CN117408494A - Emergency command scheduling method and system based on event driving - Google Patents

Abstract

The embodiment of the invention discloses an emergency command scheduling method and system based on event driving, and relates to the field of emergency command scheduling. The method comprises the following steps: receiving an emergency event request sent by a mobile command terminal; the system analyzes and matches the emergency event request through a rule engine according to a preset emergency event model library to generate an emergency instruction; determining a target mobile command terminal according to the emergency command and a preset command scheduling rule; and sending the emergency instruction to the target mobile command terminal. The application has the following effects: the problem of the traditional command scheduling system can be effectively solved, the command efficiency is improved, the error rate is reduced, and the command decision can be completed faster and more accurately.

Description

Emergency command scheduling method and system based on event driving

Technical Field

The invention relates to the field of emergency command scheduling, in particular to an event-driven emergency command scheduling method and system.

Background

The emergency command and dispatch system is a large, complex and high-reliability system which relates to a plurality of fields and a plurality of systems, is mainly used for sensing and analyzing external information by a command center, has various functions of emergency, dispatching, commanding, controlling and the like, and belongs to one of key technologies of important application systems. Particularly, when an emergency event needs personnel assistance, personnel scheduling is particularly important, in the prior art, a command center receives emergency request information in a telephone, voice call, weChat and other modes, the command center informs an assisting department of a responsible person, and the responsible person performs personnel scheduling in the telephone, voice call, weChat and other modes. The existing command scheduling technology has the problems of poor instantaneity, low efficiency, incapability of rapidly processing emergency and the like.

Under the background, the invention provides an emergency command scheduling method and system based on event driving, which aim to improve the emergency command scheduling efficiency and the execution quality of emergency command departments. By constructing the emergency event model library, after the system receives an emergency event request, the system can quickly analyze and match according to the preset emergency event model library, automatically generate an emergency instruction, automatically allocate assistance personnel according to preset command scheduling rules, and provide timely and accurate emergency command scheduling service for emergency command departments such as public security, urban management and the like. Compared with the prior art, the method has higher real-time performance, accuracy and intelligent level.

Disclosure of Invention

In order to improve emergency command efficiency, the invention provides an emergency command scheduling method and system based on event driving.

In a first aspect, the invention provides an emergency command scheduling method based on event driving, which adopts the following technical scheme:

receiving an emergency event request sent by a mobile command terminal;

the system analyzes and matches the emergency event request through a rule engine according to a preset emergency event model library to generate an emergency instruction;

determining a target mobile command terminal according to the emergency command and a preset command scheduling rule;

and sending the emergency instruction to a target mobile command terminal.

By adopting the technical scheme, after the system receives the emergency event request, the system rapidly analyzes and matches according to the preset emergency event model library, automatically generates an emergency command, determines the target mobile command terminal according to the preset command scheduling rule, and sends the emergency command to the target mobile command terminal, so that time delay caused by manual intervention is reduced, and the emergency command efficiency is improved.

Further, receiving an emergency event request sent by the mobile command terminal, including:

the mobile command terminal is provided with a GPS positioning function, the emergency event request comprises an emergency event address, an emergency event type and the number of required assistance personnel, and the mobile command terminal sends the emergency event request to the system through a 5G communication technology.

Further, the system analyzes and matches the emergency event request through a rule engine according to a preset emergency event model library to generate an emergency instruction, and the method comprises the following steps:

the preset emergency event model library comprises an emergency event type and an assistant type;

and after the rule engine receives the emergency event request, taking the emergency event type in the emergency event request as a retrieval condition, carrying out retrieval matching in an emergency event model library, extracting the type of an assistant person consistent with the emergency event type in the emergency event request, and automatically generating an emergency instruction. The emergency instructions include emergency event addresses, types of assistance personnel, and the number of assistance personnel required.

By adopting the technical scheme, the system automatically matches the emergency event model library, extracts the types of assistance personnel and forms the emergency instruction, so that the process of forming the emergency instruction is reduced, and the emergency instruction forming efficiency is improved.

Further, determining a target mobile command terminal according to the emergency command and a preset command scheduling rule, including:

the preset command scheduling rule is specifically as follows:

acquiring all mobile command terminals in the district, which are consistent with the types of the assistance personnel in the emergency command, as temporary mobile command terminals;

acquiring working states and residual working time of all temporary mobile command terminals, wherein the working states comprise two working states and idle states;

if the current working state of the mobile command terminal is idle, the residual working time length is 0;

if the working state of the current mobile command terminal is in working, calculating the residual working time according to the estimated working time when the current terminal executes the current instruction;

acquiring real-time positions of all temporary mobile command terminals;

calculating the expected duration from all temporary mobile command terminals to emergency event addresses by using an API provided by a map service provider;

adding the predicted time length and the residual working time length to obtain the total time length of the current command terminal reaching the emergency event address;

and sequencing from small to large according to the total duration, and selecting command terminals with the same number as the needed assistance personnel in the emergency command as target mobile command terminals.

Further, the system sends the emergency instruction to the target mobile command terminal.

By adopting the technical scheme, the system optimizes and screens the assisting personnel according to the preset command dispatching rules so as to ensure the rationality of the selection of the assisting personnel and improve the effective dispatching of emergency command.

Optionally, the emergency instruction further includes an instruction emergency level, where the instruction emergency level includes a first level, a second level, and a third level, and when the instruction emergency level is the first level, the instruction is indicated to be very urgent; when the emergency degree of the instruction is two-level, indicating that the instruction is urgent; when the emergency degree of the instruction is three-level, indicating that the instruction is not emergency; when the target mobile command terminal, the method further comprises the following steps:

if a plurality of emergency instructions point to the same command terminal, the emergency degree level of the instructions needs to be judged, the instructions with high emergency degree level are preferentially allocated, and the instructions are sequentially allocated from high to low according to the emergency degree level.

By adopting the technical scheme, when the target mobile command terminal is allocated, the emergency level of the instruction is considered, the instruction with high emergency level is preferentially allocated, so that the effective and reasonable scheduling of emergency command is improved, and the influence range caused by unreasonable allocation of personnel is reduced.

In a second aspect, the invention provides an emergency command scheduling system based on event driving, which adopts the following technical scheme:

an emergency command scheduling system based on event driving comprises a mobile command terminal and a control server; the mobile command terminal is provided with a communication positioning module and a mobile client module; the control server includes:

the emergency event model library is used for establishing various emergency event model libraries according to the types of emergency events of emergency command departments, wherein the emergency event model libraries comprise codes, types, grades, types of assistance personnel and emergency response schemes of the emergency events;

the event trigger module is in charge of receiving an emergency event initiated by the mobile command terminal and processing and analyzing emergency event data;

the message bus module is responsible for realizing the transmission of event data and providing message bus service for the whole command and dispatch system;

and the command scheduling module is responsible for conducting command scheduling according to the emergency event data and command scheduling rules, generating an emergency command and sending the emergency command to the responding execution port.

By adopting the technical scheme, after the system receives the emergency event request, the emergency event model library is matched with the rule engine to automatically generate an emergency instruction, and then corresponding assistance personnel are automatically distributed according to the emergency degree evaluation. Therefore, interaction between command terminals is reduced, and scheduling efficiency of staff is improved.

In summary, the beneficial effects achieved by the invention are as follows:

the invention provides an emergency command scheduling method and system based on event driving. The efficiency, the response speed and the accuracy of emergency treatment are effectively improved, so that the loss caused by an emergency event is reduced to the greatest extent.

Drawings

Fig. 1 is a flowchart of an event-driven-based emergency command scheduling method in an embodiment of the invention.

Fig. 2 is a schematic diagram of a command and dispatch rule of an emergency command and dispatch system based on event driving in an embodiment of the present invention.

Fig. 3 is a schematic diagram of an event-driven-based emergency command and dispatch system in an embodiment of the invention.

Fig. 4 is a schematic diagram of a control server of an event-driven emergency command and dispatch system according to an embodiment of the present invention.

Reference numerals illustrate: 1. a control server; 11. an emergency event model library; 12. an event trigger module; 13. a message bus module; 14. a command scheduling module; 2. a mobile command terminal; 21. a communication positioning module; 22. a mobile client module.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

It should be understood that the described embodiments are merely some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In one aspect, an embodiment of the present invention provides an event-driven emergency command scheduling method, including:

step S100, referring to FIG. 1, an emergency event model library is constructed.

Specifically, the emergency event model library mainly stores related data of various emergency events, wherein the related data mainly comprises emergency event types, emergency event levels and auxiliary personnel types, and the specific table structure is as follows:

field name	Field English name	Remarks
			Event coding	EVENT_ID	Main key
Event type	EVENT_TYPE
			Event ranking	EVENT_LEVEL
Types of assisting person	HELPER_TYPE
			Response scheme	RESPONSE
Creation time	CREATE_TIME
			Creator person	CREATE_USER
Remarks	REMARK

Step S200, referring to fig. 1, an emergency event request sent by the mobile command terminal is received.

Specifically, the mobile command terminal equipped by the staff has a GPS function, and the mobile command terminal automatically uploads the specific position information of the mobile command terminal according to the time interval set by the system. When the staff member needs emergency support, an emergency event request containing the emergency event address, the emergency event type and the required number of assistance personnel is sent to the system through a 5G communication technology.

In the embodiment of the application, in order to improve the request efficiency of on-site staff and reduce the manual input time, the system displays the event types supported in the emergency event model library on the mobile command terminal in a labeled form, and the staff clicks the event types and inputs the corresponding number of assistance staff to submit the request. For example, the selected event type is a general traffic accident, the number of the input assisting persons is 3, and the content of the emergency event request message is as follows: [ { "staff": "admin", "event type": "general traffic accident", "number of assistance persons": 3, "longitude": 117.1328856, "latitude": 36.6929093} ].

Step S300, referring to FIG. 1, the system analyzes and matches the emergency event request through a rule engine according to a preset emergency event model library to generate an emergency instruction.

Specifically, after the rule engine receives the emergency event request, the emergency event type in the emergency event request is used as a search condition, search matching is carried out in an emergency event model library, the type of assistance personnel consistent with the emergency event type in the emergency event request is extracted, and an emergency instruction is automatically generated. The emergency instructions include emergency event addresses, types of assistance personnel, and the number of assistance personnel required.

In the embodiment of the application, the system firstly acquires an emergency event request message, extracts event type field content in the message and records variable EventType, and then organizes event retrieval sentences, wherein the query conditions are as follows: event_type=eventtype, so that the corresponding EVENT level and the TYPE of assistance personnel are inquired, and meanwhile, an emergency command is formed by combining an emergency EVENT request message. For example, the emergency instruction message for inquiring that the event type is the formation of a general traffic accident is: [ { "staff": "admin", "event type": "general traffic accident", "helper type": "traffic police", "helper number": 3 "," event class ": three-level", "longitude": 117.1328856 "," latitude ": 36.6929093} ].

Step S400, referring to FIG. 1, a target mobile command terminal is determined according to the emergency command and a preset command scheduling rule, and the generated emergency command is sent to the target mobile command terminal.

Specifically, referring to fig. 2, the system orchestration scheduling rule includes the following 3 sub-steps:

s401, determining a temporary mobile command terminal.

Specifically, in the embodiment of the application, the mobile command terminal equipped by the staff is bound with personal information of the staff, including information such as personnel number, name, job, type, working state and the like. Firstly, personnel information of all mobile command terminals in a district is acquired, then type fields in the personnel information are compared with types of assistance personnel in emergency instructions, if the comparison is consistent, the temporary mobile command terminals are determined, and after all comparison is completed, temporary mobile command terminal queues are obtained.

S402, calculating the total duration from the temporary mobile command terminal to the emergency event address.

Firstly, calculating the residual working time length T_work of the temporary mobile command terminal.

Acquiring working states and residual working time lengths of all mobile command terminals in a temporary mobile command terminal queue, wherein the working states comprise two working states and idle states;

if the current working state of the mobile command terminal is in idle state, the residual working time length is 0, namely T_work=0;

if the working state of the current mobile command terminal is in working, calculating the residual working time according to the estimated working time when the current assistance personnel execute the current instruction; in the embodiment of the application, after a worker receives an instruction to arrive at the site, a card punching record is carried out, and the current working time is estimated and submitted to a system; for example, when the staff arrives at the site and checks the card at 12 points, the time required by the current work is estimated to be 2 hours, and if the system calculates the residual work time of the current staff at 13 points, the time is 1 hour, namely T_work=1;

and secondly, calculating the expected duration T_plan from the temporary mobile command terminal to the emergency event address.

Acquiring real-time positions of all mobile command terminals in a temporary mobile command terminal queue;

calculating the estimated time length T_plan from all temporary mobile command terminals to the emergency event address by using an API provided by a map service provider;

and finally, calculating the total duration T_total from the temporary mobile command terminal to the emergency event address.

The total time period t_total is equal to the sum of the predicted time period t_plan and the remaining operation time period t_work, i.e., t_total=t_plan+t_work.

S403, determining the target mobile command terminal.

Specifically, the temporary mobile command terminal queues are reordered, the ordering rule is that the temporary mobile command terminal queues are ordered according to the total duration T_total from small to large, a new mobile command terminal queue is obtained, then the new mobile command terminal queues are selected from the first position of the queues, and the mobile command terminals with the same number as the required assistance personnel in the emergency command are selected as target mobile command terminals.

Considering the situation that the same mobile command terminal possibly receives a plurality of emergency instructions, at this time, the emergency degree level of the emergency instructions needs to be judged, the emergency instructions with high emergency degree level are preferentially allocated, and the emergency instructions are sequentially allocated from high to low according to the emergency degree level.

In the embodiment of the application, the emergency level of the emergency instruction is an event level field of the emergency instruction, the event level comprises a first level, a second level and a third level, and when the event level is the first level, the emergency instruction is indicated to be very urgent; when the event level is two levels, indicating that the instruction is urgent; when the event level is three, the instruction is indicated as not urgent.

Further, the system sends the emergency instruction to the target mobile command terminal.

Specifically, after the system determines the target mobile command terminals, emergency instructions are sent to all the target mobile command terminals.

For example, referring to table 1, the terminal list is that the system screens out all terminals with personnel type of traffic police, the working status list records the status of the current terminal, the remaining working time list is the time automatically calculated by the system, and the estimated time length list is the estimated time length from the current mobile command terminal to the emergency event address calculated according to the API provided by the map service provider.

If the type of the assistance personnel in the emergency instruction is a traffic police, the number of the required assistance personnel is 3, at the moment, the system sorts (R03, R04, R02, R01 and R05) from small to large according to the total duration, and then 3 mobile command terminals (R03, R04 and R02) are selected as targets;

if the emergency level of the current instruction is three-level, if the emergency level of the current instruction is one-level and the emergency level of the current instruction is matched with the terminal R02 at the same time, the terminal R02 distributes the first-level instruction preferentially, and the determined target mobile command terminal is adjusted to be (R03, R04 and R01).

Table 1:

terminal	Type(s)	Operating state	Remaining working time length	Predicted time length	Total duration of time
						R01	Traffic police	In operation	1.5	0.5	2
R02	Traffic police	In operation	0.5	1	1.5
						R03	Traffic police	In idle mode	0	0.5	0.5
R04	Traffic police	In idle mode	0	1	1
						R05	Traffic police	In operation	2	0.5	2.5

On the other hand, the embodiment of the invention also provides an emergency command scheduling system based on event driving, and the emergency command scheduling method based on event driving is applied.

Referring to fig. 3 and 4, an event-driven emergency command and dispatch system includes:

an emergency command scheduling system based on event driving comprises a mobile command terminal 2 and a control server 1; the mobile command terminal is provided with a communication positioning module 21 and a mobile client module 22; the control server 1 includes:

the emergency event model library 11 is used for establishing various emergency event model libraries according to the type of the emergency event of the emergency command department, wherein the emergency event model libraries comprise the codes, types, grades, assistance personnel types and emergency response schemes of the emergency event;

the event trigger module 12 is responsible for receiving an emergency event initiated by the mobile command terminal and processing and analyzing emergency event data;

the message bus module 13 is responsible for realizing the transmission of event data and providing message bus service for the whole command and dispatch system;

the command scheduling module 14 is responsible for conducting command scheduling according to the emergency event data and command scheduling rules, generating emergency instructions and sending the emergency instructions to the responding execution ports.

The foregoing description of the preferred embodiments of the present invention is provided for the purpose of limiting the invention, and is intended to be illustrative of the present invention as defined by the appended claims. Any modification, equivalent replacement or improvement made by those skilled in the art without departing from the principles of the present invention should be included in the scope of the present invention.

Claims (6)

1. An emergency command scheduling method based on event driving is characterized by comprising the following steps:

receiving an emergency event request sent by a mobile command terminal;

the system analyzes and matches the emergency event request through a rule engine according to a preset emergency event model library to generate an emergency instruction;

determining a target mobile command terminal according to the emergency command and a preset command scheduling rule;

and sending the emergency instruction to the target mobile command terminal.

2. The method of claim 1, wherein receiving the emergency event request from the mobile command terminal comprises:

the mobile command terminal is provided with a GPS positioning function, the emergency event request comprises an emergency event address, an emergency event type and the number of required assistance personnel, and the mobile command terminal sends the emergency event request to the system through a 5G communication technology.

3. The method of claim 1, wherein the system generates the emergency command by analyzing and matching the emergency event request through the rule engine according to a preset emergency event model library, and the method comprises:

the preset emergency event model library comprises an emergency event type and an assistant type;

after the rule engine receives the emergency event request, taking the emergency event type in the emergency event request as a retrieval condition, carrying out retrieval matching in an emergency event model library, extracting the type of an assistant person consistent with the emergency event type in the emergency event request, and automatically generating an emergency instruction; the emergency instructions include emergency event addresses, types of assistance personnel, and the number of assistance personnel required.

4. The method of claim 3, wherein determining the target mobile command terminal according to the emergency command and the preset command scheduling rule comprises:

acquiring all mobile command terminals in the district, which are consistent with the types of the assistance personnel in the emergency command, as temporary mobile command terminals;

acquiring working states and residual working time of all temporary mobile command terminals, wherein the working states comprise two working states and idle states;

if the current working state of the mobile command terminal is idle, the residual working time length is 0;

if the working state of the current mobile command terminal is in working, calculating the residual working time according to the estimated working time when the current terminal executes the current instruction;

acquiring real-time positions of all temporary mobile command terminals;

calculating the expected duration from all temporary mobile command terminals to emergency event addresses by using an API provided by a map service provider;

adding the predicted time length and the residual working time length to obtain the total time length of the current command terminal reaching the emergency event address;

and sequencing from small to large according to the total duration, and selecting command terminals with the same number as the needed assistance personnel in the emergency command as target mobile command terminals.

5. The method of claim 4, wherein the emergency instructions further comprise instructions for emergency level, and wherein upon determining the target mobile command terminal, further comprising:

if a plurality of emergency instructions point to the same command terminal, the emergency degree level of the instructions needs to be judged, the instructions with high emergency degree level are preferentially allocated, and the instructions are sequentially allocated from high to low according to the emergency degree level.

6. An event-driven based emergency command dispatch system, the system comprising:

an emergency command scheduling system based on event driving comprises a mobile command terminal and a control server; the mobile command terminal is provided with a communication positioning module and a mobile client module; the control server includes:

the emergency event model library is used for establishing various emergency event model libraries according to the types of emergency events of emergency command departments, wherein the emergency event model libraries comprise codes, types, grades, types of assistance personnel and emergency response schemes of the emergency events;

the event trigger module is in charge of receiving an emergency event initiated by the mobile command terminal and processing and analyzing emergency event data;

the message bus module is responsible for realizing the transmission of event data and providing message bus service for the whole command and dispatch system;

and the command scheduling module is responsible for conducting command scheduling according to the emergency event data and command scheduling rules, generating an emergency command and sending the emergency command to the responding execution port.