CN110334918B - Police collaborative plan planning system - Google Patents

Abstract

The invention discloses a police collaborative plan planning system, which comprises: a plan collaboration server and each level of command center nodes; each level of command center node comprises: the provincial hall command center node and the city level command center node; the plan collaboration server is used for maintaining a plan editing request sequence, receiving the editing requests of all levels of command center nodes for the emergency plan, and adding the editing request sequences to the plan editing request sequence according to the arrival sequence of the editing requests; the provincial hall command center node is used as a plan initiating station and is responsible for initiating a plan operation flow, creating a plan and planning a total plan, monitoring the operation progress of the city level command center node, and performing conflict detection and adjustment on the plan after the plan planning is finished; and the city-level command center node is used for being responsible for planning the project planning operation within the current district scope of the city-level command center node. The invention solves the problems of low planning operation efficiency and no synergy of the prior art system plan.

Description

Police collaborative plan planning system

Technical Field

The invention belongs to the technical field of police command and control information, and particularly relates to a police collaborative plan planning system.

Background

Under the increasingly complex and severe situation of the current public safety situation, the emergency plan is used as the important content of emergency command of each level of command centers, so that whether the emergency command can be efficiently carried out or not is concerned, and the loss of the emergency is reduced. In the technical field of the current police command control information, the emergency plan planning for the police is generally a single-machine serial planning in a local-level command center, and the collaborative plan planning in a multi-level command center is difficult to realize. Provincial and municipal level emergency plan elements relate to a plurality of emergency treatment parts such as explosive disposal, sealing control, roadblocks, evacuation, monitoring and the like, so that a plan planning system is required to be capable of thoroughly planning police force elements in various aspects and planning accurate emergency plans under the support of information and mathematical models. The planning of the complete emergency plan needs to consume a large amount of time and energy, the operation efficiency of the serialized planned emergency plan is low, the communication cost is high, the time consumption is long, all levels of command centers cannot be effectively organized to carry out collaborative planning operation, and the actual police command requirements cannot be met.

Disclosure of Invention

The technical problem of the invention is solved: the system overcomes the defects of the prior art, provides a police collaborative plan planning system, and solves the problems of low planning operation efficiency and incapability of collaboration of the system plans in the prior art.

In order to solve the technical problem, the invention discloses a police cooperative plan planning system, which comprises: a plan collaboration server and each level of command center nodes; the command center nodes at all levels communicate with the plan collaboration server through a WebService interface defined by the plan; each level of command center node comprises: the provincial hall command center node and the city level command center node;

the plan collaboration server is used for maintaining a plan editing request sequence, receiving the editing requests of all levels of command center nodes for the emergency plan, and adding the editing request sequences to the plan editing request sequence according to the arrival sequence of the editing requests; the plan collaboration server maintains a plan editing request sequence for each plan;

the provincial hall command center node is used as a plan initiating station and is responsible for initiating a plan operation flow, creating a plan and planning a total plan, monitoring the operation progress of the city level command center node, and performing conflict detection and adjustment on the plan after the plan planning is finished;

and the city-level command center node is used for being responsible for planning the project planning operation within the current district scope of the city-level command center node.

In the above system for planning police cooperative plans, each level of command center node includes:

the human-computer interface is used for providing a human-computer interface, interpreting the input of the user as an editing request of the plan and presenting the plan to the user;

the plan processing engine is used for analyzing each plan editing request, modifying the plan data of the current-level command center and returning a result to the human-computer interface;

and the plan storage is used for storing the plan data in an XML file form.

In the above-mentioned police collaborative pre-arranged plan planning system, the provincial hall command center node is configured to:

initiating an operation flow, setting a plan name, a plan type, a plan target, an operation area, a starting time and an ending time, designating a city-level command center node participating in planning of the plan, setting a task requirement for the city-level command center, and creating an emergency plan, wherein the plan is stored in an XML (extensive markup language) form;

and sending the flow starting message to a plan collaboration server, and sending the flow starting message to a city level command center node designated by the provincial hall command center by the plan collaboration server.

In the system for planning the police collaborative plan, the city-level command center node is configured to:

after receiving the process starting message, positioning the electronic map to a working area and displaying a task requirement and the current available police resources in the city;

starting planning of plans in the administrative district of the local market, wherein each action is interpreted as a plan editing request in the planning process, the plan editing request is divided into three operations of adding, deleting and changing XML elements and element attributes, and the contents of the plan editing request consist of four parts, namely an editing target, an action, an expected value and a new value, and are in a form of Req (T, Op, e, n); wherein T is an editing target corresponding to the indication of the editing request, Op is an editing adding, deleting or editing changing action corresponding to the indication of the editing request, e is expected editing content corresponding to the indication of the editing request, and n is the edited content;

and in the planning process, the current available police resources are updated in real time, the value of the limited resources cannot exceed the value of the available resources in the editing process, and each level of command center nodes send plan editing requests carrying the editing contents to the plan collaboration server.

In the system for planning the police cooperative plan, the plan cooperative server is configured to:

receiving the plan editing requests of each level of command center nodes, adding the editing request sequences to the tail of the plan editing request sequence according to the arrival sequence of the editing requests, and assigning a strictly ordered and gradually increased serial number to each editing request;

issuing the updated plan editing request sequence to each level of command center nodes, executing each plan editing request in the plan editing request sequence by a plan analysis engine in an ascending order according to the serial numbers after each level of command center nodes receive the plan editing request sequence issued by the plan collaboration server, and writing an execution result into a plan data file;

when executing each plan editing request in the plan editing request sequence, the plan parsing engine ensures strong consistency through CAS primitives, solves conflict operation of different command centers on the same element in the plan planning process, and for Req (T, Op, e, n), only when the original value of T is equal to the expected value e, the editing operation is executed to set the value of T as a new value n, otherwise, the execution fails.

In the above-mentioned police collaborative predetermined plan planning system, the provincial hall command center node is further configured to:

after the operation of each level of command center node is finished, submitting a planned completion message, and after all subordinate command center nodes submit planned completion messages, the provincial hall command center node performs conflict detection and adjustment on the plan, and the planned operation process is finished.

In the above-mentioned police cooperative plan planning system, the operation area is: a polygon of geographical coordinate points.

In the above system for planning police cooperative plans, the police resources include: police cars, police officers and police equipment.

The invention has the following advantages:

the invention provides a police collaborative plan planning system, which realizes planning of a parallel plan of a multilevel command center. And each level of command center simultaneously performs planning on each jurisdiction area plan, planned results can be synchronously presented in other command centers, and the planning data of each level of command centers are consistent through distribution, multiple copies and strong consistency capability.

Drawings

Fig. 1 is a schematic structural diagram of a police collaborative plan preparation system according to an embodiment of the present invention;

fig. 2 is a schematic diagram of communication between a plan collaboration server and each level of command center nodes according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The invention discloses a cooperative plan planning system for police, which adopts a planning process based on distributed cooperative planning, effectively improves plan planning efficiency and shortens plan planning time; by adopting a multi-copy and strong consistency means, the conflict in the parallel plan planning process is solved, the planning result is synchronously presented in each level of command centers, the data security is high, and the communication efficiency is high. The police cooperative plan planning system can be applied to a police emergency command dispatching platform.

As shown in fig. 1, in this embodiment, the system for planning police cooperative plans includes: a plan collaboration server 101 and each level of command center nodes. Wherein, command center node at each level includes: a provincial hall command center node 102 and a city class command center node 103.

In a preferred embodiment of the present invention, as shown in fig. 2, each level of command center nodes communicate with the plan collaboration server through a predefined WebService interface.

In this embodiment, the plan collaboration server is configured to maintain a plan editing request sequence, receive editing requests of each level of command center nodes for the emergency plan, and add each editing request sequence to the plan editing request sequence according to an arrival sequence of the editing requests; the plan collaboration server maintains a plan editing request sequence for each plan. The provincial hall command center node is used as a plan initiating station and is responsible for initiating a plan operation process, creating a plan and planning a total plan, monitoring the operation progress of the city level command center node, and performing conflict detection and adjustment on the plan after the plan planning is finished. And the city-level command center node is used for being responsible for planning the project planning operation within the current district scope of the city-level command center node.

In a preferred embodiment of the present invention, each level of command center node includes: the human-computer interface is used for providing a human-computer interface, interpreting the input of the user as an editing request of the plan and presenting the plan to the user; the plan processing engine is used for analyzing each plan editing request, modifying the plan data of the current-level command center and returning a result to the human-computer interface; and the plan storage is used for storing the plan data in an XML file form.

The XML form of the plan data storage is as follows:

in a preferred embodiment of the present invention, the interactive flow of the pre-arranged collaboration server 101, the provincial hall command center node 102 and the city level command center node 103 is as follows:

provincial hall command center node, is used for: initiating an operation flow, setting a plan name, a plan type, a plan target, an operation area, a starting time and an ending time, designating a city-level command center node participating in planning of the plan, setting a task requirement for the city-level command center, and creating an emergency plan, wherein the plan is stored in an XML (extensive markup language) form; and sending the flow starting message to a plan collaboration server, and sending the flow starting message to a city level command center node designated by the provincial hall command center by the plan collaboration server.

The city level command center node is used for: after receiving the process starting message, positioning the electronic map to a working area and displaying a task requirement and the current available police resources in the city; starting planning of plans in the administrative district of the local market, wherein each action is interpreted as a plan editing request in the planning process, the plan editing request is divided into three operations of adding, deleting and changing XML elements and element attributes, and the contents of the plan editing request consist of four parts, namely an editing target, an action, an expected value and a new value, and are in a form of Req (T, Op, e, n); wherein T is an editing target corresponding to the indication of the editing request, Op is an editing adding, deleting or editing changing action corresponding to the indication of the editing request, e is expected editing content corresponding to the indication of the editing request, and n is the edited content; and in the planning process, the current available police resources are updated in real time, the value of the limited resources cannot exceed the value of the available resources in the editing process, and each level of command center nodes send plan editing requests carrying the editing contents to the plan collaboration server.

A protocol collaboration server to: receiving the plan editing requests of each level of command center nodes, adding the editing request sequences to the tail of the plan editing request sequence according to the arrival sequence of the editing requests, and assigning a strictly ordered and gradually increased serial number to each editing request; issuing the updated plan editing request sequence to each level of command center nodes, executing each plan editing request in the plan editing request sequence by a plan analysis engine in an ascending order according to the serial numbers after each level of command center nodes receive the plan editing request sequence issued by the plan collaboration server, and writing an execution result into a plan data file; when executing each plan editing request in the plan editing request sequence, the plan parsing engine ensures strong consistency through CAS primitives, solves conflict operation of different command centers on the same element in the plan planning process, and for Req (T, Op, e, n), only when the original value of T is equal to the expected value e, the editing operation is executed to set the value of T as a new value n, otherwise, the execution fails.

Provincial hall command center node, still be used for: after the operation of each level of command center node is finished, submitting a planned completion message, and after all subordinate command center nodes submit planned completion messages, the provincial hall command center node performs conflict detection and adjustment on the plan, and the planned operation process is finished.

Wherein, the operation area is: a polygon of geographical coordinate points. Police resources include, but are not limited to: police cars, police officers and police equipment.

On the basis of the above embodiments, a specific example is described below.

The following describes the process of editing conflict by taking the command center nodes in city a and city B as examples to adjust the names of the key personnel a simultaneously:

(1) the command center in city a modifies the name of the key person a from AAA to BBB, and at this time, the command center node in city a generates an edit request Req (emergency plan/key person a/name, Update, AAA, BBB), which is recorded as ReqA, where "emergency plan/key person a/name" is an edit target indicated by the edit request, the "Update" indicates that the edit action is modification, "AAA" is the expected edit content of the edit target, and "BBB" is the edited content of the edit target. And the command center node in the city A sends the ReqA to a plan collaboration server.

(2) Meanwhile, the command center in city B hopes to modify the name of the key person a from AAA to CCC, and at this time, the command center node in city B generates an edit request Req (emergency plan/key person a/name, Update, AAA, CCC), records it as ReqB, and sends ReqB to the plan collaboration server.

(3) The ReqA and the ReqB arrive at the plan collaboration server, but the ReqA arrives before the ReqB, the plan collaboration server is numbered N for the ReqA and N +1 for the ReqB, and the ReqA, the ReqB and the numbers are issued to the command center nodes in the market A and the market B.

(4) The A city command center and the B city command center node receive ReqA and ReqB with numbers, respective plan analysis engines execute editing requests, and because the ReqA number is in the front, ReqA is executed firstly, the original value of an editing target is obtained to be AAA which is the same as the expected editing content, the ReqA execution is successful, the name of a key person A is modified to be BBB, then ReqB is executed, the original value of the editing target is obtained to be BBB which is not equal to the expected editing content AAA in the ReqB, the ReqB execution is failed, and the A city command center and the B city command center scheme data are kept consistent.

The embodiments in the present description are all described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The above description is only for the best mode of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention.

Those skilled in the art will appreciate that the invention may be practiced without these specific details.

Claims (4)

1. A police cooperative plan planning system is characterized by comprising: a plan collaboration server and each level of command center nodes; the command center nodes at all levels communicate with the plan collaboration server through a WebService interface defined by the plan; each level of command center node comprises: the provincial hall command center node and the city level command center node;

the plan collaboration server is used for maintaining a plan editing request sequence, receiving the editing requests of all levels of command center nodes for the emergency plan, and adding the editing request sequences to the plan editing request sequence according to the arrival sequence of the editing requests; the plan collaboration server maintains a plan editing request sequence for each plan; the method comprises the following steps: receiving the plan editing requests of each level of command center nodes, adding the editing request sequences to the tail of the plan editing request sequence according to the arrival sequence of the editing requests, and assigning a strictly ordered and gradually increased serial number to each editing request; issuing the updated plan editing request sequence to each level of command center nodes, executing each plan editing request in the plan editing request sequence by a plan analysis engine in an ascending order according to the serial numbers after each level of command center nodes receive the plan editing request sequence issued by the plan collaboration server, and writing an execution result into a plan data file; when executing each plan editing request in the plan editing request sequence, the plan parsing engine ensures strong consistency through CAS primitives, solves the conflict operation of different command centers on the same element in the plan planning process, and for Req (T, Op, e, n), only when the original value of T is equal to the expected value e, the editing operation is executed to set the value of T as a new value n, otherwise, the execution fails;

the provincial hall command center node is used as a plan initiating station and is responsible for initiating a plan operation flow, creating a plan and planning a total plan, monitoring the operation progress of the city level command center node, and performing conflict detection and adjustment on the plan after the plan planning is finished; the method comprises the following steps: initiating an operation flow, setting a plan name, a plan type, a plan target, an operation area, a starting time and an ending time, designating a city-level command center node participating in planning of the plan, setting a task requirement for the city-level command center, and creating an emergency plan, wherein the plan is stored in an XML (extensive markup language) form; sending the flow starting message to a plan collaboration server, and sending the flow starting message to a city level command center node designated by a provincial hall command center by the plan collaboration server; after the operation of each level of command center node is finished, submitting a planned completion message, and after all subordinate command center nodes submit the planned completion message, the provincial hall command center node performs conflict detection and adjustment on the plan, and the planned operation flow is finished;

the city-level command center node is used for being responsible for planning the project planning operation of the current city-level command center node jurisdiction range; the method comprises the following steps: after receiving the process starting message, positioning the electronic map to a working area and displaying a task requirement and the current available police resources in the city; starting planning of plans in the administrative district of the local market, wherein each action is interpreted as a plan editing request in the planning process, the plan editing request is divided into three operations of adding, deleting and changing XML elements and element attributes, and the contents of the plan editing request consist of four parts, namely an editing target, an action, an expected value and a new value, and are in a form of Req (T, Op, e, n); wherein T is an editing target corresponding to the indication of the editing request, Op is an editing adding, deleting or editing changing action corresponding to the indication of the editing request, e is expected editing content corresponding to the indication of the editing request, and n is the edited content; and in the planning process, the current available police resources are updated in real time, the value of the limited resources cannot exceed the value of the available resources in the editing process, and each level of command center nodes send plan editing requests carrying the editing contents to the plan collaboration server.

2. A police cooperative plan preparation system according to claim 1, wherein each level of command center node comprises:

the human-computer interface is used for providing a human-computer interface, interpreting the input of the user as an editing request of the plan and presenting the plan to the user;

the plan processing engine is used for analyzing each plan editing request, modifying the plan data of the current-level command center and returning a result to the human-computer interface;

and the plan storage is used for storing the plan data in an XML file form.

3. A police collaborative pre-plan drafting system according to claim 1, wherein the work area is: a polygon of geographical coordinate points.

4. A police collaborative pre-plan drafting system as claimed in claim 1, wherein the police force resources comprise: police cars, police officers and police equipment.

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