and analyzing the emergency data of each target system acquired by the data acquisition module to obtain target data;

the power failure monitoring module is used for monitoring the operation information of the power system and determining a power failure area in the target area in real time according to a preset power grid information model and the operation information; the power failure recovery module is also used for identifying a power failure recovery event, generating corresponding power failure recovery information and sending the power failure recovery information to the information pushing module;

The visualization module is used for carrying out visual display on weather conditions in the target area, the target data and the power failure area in real time according to GIS service;

the information pushing module is used for pushing the received information to the contact corresponding to the category of the received information according to the category of the received information.

In one embodiment, the visualization module is further configured to monitor and display weather information of an area where each power grid device in the target area is located in real time according to the power grid information model, and when power grid devices with evaluation scores exceeding an alarm threshold are monitored, generate corresponding alarm information and send the alarm information to the information push module.

In one embodiment, when a grid device whose evaluation score exceeds an alarm threshold is monitored, a process of generating corresponding alarm information includes:

The visualization module acquires a risk evaluation system, performs risk evaluation on each power grid device in the target area by using the risk evaluation system, obtains an evaluation value corresponding to each power grid device in the target area, determines target power grid devices with evaluation values larger than alarm thresholds corresponding to the target power grid devices, and generates alarm information corresponding to the target power grid devices.

In one embodiment, the data processing module is configured to integrate and analyze the emergency data of each target system acquired by the data acquisition module, so as to obtain a process of target data, where the process includes:

The data processing module stores the emergency data of each target system into the same database to complete data integration, and inputs all data in the database into a preset data analysis model to obtain target data; the data analysis model is used for receiving emergency data and carrying out statistical analysis on the emergency data so as to output target data corresponding to the received emergency data.

In one embodiment, the power outage monitoring module is configured to monitor operation information of a power system, and determine, in real time, a power outage area in the target area according to a preset power grid information model and the operation information, where the process includes:

The power failure and restoration monitoring module acquires the operation information of the power system in real time, and matches the operation information with the power grid information model to obtain an operation state model of the power system;

The power failure monitoring module divides a power failure area according to the states of all lines and the running states of all power equipment in the running state model, and marks the power failure area in the running state model so as to finish the determination of the power failure area.

In one embodiment, the power-off and power-on monitoring module is further configured to identify a power-off and power-on event, and generate corresponding power-off and power-on information, including:

The power failure and power restoration monitoring module judges the event type of a power failure and power restoration event corresponding to a unit with power failure area change in the target area according to the change of the power failure area in the target area, and generates power failure and power restoration information corresponding to a unit with power failure area change in the target area according to the event type of the power failure and power restoration event corresponding to the unit with power failure area change in the target area; wherein the event types include a power outage event and a power restoration event.

In one embodiment, the process of pushing the received information to the contacts corresponding to the category of the received information by the information pushing module according to the category of the received information includes:

The information pushing module searches contacts corresponding to the category of the received information in a preset category relation table according to the category of the received information, and when the contacts corresponding to the category of the received information are determined, the received information is sent to a client corresponding to the contacts.

In one embodiment, the categories of the information received by the information pushing module include a power outage category, a power restoration category and an alarm category.

In one embodiment, the visualization module is further configured to obtain emergency organization architecture and emergency resource data, and identify the emergency organization architecture and the emergency resource data in the map corresponding to the target area, so as to perform visual display on the emergency organization architecture and the emergency resource data.

In one embodiment, the system further comprises an emergency plan generation module;

The emergency plan generating module is used for generating an emergency plan according to the picture displayed by the visualization module.

From the above technical solutions, the embodiment of the present application has the following advantages:

The application provides an emergency information management system which comprises a data acquisition module, a power failure and power restoration monitoring module, a data processing module, a visualization module and an information pushing module, wherein the data acquisition module is used for acquiring data from an emergency information system; the emergency data acquired by the data acquisition module are integrated and analyzed through the data processing module to obtain target data, a power failure area in the target area is determined through the power failure and power restoration monitoring module, and power failure information is generated, so that the visualization module can be combined with GIS service to visually display weather conditions, the target data and the power failure area. Therefore, the power grid staff can intuitively know the integrated and analyzed emergency data, accurately master the power failure area affected by the disaster, avoid the problems of multi-head report, repeated report and the like, furthest realize information sharing, assist the emergency decision of the power grid, enable the power grid unit to timely and effectively develop emergency actions such as equipment rush repair, power failure and power restoration information report and the like, and further improve the efficiency of emergency management of the power grid.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the application, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic diagram of an emergency information management system according to an embodiment of the present application;

FIG. 2 is a schematic diagram of an overall structure of an emergency information management system according to an embodiment of the present application;

Fig. 3 is an application flowchart of an emergency information management system according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

As shown in fig. 1, fig. 1 is a schematic structural diagram of an emergency information management system provided by the present application. The application provides an emergency information management system, which comprises a data acquisition module, a power failure and power restoration monitoring module, a data processing module, a visualization module and an information pushing module, wherein the data acquisition module is used for acquiring information of a user;

The data acquisition module is used for acquiring emergency data of each target system in the target area;

the data processing module is used for integrating and analyzing the emergency data of each target system acquired by the data acquisition module to obtain target data;

The power failure monitoring module is used for monitoring the operation information of the power system and determining a power failure area in the target area in real time according to a preset power grid information model and the operation information; the system is also used for identifying the power failure and power restoration event, generating corresponding power failure and power restoration information and sending the power failure and power restoration information to the information pushing module;

the visualization module is used for carrying out visual display on weather conditions, target data and power failure areas in the target area in real time according to the GIS service;

The information pushing module is used for pushing the received information to the contact corresponding to the category of the received information according to the category of the received information.

The target area refers to a regional range, such as Guangzhou city, and the like. The target system is an information management system supported by departments in emergency management related units. The emergency data refers to related data information required in emergency management work, the emergency data contained in different target systems are different, and the emergency data contained in different target systems can comprise environment monitoring data, weather and weather data, demographic data, medical and health data, traffic and transportation data, communication network data, energy power supply data and the like. An electrical power system refers to an overall system consisting of a power plant, a transmission grid and a distribution grid for producing, transmitting and distributing electrical energy. GIS services refer to various functions and services provided by the geographic information system (Geographic Information System). A geographic information system is a technical system for capturing, storing, managing, analyzing and presenting geospatial data.

It will be appreciated that the grid information model is a data model that is used to describe and represent the power system. It contains the various levels and elements of the power system, such as power plants, substations, transmission lines, distribution networks, etc., as well as the topological relationships, physical connections and parameter information between them. By establishing the power grid information model, comprehensive cognition of the power system can be realized, and basic data support is provided for carrying out various applications and decisions. The construction process of the power grid information model can be as follows: a demand analysis stage, a data acquisition stage, a data processing stage, a model construction stage and a model verification and optimization stage.

In this embodiment, the emergency information management system provided by the present application includes a plurality of functional modules, and the plurality of functional modules together complete emergency information management. The data acquisition module can acquire emergency data of each target system in the target area and convey the acquired emergency data to the data processing module, and after the data processing module receives the data sent by the data acquisition module, the received data are from different target systems and belong to heterogeneous data, so that the received data need to be integrated and analyzed to obtain the target data. The power failure monitoring module can monitor the running state of the power system, determine the power failure area in real time, generate power failure information, and send the generated power failure information to the information pushing module for pushing service. In order to enable the power grid personnel to intuitively understand the data analyzed by the emergency management system, the target data and the power failure area can be displayed through the visualization module.

Specifically, the information pushing module pushes the received information to the contacts corresponding to the categories, and at least one contact exists in the contacts corresponding to the different categories, so that the set of the contacts corresponding to the different categories may or may not have an intersection.

Still further, the emergency management system may be built through an SOA architecture. The SOA (Service-Oriented Architecture) architecture is a Service-oriented architecture for implementing loosely coupled, reusable, assemblable, and manageable services. In an SOA architecture, a software system is divided into individual services that cooperate to complete a business process.

In one embodiment, the data processing module is further configured to send some of the underlying information or weather information to the information pushing module to push the information to clients that have subscribed to the information. It will be appreciated that the information and the triggering conditions specifically sent by the data processing module to the information pushing module may be set according to the relevant rules, which is not specifically limited by the present application.

The application provides an emergency information management system which comprises a data acquisition module, a power failure and power restoration monitoring module, a data processing module, a visualization module and an information pushing module, wherein the data acquisition module is used for acquiring data from an emergency information system; the emergency data acquired by the data acquisition module are integrated and analyzed through the data processing module to obtain target data, a power failure area in the target area is determined through the power failure and power restoration monitoring module, and power failure information is generated, so that the visualization module can be combined with GIS service to visually display weather conditions, the target data and the power failure area. Therefore, the power grid staff can intuitively know the integrated and analyzed emergency data, accurately master the power failure area affected by the disaster, avoid the problems of multi-head report, repeated report and the like, furthest realize information sharing, assist the emergency decision of the power grid, enable the power grid unit to timely and effectively develop emergency actions such as equipment rush repair, power failure and power restoration information report and the like, and further improve the efficiency of emergency management of the power grid.

In one embodiment, the visualization module is further configured to monitor and display weather information of an area where each power grid device in the target area is located in real time according to the power grid information model, and when power grid devices with evaluation scores exceeding an alarm threshold are monitored, generate corresponding alarm information and send the alarm information to the information pushing module.

The power grid equipment refers to various equipment and devices used for links such as transmission, distribution, transformation and the like in a power system. Such as transformers, electric energy meters, substations, relays, etc.

In this embodiment, the location of each power grid device in the target area can be determined through the power grid information model, and weather information corresponding to the location of each power grid device in the target area is queried by using a preset weather system according to the location of each power grid device in the target area. It can be understood that the visualization module can start real-time monitoring of the evaluation value of each power grid device in the target area according to the weather information corresponding to the position of each power grid device in the target area, and when the power grid device with the evaluation value exceeding the alarm threshold is monitored, the corresponding alarm information is generated.

Still further, initiating real-time monitoring of the evaluation value of each grid device within the target area may include: and acquiring the equipment type of each power grid equipment, determining a scoring rule corresponding to each power grid equipment according to the equipment type of each power grid equipment, and combining the meteorological information of the area where each power grid equipment is located to obtain an evaluation value corresponding to each power grid equipment.

Specifically, the alarm thresholds corresponding to different device types may be different, so when determining whether the evaluation value of the power grid device exceeds the alarm threshold, the alarm threshold corresponding to the device type of the power grid device needs to be acquired to perform the determination. It can be appreciated that the mapping relationship between the device type and the alarm threshold is preset.

In one embodiment, when a grid device whose evaluation score exceeds an alarm threshold is monitored, a process of generating corresponding alarm information includes:

The visualization module acquires a risk evaluation system, performs risk evaluation on each power grid device in the target area by using the risk evaluation system, obtains an evaluation value corresponding to each power grid device in the target area, determines the target power grid device with the evaluation value larger than the corresponding alarm threshold value, and generates alarm information corresponding to the target power grid device.

The risk evaluation system comprises a plurality of evaluation indexes.

In this embodiment, the visualization module may acquire the current risk evaluation system in real time, and acquire, based on each evaluation index in the risk evaluation system, evaluation data corresponding to each power grid device in the target area and each evaluation index, so as to complete risk evaluation on each power grid device in the target area, and obtain an evaluation score corresponding to each power grid device in the target area. And when detecting that the grid equipment with the evaluation value larger than the corresponding alarm threshold exists in the target area, generating alarm information corresponding to the grid equipment.

Still further, risk assessment of individual grid devices within the target area may include: and matching the evaluation data of each power grid device in the target area corresponding to each evaluation index with each evaluation index to obtain a target score of each power grid device corresponding to each evaluation index, and further obtaining the weight of each evaluation index in the current risk evaluation system. And respectively carrying out weighted summation on the target scores corresponding to each evaluation index of each power grid device according to the weights of each evaluation index in the current risk evaluation system, and obtaining the evaluation scores corresponding to each power grid device.

It can be understood that the affected condition of each power grid device in the target area is detected so as to arrange the rush repair work in time, ensure the safety of the power grid device to the greatest extent and avoid unnecessary loss. Further improving the reliability of the power system.

In one embodiment, the data processing module is configured to integrate and analyze the emergency data of each target system acquired by the data acquisition module, and obtain a process of the target data, where the process includes:

The data processing module stores the emergency data of each target system into the same database to complete data integration, and inputs all data in the database into a preset data analysis model to obtain target data; the data analysis model is used for receiving the emergency data and carrying out statistical analysis on the emergency data so as to output target data corresponding to the received emergency data.

It will be appreciated that the database may be a relational database, a data warehouse, a data lake, etc., and the present application is not limited in this regard. The database may include an emergency base database and an emergency topic database.

In this embodiment, the data processing module stores the data collected by the data collecting module into the same database, i.e. integrates the data. After data integration is completed, the data in the database is analyzed based on a data analysis model, and corresponding target data is obtained.

In one embodiment, the power outage monitoring module is configured to monitor operation information of a power system, and determine, in real time, a power outage area in a target area according to a preset power grid information model and the operation information, where the process includes:

the power failure and restoration monitoring module acquires the operation information of the power system in real time, and matches the operation information with the power grid information model to obtain an operation state model of the power system;

The power failure monitoring module divides a power failure area according to the states of all lines and the running states of all power equipment in the running state model, and identifies the power failure area in the running state model so as to finish the determination of the power failure area.

The operation state model comprises operation information of the power system and data in the power grid information model.

In this embodiment, when the operation state model of the power system is obtained according to the operation information and the grid information model, the outage area is analyzed and divided based on the data that can be acquired in the operation state model, and after the outage area is determined, the outage area is identified in the operation state model. It is to be understood that the power outage area may be identified by a certain color, or by a pattern or line, which is not particularly limited in the present application.

In one embodiment, the power outage monitoring module is further configured to identify a power outage event, and generate corresponding power outage information, including:

The power failure and power restoration monitoring module judges the event type of a power failure and power restoration event corresponding to a unit with power failure area change in the target area according to the change of the power failure area in the target area, and generates power failure and power restoration information corresponding to the unit with power failure area change in the target area according to the event type of the power failure and power restoration event corresponding to the unit with power failure area change in the target area; the event types include power outage events and power restoration events.

It can be understood that the power failure and power restoration monitoring module can judge the event type of the power failure and power restoration event corresponding to the unit with the power failure area change in the target area by monitoring the change of the power failure area in the target area. And then generating power outage and restoration information according to the event type of the power outage and restoration event corresponding to the unit with the power outage area change in the target area, and sending the generated power outage and restoration information to the information pushing module, so that the information pushing module can send the power outage and restoration information to related personnel such as resident users, enterprise management personnel, power grid staff and the like.

For example, it is assumed that there are a unit a, a unit b, and a unit c in the target area a, in a certain period, the unit a belongs to the range of the power outage area, the unit b and the unit c do not belong to the range of the power outage area, in a next period, the unit a and the unit b are detected to be not in the range of the power outage area, and the unit c belongs to the range of the power outage area, at this time, since the unit a changes from the range of the power outage area to the range not belonging to the power outage area, the event type of the power outage event corresponding to the unit a is the power outage event, and so on, the event type of the power outage event corresponding to the unit c is the power outage event. The unit b does not change in the power outage area, and therefore, there is no corresponding power outage event.

It can be understood that the power outage and restoration situation and the power outage area are monitored in real time, so that a user and emergency staff can know the power outage and restoration situation in time, improper or untimely emergency management caused by information delay is avoided, and the efficiency and the fineness of emergency management work are improved.

In one embodiment, the process of the information pushing module for pushing the received information to the contacts corresponding to the category of the received information according to the category of the received information includes:

the information pushing module searches contacts corresponding to the category of the received information in a preset category relation table according to the category of the received information, and when the contacts corresponding to the category of the received information are determined, the received information is sent to the client corresponding to the contacts.

The category relation table may represent a mapping relation between an information category and a contact corresponding to the information category. Moreover, one category of information corresponds to at least one contact. The class information table is set by power grid staff according to requirements and actual conditions. When the contact corresponding to the category needs to be adjusted or the category needs to be adjusted, operations such as adding the contact/category, deleting the contact/category, modifying the contact/category and the like can be realized by maintaining a category relation table.

In this embodiment, the information pushing module determines, according to the received information category, a contact corresponding to the received information category in a preset category relation table, so as to push the received information to the determined contact.

It can be understood that the information is pushed to different contacts through the category of the information, so that the information can be timely and accurately pushed out, information sharing is realized, and further the efficiency and reliability of emergency management work are improved.

In one embodiment, the categories of information received by the information pushing module include a power outage category, a power restoration category, and an alarm category.

For example, assuming that the received information is power outage information, the event type of which is a power outage event, the category of the information is a power outage category. Assuming that the received information is power-off information and the event type is a power-off event, the category of the information is the power-off category. And assuming that the received alarm information corresponding to a certain power grid device is the alarm type.

In one embodiment, the visualization module is further configured to obtain emergency organization architecture and emergency resource data, and identify the emergency organization architecture and the emergency resource data in a map corresponding to the target area, so as to perform visual display on the emergency organization architecture and the emergency resource data.

The emergency resource data comprises emergency team data, emergency equipment data, emergency material data and the like.

In this embodiment, when the emergency information management system receives an instruction for visualizing the emergency resource, the visualization module may acquire emergency organization architecture and emergency resource data in the target area, process the data, and then identify the processed data in a map corresponding to the target area, so as to perform visual display on the emergency organization architecture and the emergency resource data.

It can be understood that the emergency resources can be timely ensured by carrying out data processing and visualization on the emergency resources, so that an emergency command center can quickly know the basic conditions of emergency teams and emergency equipment, provide technical support for emergency work and assist emergency decision-making.

As shown in fig. 2, fig. 2 is a schematic diagram of an overall structure of an emergency information management system according to the present application. In one embodiment, the emergency information management system further comprises an emergency plan generation module;

the emergency plan generating module is used for generating an emergency plan according to the picture displayed by the visualization module.

In this embodiment, an emergency plan generating module may be set in the emergency information management system, where the emergency plan generating module may extract key information according to a page displayed by the visualization module, for example: power outage areas, power outage information, weather information, warning information of power grid equipment and the like. And analyzing the extracted key information based on the neural network model to form an emergency plan. The emergency plan may include an emergency plan overview, an emergency organization, an emergency plan flow, an emergency resource guarantee, and the like, among others.

It can be understood that the emergency plan generating module can assist workers to develop work, and the digitization degree of emergency management is improved. Moreover, the data can be rapidly analyzed through the emergency plan generating module, the emergency plan can be obtained, and the efficiency of developing and executing the emergency work is improved.

In one example, as shown in fig. 3, fig. 3 is an application flowchart of an emergency information management system provided by the present application. The system comprises a dispatching department, a device department, a customer service department, a news department, an security department and the like, wherein the departments are departments of related emergency management units, and emergency information of each department, namely emergency data of each target system, can be acquired from an information management system in each department. The data center is used for collecting emergency data of each department, monitoring power failure areas, identifying work related to data collection and data monitoring, such as power failure and power restoration event. The information integration can integrate and analyze the data acquired by the data center, and save the data after the information integration to the emergency basic database and the emergency thematic database. It is understood that the emergency basic data is a comprehensive database, and the basic data in the emergency data is mainly stored, including personnel, materials, equipment, communication information and the like. The emergency thematic database is a professional database established for a specific field or event and is mainly used for emergency response and processing work. After the data are stored in the database, the data in the database can be visually displayed to form an emergency graph. Various information can be pushed out through instruction integration release.

Finally, it is further noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises/comprising," "includes," and/or "having," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, components, or groups thereof, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or groups thereof, and include any and all combinations of the listed items.

In the present specification, each embodiment is described in a progressive manner, and each embodiment focuses on the difference from other embodiments, and may be combined according to needs, and the same similar parts may be referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The emergency information management system is characterized by comprising a data acquisition module, a power failure and restoration monitoring module, a data processing module, a visualization module and an information pushing module;

the data acquisition module is used for acquiring emergency data of each target system in the target area;

The data processing module is used for integrating and analyzing the emergency data of each target system acquired by the data acquisition module to obtain target data;

the power failure monitoring module is used for monitoring the operation information of the power system and determining a power failure area in the target area in real time according to a preset power grid information model and the operation information; the power failure recovery module is also used for identifying a power failure recovery event, generating corresponding power failure recovery information and sending the power failure recovery information to the information pushing module;

The visualization module is used for carrying out visual display on weather conditions in the target area, the target data and the power failure area in real time according to GIS service;

the information pushing module is used for pushing the received information to the contact corresponding to the category of the received information according to the category of the received information.

2. The emergency information management system according to claim 1, wherein the visualization module is further configured to monitor and display weather information of an area where each power grid device in the target area is located in real time according to the power grid information model, and when power grid devices whose evaluation scores exceed an alarm threshold are monitored, generate corresponding alarm information and send the alarm information to the information push module.

3. The emergency information management system according to claim 2, wherein the process of generating the corresponding alarm information when the grid device whose evaluation score exceeds the alarm threshold is monitored, comprises:

The visualization module acquires a risk evaluation system, performs risk evaluation on each power grid device in the target area by using the risk evaluation system, obtains an evaluation value corresponding to each power grid device in the target area, determines target power grid devices with evaluation values larger than alarm thresholds corresponding to the target power grid devices, and generates alarm information corresponding to the target power grid devices.

4. The emergency information management system according to claim 1, wherein the data processing module is configured to integrate and analyze the emergency data of each target system collected by the data collecting module to obtain a process of target data, and the process includes:

The data processing module stores the emergency data of each target system into the same database to complete data integration, and inputs all data in the database into a preset data analysis model to obtain target data; the data analysis model is used for receiving emergency data and carrying out statistical analysis on the emergency data so as to output target data corresponding to the received emergency data.

5. The emergency information management system according to claim 1, wherein the power outage monitoring module is configured to monitor operation information of a power system, and determine, in real time, a power outage area in the target area according to a preset power grid information model and the operation information, and the process includes:

The power failure and restoration monitoring module acquires the operation information of the power system in real time, and matches the operation information with the power grid information model to obtain an operation state model of the power system;

The power failure monitoring module divides a power failure area according to the states of all lines and the running states of all power equipment in the running state model, and marks the power failure area in the running state model so as to finish the determination of the power failure area.

6. The emergency information management system of any one of claims 1 to 5, wherein the power outage monitoring module is further configured to identify a power outage event, and wherein the process of generating corresponding power outage information comprises:

The power failure and power restoration monitoring module judges the event type of a power failure and power restoration event corresponding to a unit with power failure area change in the target area according to the change of the power failure area in the target area, and generates power failure and power restoration information corresponding to a unit with power failure area change in the target area according to the event type of the power failure and power restoration event corresponding to the unit with power failure area change in the target area; wherein the event types include a power outage event and a power restoration event.

7. The emergency information management system according to claim 1, wherein the information pushing module is configured to push the received information to the contacts corresponding to the category according to the category of the received information, and the process includes:

The information pushing module searches contacts corresponding to the category of the received information in a preset category relation table according to the category of the received information, and when the contacts corresponding to the category of the received information are determined, the received information is sent to a client corresponding to the contacts.

8. The emergency information management system of claim 1, wherein the categories of information received by the information push module include a blackout category, a duplicate category, and an alarm category.

9. The emergency information management system of claim 1, wherein the visualization module is further configured to obtain emergency organization architecture and emergency resource data, and identify the emergency organization architecture and the emergency resource data in the target area correspondence map to visually display the emergency organization architecture and the emergency resource data.

10. The emergency information management system of claim 1, further comprising an emergency plan generation module;

The emergency plan generating module is used for generating an emergency plan according to the picture displayed by the visualization module.