CN117909054A - Video monitoring-based emergency scheduling method and device, electronic equipment and medium - Google Patents

Abstract

The application relates to the technical field of data processing, in particular to a scheduling emergency method, device, electronic equipment and medium based on video monitoring. The scheduling emergency method based on video monitoring comprises the following steps: receiving and analyzing emergency request information, and determining a scheduling target and emergency information; determining a plurality of scheduling operations according to the scheduling targets; analyzing the emergency information, determining event characteristics, and processing a plurality of scheduling operations based on scheduling targets and the event characteristics to obtain a scheduling flow; and scheduling the corresponding monitoring video and emergency facilities according to the scheduling flow. The emergency request information is received and analyzed in real time, and the scheduling targets and event characteristics are rapidly determined so as to rapidly start emergency response. Deep analysis of the emergency information can accurately determine the nature and severity of the event, thereby ensuring that the scheduled resources and operations are matched with actual requirements. And then, the dispatching operation is optimized or regulated based on the dispatching target and the event characteristics, so that the efficiency of emergency response can be improved.

Description

Video monitoring-based emergency scheduling method and device, electronic equipment and medium

Technical Field

The application relates to the technical field of data processing, in particular to a scheduling emergency method, device, electronic equipment and medium based on video monitoring.

Background

With the progress of science and technology and the development of society, video monitoring systems are widely used in the fields of security, traffic, energy sources and the like. Scheduling an emergency refers to the process of coordinating, organizing and controlling resources and tasks in the event of an emergency. In emergency dispatch, it is necessary to dispatch various resources including manpower, materials, equipment, funds, etc., and coordinate the work of various departments and units to ensure quick, accurate, and efficient handling of incidents.

The current video monitoring system can only provide real-time pictures on site, and cannot meet the demands of emergency dispatch on information comprehensiveness and instantaneity. In the related art, the corresponding video monitoring data can be displayed to the user according to the video scheduling requirement, but the on-site information cannot be quickly and accurately acquired to perform effective scheduling, so that the emergency response efficiency is low.

Disclosure of Invention

In order to quickly and accurately acquire field information and improve emergency response efficiency, the application provides a scheduling emergency method, device, electronic equipment and medium based on video monitoring.

In a first aspect, the present application provides a video monitoring-based emergency scheduling method, including:

receiving and analyzing emergency request information, and determining a scheduling target and emergency information;

determining a plurality of scheduling operations according to the scheduling targets;

analyzing the emergency information, determining event characteristics, and processing the scheduling operations based on the scheduling targets and the event characteristics to obtain a scheduling flow;

and scheduling the corresponding monitoring video and emergency facilities according to the scheduling flow.

By adopting the technical scheme, the emergency request information can be received and analyzed in real time, and the scheduling target and the event characteristics can be rapidly determined, so that emergency response can be rapidly started. Through deep analysis of the emergency information, the nature and severity of the event can be accurately determined, so that the scheduled resources and operations are ensured to be matched with actual demands. Based on the scheduling target and the event characteristics, the scheduling operation is optimized or regulated, the utilization rate of resources and the response efficiency can be improved, the progress of the event and the use condition of the resources can be monitored in real time through scheduling the corresponding monitoring video and emergency facilities, scheduling decisions can be fed back and regulated in time, and the emergency response efficiency and the emergency response success rate can be improved as a whole.

Optionally, the determining a plurality of scheduling operations according to the scheduling target includes:

analyzing the scheduling targets, and determining a plurality of scheduling characteristics and characteristic priority targets, wherein the scheduling characteristics comprise shortest time locking targets and greatest reduction of event influence;

searching a default scheduling operation corresponding to each scheduling feature, wherein the default scheduling operation comprises event area locking, video extraction and information synchronization;

And processing the default scheduling operations according to the feature association among the scheduling features and the feature priority targets to determine the scheduling operations, wherein the processing process comprises screening and intercepting.

By adopting the technical scheme, the specific scheduling characteristics and characteristic priority targets can be determined by analyzing the scheduling targets, so that the scheduling operation is ensured to be matched with the actual requirements, and the pertinence of emergency response is improved. And processing the default scheduling operation according to the feature association and the feature priority targets, so that the optimal configuration of the resources can be realized, and the optimal utilization of the resources is ensured. The final scheduling operation can be rapidly determined through the processing procedures of screening, intercepting and the like, the response time is shortened, and the emergency response efficiency is improved. The system can be adjusted and optimized according to different scheduling targets and event characteristics, and meets emergency response requirements in different scenes. The scheduling operation can be expanded according to actual conditions, including adding new scheduling characteristics, default scheduling operation or processing steps, and improving the comprehensiveness and adaptability of the scheduling operation. By automatically carrying out emergency dispatch, delays and errors caused by human factors are reduced, and the efficiency and success rate of emergency response are improved.

Optionally, the analyzing the emergency information to determine the event characteristics includes:

analyzing the emergency information and determining event type, event origin position, event participation person and event scene data;

Acquiring a preset event and feature corresponding relation;

and determining event characteristics according to the event type, the event origin position, the event participation person, the event scene data and the event and characteristic corresponding relation.

By adopting the technical scheme, the comprehensive analysis of the emergency information, including the event type, the origin position, the participatory characters and the scene data, can more comprehensively understand the properties and the characteristics of the event, and provides comprehensive information support for subsequent scheduling operation. By acquiring the preset corresponding relation between the event and the feature and determining the event feature according to the relation, the accuracy and the reliability of event feature identification can be improved, and an accurate basis is provided for scheduling decisions. Event characteristics can be rapidly analyzed and determined, so that the speed and efficiency of emergency response are improved, and negative influences and losses of events are reduced. The preset event and feature corresponding relation can be flexibly configured and updated according to actual conditions so as to adapt to different event types and scenes, and the adaptability and expandability of the method are improved. By automatically determining and analyzing the event characteristics, errors and delays caused by human factors are reduced, and the efficiency and accuracy of emergency response are improved. The efficiency and the accuracy of emergency response can be improved as a whole.

Optionally, the processing the plurality of scheduling operations based on the scheduling target and the event feature to obtain a scheduling flow includes:

acquiring scheduling logic of each event feature;

sequentially adjusting the scheduling operations according to a plurality of scheduling logics corresponding to the time characteristics to obtain a preliminary scheduling flow;

simulating a preliminary scheduling process of the preliminary scheduling flow to obtain a preliminary scheduling result;

And adjusting the preliminary scheduling process according to the preliminary scheduling result and the scheduling target to obtain a scheduling flow.

By adopting the technical scheme, the scheduling logic of each event characteristic is acquired, so that the scheduling process is more reasonable, different scheduling strategies can be adopted according to different event characteristics, and the pertinence and the adaptability of the scheduling process are enhanced. The scheduling operations are sequentially adjusted according to the scheduling logic corresponding to the event characteristics, so that the priority and the scheduling of the scheduling operations can be ensured to be more reasonable, and the efficiency and the effect of emergency response can be improved. By simulating the preliminary scheduling process of the preliminary scheduling flow, the scheduling result can be predicted and evaluated in advance, so that the problems in the scheduling process can be found and corrected in time, and the risks and errors in the actual execution process are reduced. The preliminary scheduling process is adjusted according to the preliminary scheduling result and the scheduling target, so that the scheduling process is more flexible and dynamic, can be optimized and improved according to actual conditions, and the adaptability and expandability of the scheduling process are improved. The dispatching logic is acquired, the simulation process is executed and the adjustment process is performed in an automatic and intelligent mode, errors and delays caused by human factors are reduced, and the efficiency and accuracy of emergency response are improved.

Optionally, the scheduling, according to the scheduling flow, the corresponding monitoring video and the emergency facilities include:

analyzing the scheduling flow and determining a corresponding association area;

scheduling a monitoring video of each associated area;

And acquiring the regional property of the associated region, and determining emergency facilities in the scheduling process according to the regional property.

By adopting the technical scheme, the scheduling flow is analyzed, the associated area related to the event can be accurately determined, unnecessary monitoring and resource waste are avoided, and the pertinence and the efficiency of emergency response are improved. The monitoring video of each associated area is scheduled, so that video information of an event scene can be obtained in real time, timely and accurate first hand information is provided for emergency response, and event progress and scene conditions can be better known. The emergency facilities are determined according to the regional properties of the associated regions, so that the requirements of facilities and events can be matched more accurately, unreasonable allocation and waste of resources are avoided, and the effect and efficiency of emergency response are improved. Scheduling flow analysis, associated area determination, monitoring video scheduling and facility matching are performed in an automatic and intelligent mode, errors and delays caused by human factors are reduced, and the efficiency and accuracy of emergency response are improved. After the event is ended, the whole emergency scheduling process is summarized and evaluated, so that advantages and defects can be found, and an improvement and optimization basis is provided for future emergency response.

In a second aspect, the present application provides a video monitoring-based dispatch emergency device, including:

the emergency request information analysis module is used for receiving and analyzing the emergency request information and determining a scheduling target and emergency information;

The scheduling operation determining module is used for determining a plurality of scheduling operations according to the scheduling targets;

The scheduling flow determining module is used for analyzing the emergency information, determining event characteristics and processing the scheduling operations based on the scheduling targets and the event characteristics to obtain a scheduling flow;

and the scheduling module is used for scheduling the corresponding monitoring video and emergency facilities according to the scheduling flow.

Optionally, the scheduling operation determining module is specifically configured to:

analyzing the scheduling targets, and determining a plurality of scheduling characteristics and characteristic priority targets, wherein the scheduling characteristics comprise shortest time locking targets and greatest reduction of event influence;

searching a default scheduling operation corresponding to each scheduling feature, wherein the default scheduling operation comprises event area locking, video extraction and information synchronization;

And processing the default scheduling operations according to the feature association among the scheduling features and the feature priority targets to determine the scheduling operations, wherein the processing process comprises screening and intercepting.

Optionally, the scheduling process determining module is specifically configured to, when analyzing the emergency information and determining the event feature:

analyzing the emergency information and determining event type, event origin position, event participation person and event scene data;

Acquiring a preset event and feature corresponding relation;

and determining event characteristics according to the event type, the event origin position, the event participation person, the event scene data and the event and characteristic corresponding relation.

Optionally, the scheduling process determining module is specifically configured to, when processing the plurality of scheduling operations based on the scheduling target and the event feature to obtain a scheduling process:

acquiring scheduling logic of each event feature;

sequentially adjusting the scheduling operations according to a plurality of scheduling logics corresponding to the time characteristics to obtain a preliminary scheduling flow;

simulating a preliminary scheduling process of the preliminary scheduling flow to obtain a preliminary scheduling result;

And adjusting the preliminary scheduling process according to the preliminary scheduling result and the scheduling target to obtain a scheduling flow.

Optionally, the scheduling module is specifically configured to:

analyzing the scheduling flow and determining a corresponding association area;

scheduling a monitoring video of each associated area;

And acquiring the regional property of the associated region, and determining emergency facilities in the scheduling process according to the regional property.

In a third aspect, the present application provides an electronic device comprising: a memory and a processor, the memory having stored thereon a computer program capable of being loaded by the processor and performing the method of the first aspect.

In a fourth aspect, the present application provides a computer readable storage medium storing a computer program capable of being loaded by a processor and performing the method of the first aspect.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions of the prior art, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it will be obvious that the drawings in the following description are some embodiments of the present application, and that other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art.

Fig. 1 is a schematic view of an application scenario provided in an embodiment of the present application;

FIG. 2 is a flowchart of a video monitoring-based emergency scheduling method according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of a scheduling emergency device based on video monitoring according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application. It will be apparent that the described embodiments are some, but not all, embodiments of the application. 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.

In addition, the term "and/or" herein is merely an association relationship describing an association object, and means that three relationships may exist, for example, a and/or B may mean: a exists alone, A and B exist together, and B exists alone. In this context, unless otherwise specified, the term "/" generally indicates that the associated object is an "or" relationship.

The application provides a scheduling emergency method, a scheduling emergency device, electronic equipment and a medium based on video monitoring. Receiving and analyzing emergency request information, and determining a scheduling target and emergency information; determining a plurality of scheduling operations according to the scheduling targets; analyzing the emergency information, determining event characteristics, and processing a plurality of scheduling operations based on scheduling targets and the event characteristics to obtain a scheduling flow; and scheduling the corresponding monitoring video and emergency facilities according to the scheduling flow.

Fig. 1 is a schematic view of an application scenario provided by the present application. More monitoring devices may be located in urban and suburban areas, either on the roadside or on the periphery of surrounding buildings. In the application scenario shown in fig. 1, the scheduling emergency method based on video monitoring can be built on a scheduling emergency server. Users of related departments can send emergency request information to the scheduling emergency server by logging in scheduling equipment such as a computer and a mobile phone, and the scheduling emergency server can schedule monitoring videos generated by monitoring equipment after analyzing the emergency request information.

Reference may be made to the following examples for specific implementation.

Fig. 2 is a flowchart of a scheduling emergency method based on video monitoring according to an embodiment of the present application, where the method of the present embodiment may be applied to a scheduling emergency server in the above scenario. As shown in fig. 2, the method includes:

s201, emergency request information is received and analyzed, and scheduling targets and emergency information are determined.

The monitoring equipment in the road and the building, the dispatching emergency server and the login equipment of each user can integrally form a video monitoring system. The emergency request information may include key information such as the type of event, the place of occurrence, the scope of influence, etc. For example, a traffic accident report from a highway is received, and the accident causes traffic jam, requiring emergency rescue. The scheduling objective may be used to represent the results to be achieved by scheduling, such as reducing adverse effects or quick capture, etc. The incident information may include the location where the event occurred, participants, etc.

In some implementations, a user may send emergency request information to a dispatch emergency server via a login device, and the dispatch emergency server may analyze the received emergency request information to obtain the nature and severity of the event. For example, by analyzing the type and the influence range of traffic accidents, emergency resources such as traffic police, medical treatment and the like can be judged to be mobilized. Depending on the nature and severity of the event, the dispatch emergency server may set a dispatch target. For example, to restore traffic order as soon as possible, to ensure timely rescue of injured persons, etc.

S202, determining a plurality of scheduling operations according to the scheduling targets.

Scheduling operations may be used to coordinate and deploy various emergency resources to effectively address incidents.

Specifically, the dispatch emergency server may analyze the dispatch objectives to determine the type and quantity of resources required. For example, if the scheduling objective is to restore traffic order as soon as possible, the resources that need to be scheduled may include traffic police, traffic control equipment, etc. The dispatch emergency server may then determine the corresponding dispatch operation based on the nature and severity of the event. These operations may include dispatching emergency personnel, activating emergency equipment, coordinating collaboration among departments, and the like. For example, for a traffic accident, the dispatch operations may include dispatching a traffic police to the scene to dredge traffic, dispatching an ambulance to rescue a wounded, etc.

In some implementations, special cases of events may also be considered while determining scheduling operations. For example, if there is a hazardous material leak at the scene of an accident, it may be necessary to add resources to the fire and environmental authorities. These special cases may lead to adjustments or increases in scheduling operations. Based on the set scheduling objectives and event characteristics, the server optimizes or adjusts the previous scheduling operations. For example, if a large number of wounded persons are required at the accident site, it may be necessary to increase the number of ambulances or adjust the parking positions of the ambulances.

S203, analyzing the emergency information, determining event characteristics, and processing a plurality of scheduling operations based on the scheduling targets and the event characteristics to obtain a scheduling flow.

The incident information may include key information such as the type of event, place of occurrence, scope of influence, duration, etc. For example, a traffic accident report from a highway is received, and the accident causes traffic jam, requiring emergency rescue. The incident information may include an event feature. Event characteristics may include the nature, severity, special circumstances, etc. of the event. For example, by analyzing the type and the influence range of traffic accidents, the type and the number of resources to be scheduled can be judged. Processing operations that process scheduling operations may include dispatching emergency personnel, activating emergency equipment, coordinating collaboration among departments, and the like. For example, for a traffic accident, the dispatch operations may include dispatching a traffic police to the scene to dredge traffic, dispatching an ambulance to rescue a wounded, etc. The scheduling procedure may be used to characterize the execution sequence, the execution personnel, the execution time, and other detailed information of each operation. For example, traffic police are dispatched to the scene to dredge traffic, and ambulances are dispatched to the scene to rescue wounded.

Specifically, the scheduling emergency server can analyze the emergency information and extract the time characteristics from the emergency information. The scheduling emergency server can process a plurality of scheduling operations according to the set scheduling targets to obtain a scheduling flow suitable for the current sudden event.

S204, corresponding monitoring videos and emergency facilities are scheduled according to the scheduling flow.

Resources that may be scheduled may include monitoring cameras, video storage devices, emergency vehicles, medical devices, and the like.

Specifically, the scheduling emergency server can extract monitoring videos and emergency facilities to be scheduled according to a scheduling flow. The surveillance video and emergency facilities may then be scheduled. For example, by a remote control technology, the monitoring camera is scheduled to collect live images in real time, and the images are transmitted to a server for real-time analysis and processing. For emergency facilities, the dispatch emergency server may dispatch the corresponding emergency vehicles and medical devices to the scene based on the nature and severity of the event.

In some implementations, while scheduling the surveillance video and emergency facilities, the scheduling emergency server may also ensure that all relevant personnel receive the scheduling instructions and begin performing the corresponding operations. For example, information such as nature, location, and countermeasures of emergency events is notified to the relevant person by sending a short message, an email, or using a dedicated application. During the emergency response process, the scheduling emergency server can continuously monitor the progress of the event, the scheduling condition of the resource and the effect of operation execution. If any problem or place needing to be adjusted is found, the feedback and adjustment can be performed in time. For example, if traffic congestion is found to be severe, traffic police may need to be dispatched to the scene to assist in the dispersion of traffic.

In other implementations, after the event is over, the dispatch emergency server may summarize and evaluate the entire emergency dispatch process. Analyzing the advantages and the disadvantages, and optimizing and improving the scheduling method according to the actual situation. For example, a more targeted scheduling flow and scheme is formulated for different types of incidents.

The embodiment can receive and analyze the emergency request information in real time, and rapidly determine the scheduling target and the event characteristics, so that emergency response is rapidly started. Through deep analysis of the emergency information, the nature and severity of the event can be accurately determined, so that the scheduled resources and operations are ensured to be matched with actual demands. Based on the scheduling target and the event characteristics, the scheduling operation is optimized or regulated, the utilization rate of resources and the response efficiency can be improved, the progress of the event and the use condition of the resources can be monitored in real time through scheduling the corresponding monitoring video and emergency facilities, scheduling decisions can be fed back and regulated in time, and the emergency response efficiency and the emergency response success rate can be improved as a whole.

In some embodiments, the scheduling objective may be analyzed to determine a number of scheduling characteristics including a shortest time locking objective, minimizing event impact, and characteristic priority objectives; searching a default scheduling operation corresponding to each scheduling feature, wherein the default scheduling operation comprises event area locking, video extraction and information synchronization; and processing the default scheduling operations according to the feature association among the scheduling features and the feature priority targets to determine the scheduling operations, wherein the processing process comprises screening and intercepting.

Scheduling features may include minimum time targeting, minimizing event impact, etc. The feature priority objective then determines the priority and weight between the different features.

Specifically, the dispatch emergency server may analyze the dispatch objectives to determine a number of dispatch characteristics and characteristic priority objectives. The dispatch emergency server may look for a default dispatch operation corresponding to each dispatch feature. For example, for a shortest time targeting, default scheduling operations may include event zone locking, video extraction, etc.; for minimizing event impact, default scheduling operations may include information synchronization, resource coordination, and the like. The dispatch emergency server may then process the number of default dispatch operations based on the feature associations and feature priority targets between the number of dispatch features. This process may include screening and interception operations. For example, depending on the feature association, multiple default scheduling operations may need to be filtered, preserving the operations most relevant to the current event; according to the feature priority target, the filtered default scheduling operations may need to be prioritized to ensure that high priority operations are prioritized. The dispatch emergency server may determine the final dispatch operation. This process may include integration, optimization, and adjustment of screening and interception results, etc. For example, depending on the shortest time targeting and minimizing the prioritization of events affecting both features, the scheduling operation that may be ultimately determined is to first perform event region targeting, then video extraction and information synchronization, etc.

According to the embodiment, specific dispatching characteristics and characteristic priority targets can be determined through analysis of the dispatching targets, so that the dispatching operation is matched with actual requirements, and the pertinence of emergency response is improved. And processing the default scheduling operation according to the feature association and the feature priority targets, so that the optimal configuration of the resources can be realized, and the optimal utilization of the resources is ensured. The final scheduling operation can be rapidly determined through the processing procedures of screening, intercepting and the like, the response time is shortened, and the emergency response efficiency is improved. The system can be adjusted and optimized according to different scheduling targets and event characteristics, and meets emergency response requirements in different scenes. The scheduling operation can be expanded according to actual conditions, including adding new scheduling characteristics, default scheduling operation or processing steps, and improving the comprehensiveness and adaptability of the scheduling operation. By automatically carrying out emergency dispatch, delays and errors caused by human factors are reduced, and the efficiency and success rate of emergency response are improved.

In some embodiments, incident information may be analyzed to determine event type, event origin location, event engagement persona, and event scene data; acquiring a preset event and feature corresponding relation; and determining event characteristics according to the event type, the event origin position, the event participation person, the event scene data and the event-characteristic corresponding relation.

Specifically, the dispatch emergency server may receive the incident information and analyze it. Specifically, the extraction and identification of event types, event origin locations, event participation characters and event scene data may be included. For example, event types may include traffic accidents, fires, earthquakes, and the like; the location of origin of the event may be a specific geographic location or facility; event participation characters may include victims, rescue workers, etc.; the event scenario data may include site environment, weather conditions, and the like. Then, the scheduling emergency server can acquire a preset event and feature corresponding relation. The relationship may be predefined and stored in a database. For example, for traffic accidents, possible event features include accident severity, vehicle type, etc.; for fires, possible event characteristics include fire size, burning materials, and the like. The scheduling emergency server can determine corresponding event characteristics according to the event type, the event origin position, the event participation person and event scene data obtained through analysis and a preset event and characteristic corresponding relation. And particularly, the method can integrate, match and analyze various information so as to accurately identify the event characteristics. For example, according to the accident type and the participators, the accident severity and the needed rescue resources can be judged; according to the fire intensity and the combustion substances, the hazard degree of the fire and the fire extinguishing mode can be judged.

According to the method and the device, the properties and the characteristics of the event can be more comprehensively known through comprehensive analysis of the emergency information, including the event type, the origin position, the participatory characters and the scene data, and comprehensive information support is provided for subsequent scheduling operation. By acquiring the preset corresponding relation between the event and the feature and determining the event feature according to the relation, the accuracy and the reliability of event feature identification can be improved, and an accurate basis is provided for scheduling decisions. Event characteristics can be rapidly analyzed and determined, so that the speed and efficiency of emergency response are improved, and negative influences and losses of events are reduced. The preset event and feature corresponding relation can be flexibly configured and updated according to actual conditions so as to adapt to different event types and scenes, and the adaptability and expandability of the method are improved. By automatically determining and analyzing the event characteristics, errors and delays caused by human factors are reduced, and the efficiency and accuracy of emergency response are improved. The efficiency and the accuracy of emergency response can be improved as a whole.

In some embodiments, scheduling logic for each event feature may be obtained; sequentially adjusting a plurality of scheduling operations according to a plurality of scheduling logics corresponding to the time features respectively to obtain a preliminary scheduling flow; simulating a preliminary scheduling process of the preliminary scheduling process to obtain a preliminary scheduling result; and adjusting the preliminary scheduling process according to the preliminary scheduling result and the scheduling target to obtain a scheduling flow.

The scheduling logic can be defined and configured according to actual conditions, including logic judgment and decision on the aspects of analysis of event characteristics, resource requirements, scheduling and the like. For example, for a shortest time targeting in an event feature, the corresponding scheduling logic may include prioritizing operations that can fastest target resources; for the goal of minimizing the impact of an event, the corresponding scheduling logic may include prioritizing operations that can minimize the impact of the event. The scheduling logic of the different event features may be preconfigured and stored. The preliminary scheduling procedure may include adjustments in prioritization, scheduling, resource allocation, etc. of scheduling operations. For example, the default scheduling operations may be prioritized according to a shortest time-locked goal and a goal that minimizes the impact of an event in the event feature, to obtain a preliminary scheduling procedure.

Specifically, the dispatch emergency server may obtain the dispatch logic for each event feature, the dispatch logic. And then, the scheduling emergency server sequentially adjusts a plurality of scheduling operations according to a plurality of scheduling logics corresponding to the time characteristics, so as to obtain a preliminary scheduling flow. Then, the dispatching emergency server can simulate the primary dispatching process of the primary dispatching flow to obtain a primary dispatching result. The simulation process may include simulation execution, result analysis, evaluation, etc. of the preliminary dispatch flow. For example, by performing the preliminary scheduling process in a simulation manner, preliminary results such as utilization of resources, progress of events, and the like can be observed. The scheduling emergency server can adjust the preliminary scheduling process according to the preliminary scheduling result and the scheduling target to obtain a final scheduling flow. The method can be used for optimizing, improving and adjusting the preliminary scheduling process. For example, if the preliminary scheduling result fails to meet the expected scheduling goal, the preliminary scheduling process may need to be optimized and adjusted to better meet the actual demand.

According to the embodiment, the scheduling logic of each event characteristic is obtained, so that the scheduling process is more reasonable, different scheduling strategies can be adopted according to different event characteristics, and the pertinence and the adaptability of the scheduling flow are enhanced. The scheduling operations are sequentially adjusted according to the scheduling logic corresponding to the event characteristics, so that the priority and the scheduling of the scheduling operations can be ensured to be more reasonable, and the efficiency and the effect of emergency response can be improved. By simulating the preliminary scheduling process of the preliminary scheduling flow, the scheduling result can be predicted and evaluated in advance, so that the problems in the scheduling process can be found and corrected in time, and the risks and errors in the actual execution process are reduced. The preliminary scheduling process is adjusted according to the preliminary scheduling result and the scheduling target, so that the scheduling process is more flexible and dynamic, can be optimized and improved according to actual conditions, and the adaptability and expandability of the scheduling process are improved. The dispatching logic is acquired, the simulation process is executed and the adjustment process is performed in an automatic and intelligent mode, errors and delays caused by human factors are reduced, and the efficiency and accuracy of emergency response are improved.

In some embodiments, the scheduling procedure may be analyzed to determine a corresponding association region; scheduling a monitoring video of each associated area; and acquiring the regional property of the associated region, and determining emergency facilities in the scheduling process according to the regional property.

The associated area may be used for several areas where the gemstone is connected during the scheduling of an emergency, and may involve multiple areas, since the size of the picture that the monitoring device is able to take is not unlimited.

Specifically, the dispatch emergency server analyzes the dispatch procedures and determines the corresponding associated areas. Analysis of aspects such as event characteristics, scheduling logic, and resource requirements may be performed to determine the areas that need to be monitored. For example, if an event zone lock target is included in an event feature, the corresponding associated zone may be a zone near the event venue. Next, the dispatch emergency server may dispatch a surveillance video for each associated zone. May include calls to a monitoring system, transmission and display of video signals, and the like. For example, real-time monitoring video of the associated area may be acquired through interface calls with the monitoring system to observe and monitor the progress of the event. The dispatch emergency server may then obtain the regional nature of the associated region. This process may include analysis of functional, characteristic, environmental, etc. aspects of the region. For example, if the associated area is an industrial area, the area properties may include hazardous material storage, high pollution, etc. Emergency facilities in the dispatch flow may then be determined based on the regional properties. This process may include analysis of aspects of the type, function, location, etc. of the facility to determine the appropriate emergency facility. For example, for an associated area with hazardous material storage characteristics, it may be desirable to determine emergency facilities with hazardous material handling capabilities, such as fire brigade, medical emergency center, and the like.

According to the method and the device for determining the association area of the emergency response, the association area related to the event can be accurately determined through analyzing the scheduling flow, unnecessary monitoring and resource waste are avoided, and pertinence and efficiency of the emergency response are improved. The monitoring video of each associated area is scheduled, so that video information of an event scene can be obtained in real time, timely and accurate first hand information is provided for emergency response, and event progress and scene conditions can be better known. The emergency facilities are determined according to the regional properties of the associated regions, so that the requirements of facilities and events can be matched more accurately, unreasonable allocation and waste of resources are avoided, and the effect and efficiency of emergency response are improved. Scheduling flow analysis, associated area determination, monitoring video scheduling and facility matching are performed in an automatic and intelligent mode, errors and delays caused by human factors are reduced, and the efficiency and accuracy of emergency response are improved. After the event is ended, the whole emergency scheduling process is summarized and evaluated, so that advantages and defects can be found, and an improvement and optimization basis is provided for future emergency response.

Fig. 3 is a schematic structural diagram of a scheduling emergency device based on video monitoring according to an embodiment of the present application, and as shown in fig. 3, a scheduling emergency device 300 based on video monitoring according to the embodiment includes: the system comprises an emergency request information analysis module 301, a scheduling operation determination module 302, a scheduling flow determination module 303 and a scheduling module 304.

The emergency request information analysis module 301 is configured to receive and analyze emergency request information, and determine a scheduling target and emergency information;

A scheduling operation determining module 302, configured to determine a plurality of scheduling operations according to a scheduling target;

The scheduling process determining module 303 is configured to analyze the emergency information, determine event characteristics, and process a plurality of scheduling operations based on the scheduling targets and the event characteristics to obtain a scheduling process;

the scheduling module 304 is configured to schedule the corresponding surveillance video and emergency facilities according to the scheduling flow.

Optionally, the scheduling operation determining module 302 is specifically configured to:

Analyzing a scheduling target, and determining a plurality of scheduling characteristics and characteristic priority targets, wherein the scheduling characteristics comprise a shortest time locking target and a greatest reduction of event influence;

Searching a default scheduling operation corresponding to each scheduling feature, wherein the default scheduling operation comprises event area locking, video extraction and information synchronization;

And processing the default scheduling operations according to the feature association among the scheduling features and the feature priority targets to determine the scheduling operations, wherein the processing process comprises screening and intercepting.

Optionally, the scheduling process determining module 303 is specifically configured to, when analyzing the emergency information and determining the event feature:

Analyzing the emergency information, and determining event types, event origin positions, event participation characters and event scene data;

Acquiring a preset event and feature corresponding relation;

And determining event characteristics according to the event type, the event origin position, the event participation person, the event scene data and the event-characteristic corresponding relation.

Optionally, the scheduling process determining module 303 is specifically configured to, when processing a plurality of scheduling operations based on the scheduling object and the event feature to obtain a scheduling process:

acquiring scheduling logic of each event feature;

Sequentially adjusting a plurality of scheduling operations according to a plurality of scheduling logics corresponding to the time features respectively to obtain a preliminary scheduling flow;

simulating a preliminary scheduling process of the preliminary scheduling process to obtain a preliminary scheduling result;

and adjusting the preliminary scheduling process according to the preliminary scheduling result and the scheduling target to obtain a scheduling flow.

Optionally, the scheduling module 304 is specifically configured to:

Analyzing the scheduling flow and determining a corresponding association area;

scheduling a monitoring video of each associated area;

and acquiring the regional property of the associated region, and determining emergency facilities in the scheduling process according to the regional property.

The apparatus of this embodiment may be used to perform the method of any of the foregoing embodiments, and its implementation principle and technical effects are similar, and will not be described herein again.

Fig. 4 is a schematic structural diagram of an electronic device according to an embodiment of the present application, as shown in fig. 4, an electronic device 400 of the present embodiment may include: a memory 401 and a processor 402.

The memory 401 has stored thereon a computer program that can be loaded by the processor 402 and that performs the methods of the above-described embodiments.

Wherein the processor 402 is coupled to the memory 401, e.g. via a bus.

Optionally, the electronic device 400 may also include a transceiver. It should be noted that, in practical applications, the transceiver is not limited to one, and the structure of the electronic device 400 is not limited to the embodiment of the present application.

The processor 402 may be a CPU (Central Processing Unit ), general purpose processor, DSP (DIGITAL SIGNAL processor, data signal processor), ASIC (application SPECIFIC INTEGRATED circuit), FPGA (Field Programmable GATE ARRAY ) or other programmable logic device, transistor logic device, hardware component, or any combination thereof. Which may implement or perform the various exemplary logic blocks, modules and circuits described in connection with this disclosure. Processor 402 may also be a combination that implements computing functionality, e.g., comprising one or more microprocessor combinations, a combination of a DSP and a microprocessor, etc.

A bus may include a path that communicates information between the components. The bus may be a PCI (PERIPHERAL COMPONENT INTERCONNECT, peripheral component interconnect standard) bus or an EISA (Extended Industry Standard Architecture ) bus, or the like. The buses may be divided into address buses, data buses, control buses, etc. For ease of illustration, the figures are shown with only one bold line, but not with only one bus or one type of bus.

Memory 401 may be, but is not limited to, a ROM (read only memory) or other type of static storage device that can store static information and instructions, a RAM (Random Access Memory ) or other type of dynamic storage device that can store information and instructions, an EEPROM (ELECTRICALLY ERASABLE PROGRAMMABLE READ ONLY MEMORY ), a CD-ROM (Compact Disc Read Only Memory, compact disc read only memory) or other optical disk storage, optical disk storage (including compact discs, laser discs, optical discs, digital versatile discs, blu-ray discs, etc.), magnetic disk storage media or other magnetic storage devices, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer.

The memory 401 is used for storing application program codes for executing the inventive arrangements and is controlled to be executed by the processor 402. The processor 402 is configured to execute the application code stored in the memory 401 to implement what is shown in the foregoing method embodiment.

Among them, electronic devices include, but are not limited to: mobile terminals such as mobile phones, notebook computers, digital broadcast receivers, PDAs (personal digital assistants), PADs (tablet computers), PMPs (portable multimedia players), in-vehicle terminals (e.g., in-vehicle navigation terminals), and the like, and stationary terminals such as digital TVs, desktop computers, and the like. But may also be a server or the like. The electronic device shown in fig. 4 is only an example and should not be construed as limiting the functionality and scope of use of the embodiments of the application.

The electronic device of the present embodiment may be used to execute the method of any of the foregoing embodiments, and its implementation principle and technical effects are similar, and will not be described herein.

The present application also provides a computer-readable storage medium storing a computer program capable of being loaded by a processor and executing the method in the above embodiments.

Those of ordinary skill in the art will appreciate that: all or part of the steps for implementing the method embodiments described above may be performed by hardware associated with program instructions. The foregoing program may be stored in a computer readable storage medium. The program, when executed, performs steps including the method embodiments described above; and the aforementioned storage medium includes: various media that can store program code, such as ROM, RAM, magnetic or optical disks.

Claims (10)

1. The emergency scheduling method based on video monitoring is characterized by comprising the following steps of:

receiving and analyzing emergency request information, and determining a scheduling target and emergency information;

determining a plurality of scheduling operations according to the scheduling targets;

analyzing the emergency information, determining event characteristics, and processing the scheduling operations based on the scheduling targets and the event characteristics to obtain a scheduling flow;

and scheduling the corresponding monitoring video and emergency facilities according to the scheduling flow.

2. The video surveillance based dispatch emergency method of claim 1, wherein said determining a number of dispatch operations based on the dispatch targets comprises:

analyzing the scheduling targets, and determining a plurality of scheduling characteristics and characteristic priority targets, wherein the scheduling characteristics comprise shortest time locking targets and greatest reduction of event influence;

searching a default scheduling operation corresponding to each scheduling feature, wherein the default scheduling operation comprises event area locking, video extraction and information synchronization;

And processing the default scheduling operations according to the feature association among the scheduling features and the feature priority targets to determine the scheduling operations, wherein the processing process comprises screening and intercepting.

3. The video surveillance based dispatch emergency method of claim 1, wherein said analyzing the incident information to determine event characteristics comprises:

analyzing the emergency information and determining event type, event origin position, event participation person and event scene data;

Acquiring a preset event and feature corresponding relation;

and determining event characteristics according to the event type, the event origin position, the event participation person, the event scene data and the event and characteristic corresponding relation.

4. The video monitoring-based dispatch emergency method of claim 1, wherein the processing the plurality of dispatch operations based on the dispatch target and the event feature to obtain a dispatch flow includes:

acquiring scheduling logic of each event feature;

sequentially adjusting the scheduling operations according to a plurality of scheduling logics corresponding to the time characteristics to obtain a preliminary scheduling flow;

simulating a preliminary scheduling process of the preliminary scheduling flow to obtain a preliminary scheduling result;

And adjusting the preliminary scheduling process according to the preliminary scheduling result and the scheduling target to obtain a scheduling flow.

5. The video surveillance based emergency scheduling method according to any one of claims 1 to 4, wherein the scheduling the corresponding surveillance video and emergency facilities according to the scheduling procedure includes:

analyzing the scheduling flow and determining a corresponding association area;

scheduling a monitoring video of each associated area;

And acquiring the regional property of the associated region, and determining emergency facilities in the scheduling process according to the regional property.

6. A video monitoring-based dispatch emergency device, comprising:

the emergency request information analysis module is used for receiving and analyzing the emergency request information and determining a scheduling target and emergency information;

The scheduling operation determining module is used for determining a plurality of scheduling operations according to the scheduling targets;

The scheduling flow determining module is used for analyzing the emergency information, determining event characteristics and processing the scheduling operations based on the scheduling targets and the event characteristics to obtain a scheduling flow;

and the scheduling module is used for scheduling the corresponding monitoring video and emergency facilities according to the scheduling flow.

7. The video monitoring-based dispatch emergency device of claim 6, wherein the dispatch operation determination module is specifically configured to:

analyzing the scheduling targets, and determining a plurality of scheduling characteristics and characteristic priority targets, wherein the scheduling characteristics comprise shortest time locking targets and greatest reduction of event influence;

searching a default scheduling operation corresponding to each scheduling feature, wherein the default scheduling operation comprises event area locking, video extraction and information synchronization;

And processing the default scheduling operations according to the feature association among the scheduling features and the feature priority targets to determine the scheduling operations, wherein the processing process comprises screening and intercepting.

8. The video monitoring-based dispatch emergency device of claim 6, wherein the dispatch flow determination module is configured to, when analyzing the incident information to determine an event characteristic:

analyzing the emergency information and determining event type, event origin position, event participation person and event scene data;

Acquiring a preset event and feature corresponding relation;

and determining event characteristics according to the event type, the event origin position, the event participation person, the event scene data and the event and characteristic corresponding relation.

9. An electronic device, comprising: a memory and a processor;

The memory is used for storing program instructions;

The processor is configured to invoke and execute program instructions in the memory to perform the video surveillance based dispatch emergency method of any of claims 1-5.

10. A computer-readable storage medium, wherein the computer-readable storage medium has a computer program stored therein; the computer program, when executed by a processor, implements the video surveillance based dispatch emergency method of any one of claims 1 to 5.