CN111402099A

CN111402099A - Earthquake emergency decision system

Info

Publication number: CN111402099A
Application number: CN201910733170.3A
Authority: CN
Inventors: 毕雪梅; 鲍海英; 韩贞辉
Original assignee: JIANGSU EARTHQUAKE ADMINISTRATION
Current assignee: JIANGSU EARTHQUAKE ADMINISTRATION
Priority date: 2019-08-09
Filing date: 2019-08-09
Publication date: 2020-07-10

Abstract

The invention discloses an earthquake emergency decision system, which utilizes background information, weather information and historical disaster information in earthquake to construct an earthquake scene, and simultaneously combines an earthquake emergency rule base, an earthquake case base, an earthquake emergency knowledge base and the like to obtain a corresponding earthquake emergency response level, determine emergency response content, determine disposal strategy suggestions by acquiring and classifying earthquake disaster information, and generate earthquake disaster briefings in each stage in the process of acquiring and processing earthquake related information. The invention focuses on considering the work tasks and targets at different stages during earthquake emergency, and the dynamic evolution process of disaster situations and emergency events after earthquake, constructs a state-target-task-countermeasure overall-process scene type earthquake emergency decision system from the angles of multiple targets, multiple dimensions, multiple main bodies, multiple stages and multiple disaster types, and automatically generates disaster briefing, thereby realizing high-efficiency prevention, timely response and scientific disposal, and promoting the conversion of earthquake emergency from experience emergency to scientific emergency.

Description

Earthquake emergency decision system

Technical Field

The invention relates to the field of information processing, in particular to an earthquake emergency decision system.

Background

Most of the current earthquake emergency aid decision-making systems are sealed by relatively closed task modules, and generate disposal suggestions according to relevant contents in emergency response level matching emergency plans, the results are relatively single and fixed, the regional difference of earthquake disasters is not considered, and the dynamic adjustment cannot be carried out along with the disaster change. Therefore, the effectiveness and the scientificity are relatively poor, and the correction and the adjustment are mainly carried out by depending on the expert experience, so that the practicability and the popularization are poor in the process of saving less earthquake, particularly the saving less destructive earthquake.

Disclosure of Invention

The invention aims to provide an earthquake emergency decision system which is beneficial to implementation of multi-target multi-subject complex decisions after an earthquake, enables emergency disposal strategy suggestions to be more accurate and targeted, enables command decisions to be more efficient and scientific, and promotes the transition of earthquake emergency from experience emergency to scientific emergency.

In order to achieve the purpose, the invention provides the following scheme:

a seismic emergency decision system, the decision system comprising:

the earthquake scene construction unit is used for constructing an earthquake scene of an earthquake area according to background information, historical disaster conditions and weather information of an earthquake occurrence place;

the first-stage briefing generating unit is used for generating a first-stage briefing according to the earthquake scene;

the earthquake sensing information classification unit is used for acquiring earthquake sensing information of the earthquake occurrence place, classifying the earthquake sensing information and storing the classified earthquake sensing information into a database;

the response content determining unit is used for matching corresponding earthquake emergency response levels according to earthquake emergency response initial judgment conditions and/or earthquake disaster levels by combining the earthquake scenes and the classified earthquake feeling information, and determining corresponding emergency response contents;

the second-stage briefing generating unit is used for generating a second-stage briefing by combining the earthquake case base and the emergency response content according to the classified earthquake feeling information;

the earthquake disaster situation acquisition unit is used for acquiring earthquake disaster situation information in real time and classifying the earthquake disaster situation information;

the disposal countermeasure suggestion determination unit is used for determining corresponding disposal countermeasure suggestions according to the classified earthquake disaster information, earthquake emergency flow and earthquake emergency plans in the earthquake scene;

the third-stage briefing generation unit is used for generating a third-stage briefing according to the earthquake disaster information and the disposal countermeasure suggestion;

the disaster evaluation result acquisition unit is used for acquiring a disaster evaluation result;

the fourth-stage briefing generation unit is used for generating a fourth-stage briefing according to the disaster situation evaluation result, the disaster relief requirement and the treatment strategy suggestion;

and the fifth-stage briefing generation unit is used for generating the fifth-stage briefing according to the earthquake disaster information, the disposal countermeasure suggestion and the working target and task of the current earthquake emergency stage.

Optionally, the seismic scene constructing unit includes:

the earthquake region background information acquisition module is used for acquiring background information corresponding to an earthquake occurrence place according to the earthquake occurrence place;

the historical disaster information acquisition module is used for acquiring historical disaster information which occurs in an earthquake area range from a network and the earthquake case library according to the earthquake occurrence place;

the weather information acquisition module is used for acquiring weather information of the earthquake occurrence place on the same day and three days in the future according to the earthquake occurrence place;

and the earthquake scene construction module is used for constructing an earthquake scene of the earthquake area according to the background information, the historical disaster information and the weather information.

Optionally, the earthquake sensation information statistic unit includes:

the earthquake sensation information acquisition module is used for acquiring earthquake sensation information from a network according to earthquake sensation information keywords and a place name dictionary in an earthquake dictionary;

the place matching module is used for matching a corresponding place with the seismograph information according to the seismograph information;

the earthquake sensation information classification module is used for classifying the earthquake sensation information according to earthquake sensation intensity keywords in the earthquake dictionary;

and the earthquake feeling information storage module is used for storing the earthquake feeling information and the corresponding places into a database.

Optionally, the response content determining unit includes:

the emergency response initial judgment condition acquisition module is used for acquiring the earthquake emergency response initial judgment condition from the earthquake emergency flow and the earthquake emergency plan;

the earthquake disaster grade acquisition module is used for acquiring the earthquake disaster grade from the earthquake emergency flow and the earthquake emergency plan;

the emergency response level matching module is used for matching the earthquake emergency response level according to the earthquake emergency response initial judgment condition and/or the earthquake disaster level;

and the response content determining module is used for determining the earthquake response content according to the earthquake emergency response level.

Optionally, the earthquake disaster situation acquisition and processing unit includes:

the earthquake disaster information acquisition module is used for acquiring earthquake disaster information in real time from a network;

and the earthquake disaster information classification module is used for classifying the earthquake disaster information according to the predefined earthquake dictionary.

Optionally, the treatment countermeasure suggestion determination unit includes:

and the response suggestion generation module is used for generating corresponding emergency response contents according to the earthquake emergency response level.

Optionally, the response suggestion generation module includes:

the earthquake emergency response level matching submodule is used for matching the earthquake emergency response level according to the earthquake occurrence place and the earthquake magnitude;

and the emergency response content matching sub-module is used for respectively matching the emergency response content from the earthquake emergency rule base, the earthquake case base and the earthquake emergency knowledge base according to the earthquake occurrence place and the earthquake emergency response level.

Optionally, the treatment countermeasure suggestion determination unit further includes:

and the disposal content and suggestion matching module is used for respectively matching disposal content and suggestions from the earthquake emergency rule base, the earthquake case base and the earthquake emergency knowledge base according to the earthquake disaster information and the social situation information.

and the decision suggestion matching module is used for respectively matching decision suggestions from the earthquake emergency rule base, the earthquake case base and the earthquake emergency knowledge base according to the disaster evaluation result.

and the rescue and relief suggestion matching module is used for respectively matching rescue and relief suggestions from the earthquake emergency rule base, the earthquake case base and the earthquake emergency knowledge base according to the earthquake occurrence place, the earthquake magnitude, the casualties and the property loss condition.

According to the specific embodiment provided by the invention, the invention discloses the following technical effects: the method comprises the steps of constructing an earthquake scene by utilizing the acquired background information, weather information and historical disaster information of the county where the epicenter is located, acquiring corresponding earthquake emergency response levels by combining an earthquake emergency rule base, an earthquake case base, an earthquake knowledge base and the like, determining emergency response contents, determining disposal strategy suggestions by acquiring and classifying earthquake disaster information, and generating earthquake disaster briefings of all stages in the process of acquiring and processing earthquake related information. The invention focuses on considering the work tasks and targets at different stages during earthquake emergency, and the dynamic evolution process of the disaster and the emergency after the earthquake, constructs a state-target-task-countermeasure overall process scene type earthquake emergency decision system from the angles of multiple targets, multiple dimensions, multiple main bodies, multiple stages and multiple disaster types, automatically generates a disaster situation brief report of emergency disposal countermeasure suggestions, is beneficial to the implementation of multi-target complex decisions after the earthquake, ensures that the emergency disposal countermeasure suggestions are more accurate and targeted, ensures that the command decision is more efficient and scientific, and promotes the transition of the earthquake emergency from experience emergency to scientific emergency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a block diagram of a seismic emergency decision system of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention aims to provide an earthquake emergency decision system, which can realize timely response and scientific disposal of dynamic changes of earthquake situations, realize early discovery and early disposal, avoid or reduce the chain effect of disasters and the aggravation of disaster loss, and promote the conversion of earthquake emergency from experience emergency to scientific emergency.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

Examples

As shown in fig. 1, the earthquake emergency decision system provided by the present invention includes: the earthquake scene construction unit 101, the first-stage briefing generation unit 102, the earthquake feeling information classification unit 103, the response content determination unit 104, the second-stage briefing generation unit 105, the earthquake disaster situation acquisition unit 106, the disposal countermeasure suggestion determination unit 107, the third-stage briefing generation unit 108, the disaster evaluation result acquisition unit 109, the fourth-stage briefing generation unit 110 and the fifth-stage briefing generation unit 111.

The earthquake scene construction unit 101 is configured to construct an earthquake scene of an earthquake area according to earthquake area background information, historical disaster conditions, and weather information.

The seismic scene construction unit 101 specifically includes: the earthquake area background information acquisition module, the historical disaster information acquisition module, the weather information acquisition module and the earthquake scene construction module.

The seismic region background information acquisition module is used for acquiring background information corresponding to an earthquake occurrence place according to the earthquake occurrence place.

The earthquake emergency decision-making system obtains the background information of the place from the network according to the place where the earthquake occurs, and comprises the following steps: administrative division information, population economic information, geological, terrain and landform information, traffic information and weather hydrological information.

Each item in the encyclopedia has a corresponding title, but the titles in the encyclopedia are different for each place, so that an artificial dictionary is constructed in the system, and the titles with higher occurrence frequency are added into the dictionary to realize the acquisition of the corresponding items. The system firstly acquires all information under the column according to the constructed dictionary, and then respectively processes the acquired information, namely, some unimportant information is removed, and useful information is reserved.

The historical disaster information acquisition module is used for acquiring historical disaster information which occurs in a seismic area within 100 kilometers from a network and an earthquake case library according to the earthquake occurrence place, and comprises the following steps: earthquake geological disasters, weather and other natural disasters.

The earthquake emergency decision-making system obtains corresponding historical earthquake damage information in a certain space range from the earthquake damage statistics and analysis table in the earthquake case library according to the earthquake center position, such as: and analyzing characteristics of personnel death and loss, disaster influence range, disaster grade, population suffering from a disaster, economic loss, secondary disaster, social influence, earthquake damage and the like, if the information is not null, extracting part of information, combining corresponding titles with the information, arranging obtained results according to the time sequence of earthquake occurrence, and finally combining the results together to facilitate the user to check.

And the weather information acquisition module is used for acquiring the weather information of the earthquake occurrence place on the same day and three days in the future according to the earthquake occurrence place.

In the system, the epicenter weather picture is automatically intercepted by a code. In the specific implementation process, the earthquake emergency decision system acquires weather information of the place on the day and three days in the future from a Chinese air network (http:// www.weather.com.cn /) according to the place where the earthquake occurs, and utilizes an open source plug-in phantomjs. exe to locate the position of a corresponding div label of a webpage weather picture through a JS code, then utilizes a Java Runtime function to execute the plug-in and the JS code, and finally stores the weather picture to the local in a JPG form.

The first-stage presentation generating unit 102 is configured to generate a first-stage presentation according to the seismic scene.

The earthquake sensation information classification unit 103 is used for classifying earthquake sensation information and storing the classified earthquake sensation information into a database.

The earthquake sensation information classification unit 103 specifically includes: the device comprises a seismic information acquisition module, a place matching module, a seismic information classification module and a seismic information storage module.

The earthquake feeling information acquisition module is used for acquiring earthquake feeling information from a network according to the earthquake feeling information keywords and the place name dictionary.

The location matching module is used for matching a corresponding location with the seismological information according to the seismological information.

The vibration sense information classification module is used for classifying the vibration sense information according to the vibration sense intensity.

The earthquake feeling information storage module is used for storing the earthquake feeling information and the corresponding places into a database.

The earthquake feeling information is divided into three intensity levels of feeling, strong earthquake feeling and obvious earthquake feeling, each earthquake feeling information has corresponding keywords, and the keywords are earthquake dictionaries constructed manually. In the extraction process, the system firstly segments the comment information according to punctuation marks, then uses the earthquake sensation information keywords to match the corresponding earthquake sensation strength, and if the matching is successful, the system uses the earthquake occurrence place and the surrounding place name dictionary to obtain the place with the earthquake sensation information. And finally, storing the earthquake feeling information and the corresponding places into a database.

The earthquake dictionary is divided into 15 categories, including earthquake information, house destruction, casualties, infrastructure destruction, life line destruction, secondary disasters, economic losses, social influences, government actions, rescue actions, voluntary actions, earthquake bureau actions, earthquake damage analysis and disaster relief suggestions.

The response content determining unit 104 is configured to match a corresponding earthquake emergency response level according to an earthquake emergency response initial judgment condition and/or an earthquake disaster level by combining the earthquake scene and the classified earthquake feeling information, and determine a corresponding emergency response content.

The response content determining unit 104 specifically includes: the system comprises an emergency response initial judgment condition acquisition module, an earthquake disaster grade acquisition module, an emergency response grade matching module and a response content determination module.

The emergency response initial judgment condition acquisition module is used for acquiring the earthquake emergency response initial judgment condition from the earthquake emergency flow and the earthquake emergency plan.

The earthquake disaster grade acquisition module is used for acquiring the earthquake disaster grade from the earthquake emergency flow and the earthquake emergency plan.

The emergency response level matching module is used for matching the earthquake emergency response level according to the earthquake emergency response initial judgment condition and/or the earthquake disaster level.

The response content determining module is used for determining the earthquake response content according to the earthquake emergency response level.

The second-stage briefing generating unit 105 is configured to generate a second-stage briefing according to the classified seismic information and by combining the earthquake case base and the response content.

The data of the seismic case base is derived from the summary data of historical earthquakes.

The earthquake case base comprises historical disaster-forming earthquake information and earthquake damage information statistics and analysis information. The historical disaster-forming earthquake information comprises the time, the place, the magnitude of earthquake and the depth of an earthquake source, and the earthquake damage information statistics and analysis information mainly comprises earthquake area background information, earthquake damage statistical information, earthquake damage characteristics, earthquake damage cause, earthquake damage influence, earthquake damage degree and the like. The earthquake damage statistical information comprises casualties, population suffering from disasters, number of residents suffering from disasters, number of administrative areas affected by earthquakes, life line engineering damage, building damage, ground surface damage and secondary disasters. The earthquake influence comprises traffic influence and social influence.

The earthquake disaster collecting and processing unit 106 is configured to collect basic information of earthquake disasters, social situations, public opinions, government responses, emergency rescue, disaster residents arrangement, and the like, and classify the earthquake disaster information.

The earthquake disaster acquisition unit 106 specifically includes: the earthquake disaster information classification system comprises an earthquake disaster information acquisition module and an earthquake disaster information classification module.

And the earthquake disaster information acquisition module is used for acquiring the earthquake disaster information from the network according to a predefined earthquake dictionary and a seed database.

According to a predefined earthquake dictionary, information such as earthquake disasters, social situations, public opinions, government responses, emergency rescue, disaster people arrangement and the like is obtained from a network by using a crawler, matched with the time, the place and the earthquake magnitude of the earthquake and classified.

And matching casualty information according to the casualty keywords, and counting the number of the dead, serious injuries and injured people.

And determining casualty reasons according to the casualty keywords, and determining casualty places according to an existing place name dictionary.

The earthquake disaster information classification module is used for classifying the earthquake disaster information according to the predefined earthquake dictionary.

The disposal countermeasure suggestion determination unit 107 is configured to form an earthquake disaster situation according to the earthquake scene and the classified earthquake disaster information, and determine a corresponding disposal countermeasure suggestion by combining the earthquake case library, the classified earthquake disaster information, the earthquake emergency flow, the earthquake emergency plan, the industry plan, the disposal plan, and the like.

The treatment countermeasure suggestion determination unit 107 specifically includes: the system comprises a response suggestion generation module, a treatment content and suggestion matching module, a decision suggestion matching module and a rescue and relief suggestion matching module.

The disposal content and suggestion matching module is used for respectively matching disposal content and suggestions from the earthquake emergency rule base, the earthquake case base and the earthquake emergency knowledge base according to the earthquake disaster information and the social situation information.

The rescue and disaster relief suggestion matching module is used for respectively matching rescue and disaster relief suggestions from the earthquake emergency rule base, the earthquake case base and the earthquake emergency knowledge base according to the earthquake occurrence place, the earthquake magnitude, the casualties, the property loss, the secondary disasters, the disaster relief requirements and other conditions.

Wherein, the response suggestion generation module specifically comprises: the earthquake emergency response level matching sub-module and the emergency response content matching sub-module.

And the earthquake emergency response level matching submodule is used for matching the earthquake emergency response level according to the earthquake occurrence place and the earthquake magnitude.

The third-stage briefing generating unit 108 is used for generating a third-stage briefing according to the earthquake feeling information, the earthquake disaster information and the treatment suggestion.

The disaster evaluation result obtaining unit 109 is configured to obtain a disaster evaluation result.

The fourth-stage briefing generating unit 110 is configured to generate a fourth-stage briefing according to the disaster evaluation result, the disaster relief requirement, and the decision suggestion.

The fifth-phase briefing generating unit 111 is configured to generate a fifth-phase briefing according to the real-time earthquake disaster information, the disposal countermeasure suggestion, and the work target and the key task of the current earthquake emergency stage.

Through the information processing flow, the system can obtain the contents of all parts in the intelligent decision module, and the preprocessed information is filled into the predefined template. Wherein, the first-stage presentation to the fifth-stage presentation have respective corresponding templates and are designed in advance. The system matches according to the predefined names of each part in the template to obtain corresponding information, and finally stores the information in the form of word, and meanwhile, the user can also check the content of the briefing through a webpage and support the downloading of the word file.

The earthquake emergency decision system provided by the invention mainly utilizes the acquired basic background information, weather information, historical disaster information and disaster information which changes in real time of the county of the epicenter to process the acquired earthquake information according to the basic database when constructing the basic database, and emphatically considers the dynamic evolution process of the post-earthquake disaster and the emergency, and simultaneously combines an earthquake emergency rule base, an earthquake case base and an earthquake emergency knowledge base to acquire corresponding emergency response content, decision suggestion, disposal suggestion and rescue and relief suggestion, finally generates earthquake disaster briefs of each period, constructs a full-process situational type earthquake decision system of 'state-object-task-countermeasure' from the angles of multiple targets, multiple dimensions, multiple subjects, multiple stages and multiple disaster species, and automatically generates the disaster briefs of the emergency countermeasure suggestion, therefore, efficient prevention, timely response and scientific disposal are realized, and the earthquake emergency is promoted to be changed from experience emergency to scientific emergency. The user can obtain the required earthquake event through inquiry at the client, so that the corresponding briefing can be checked, the format of the briefing is uniform, and the user can conveniently check the briefing.

The principles and embodiments of the present invention have been described herein using specific examples, which are provided only to help understand the method and the core concept of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the above, the present disclosure should not be construed as limiting the invention.

Claims

1. A seismic emergency decision system, the decision system comprising:

the response content determining unit is used for matching a corresponding earthquake emergency response level according to the earthquake emergency response initial judgment condition and/or the earthquake disaster level by combining the earthquake scene and determining corresponding emergency response content;

the disposal countermeasure suggestion determination unit is used for forming an earthquake disaster scene according to the earthquake scene and the classified earthquake disaster information and determining a corresponding disposal countermeasure suggestion by combining an earthquake emergency flow and an earthquake emergency plan;

the third-stage briefing generation unit is used for generating a third-stage briefing according to the earthquake disaster situation and the disposal countermeasure suggestion;

2. The seismic emergency decision system of claim 1, wherein the seismic scene construction unit comprises:

the earthquake area background information acquisition module is used for acquiring background information corresponding to the earthquake occurrence place according to the earthquake occurrence place;

3. The earthquake emergency decision system according to claim 1, wherein the seismological information statistic unit comprises:

4. The seismic emergency decision system of claim 1, wherein the response content determination unit comprises:

an emergency response initial judgment condition obtaining module, configured to obtain the seismic emergency response initial judgment condition from the seismic emergency flow and the seismic emergency plan in combination with the seismic scene;

5. The seismic emergency decision system of claim 1, wherein the seismic disaster acquisition unit comprises:

6. The seismic emergency decision system of claim 1, wherein the disposal countermeasure advice determination unit comprises:

7. The seismic emergency decision system of claim 6, wherein the response suggestion generation module comprises:

8. The seismic emergency decision system of claim 1, wherein the disposal countermeasure advice determination unit further comprises:

and the disposal content and suggestion matching module is used for respectively matching disposal content and suggestions from the emergency incident industry emergency plan library, the earthquake emergency rule library and the earthquake case library according to the earthquake disaster information and the social situation information.

9. The seismic emergency decision system of claim 1, wherein the disposal countermeasure advice determination unit further comprises:

10. The seismic emergency decision system of claim 1, wherein the disposal countermeasure advice determination unit further comprises:

and the rescue and relief suggestion matching module is used for respectively matching rescue and relief suggestions from the earthquake emergency rule base, the earthquake case base and the earthquake emergency knowledge base according to the earthquake occurrence place, the earthquake magnitude, the earthquake disaster scene, casualties, secondary disasters and relief requirement conditions.