CN116957251A - Gridding intelligent scheduling method and device - Google Patents

Abstract

The invention relates to the public safety field, in particular to a gridding intelligent scheduling method and a gridding intelligent scheduling device, wherein firstly, a gridding model is divided into corresponding grid areas on a map based on geographic area division of urban areas and counties and street communities, and each grid area formulates corresponding personnel to conduct grid transaction management; then, reporting and handling the circulation from the bottom to the top and the circulation from the top to the bottom by the grid event circulation model, and carrying out closed-loop processing of event scheduling; the data association model performs urban operation management in a three-dimensional GIS map mode, performs visual presentation, displays the whole geographic range of urban and rural grids, and integrates and displays index information of basic profiles; and finally, the command scheduling model uploads the position in real time through the mobile terminal, and the surrounding gridding personnel arrive at corresponding personnel in the place of occurrence in time for scheduling support through position route navigation. Compared with the prior art, the invention provides a source-path-execution means-deployed network refinement flow scheduling mechanism.

Description

Gridding intelligent scheduling method and device

Technical Field

The invention relates to the field of public safety, and particularly provides a gridding intelligent scheduling method and device.

Background

With the rapid development of urban treatment in China, the population is concentrated in towns in a large quantity, the number of towns is numerous, the components are complex, and the demands are diversified, so that the urban society treatment workload is increased suddenly, the working range is enlarged continuously, and the working tasks are heavy.

The gridding service management is an innovative measure for strengthening the social management of the base layer in a new period, and is also an important way for promoting the management and tamping of the base layer service strength. In the prior art, the problems of disordered management system, unclear service management items and the like in the gridding service management process are caused by the short plates of unclear base number, incomplete basic data, poor command and coordination, complicated event handling channel, poor management and supervision and the like in the gridding management work. Each county, street town and village have different information management systems, so that implementation, assessment standards, basic data and command coordination are not uniform, and overall work cannot be achieved.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a gridding intelligent scheduling method with strong practicability.

The invention further aims to provide a gridding intelligent scheduling device which is reasonable in design, safe and applicable.

The technical scheme adopted for solving the technical problems is as follows:

firstly, dividing a gridding model based on geographic areas of urban counties and street communities, dividing corresponding grid areas on a map, and making corresponding personnel in each grid area to conduct grid transaction management;

then, reporting and handling the circulation from the bottom to the top and the circulation from the top to the bottom by the grid event circulation model, and carrying out closed-loop processing of event scheduling;

the data association model performs urban operation management in a three-dimensional GIS map mode, performs visual presentation, displays the whole geographic range of urban and rural grids, and integrates and displays index information of basic profiles;

and finally, the command scheduling model uploads the position in real time through the mobile terminal, and the surrounding gridding personnel arrive at corresponding personnel in the place of occurrence in time for scheduling support through position route navigation.

Furthermore, in the gridding model, grid transaction points of corresponding personnel are scattered in a grid area, the names and the position information of the task points are recorded through a map positioning function to limit the point position distance, when the gridding personnel reach the effective range of a preset task, the corresponding task can be executed, the corresponding task is reported to a submitting system to form a history archive, and the map service files the data according to the business development of the basic-level gridding personnel, so that a geographic space basis is provided for gridding command and scheduling.

Further, in the event report flow from bottom to top, the specific steps are as follows:

s1, corresponding personnel serve as a basis of a gridding system, the reported events of the solution are verified, and if the events are solved, the event processing is closed; if the solution is not solved, the process of canceling the event closing event is finished according to the processing feedback opinion, and the reporting community is a committee comprehensive treatment center;

s2, each level of comprehensive treatment center receives event information reported by corresponding personnel, after judgment and analysis, the event information is forwarded to the corresponding personnel for verification after junction handling, and if the event which cannot be handled by the level of comprehensive treatment center is reported to the upper level of comprehensive treatment center or returned to a gridding member or the lower level of comprehensive treatment center for event circulation again;

transferring the events related to other functions to the same-level functional departments for event disposal;

s3, receiving events transferred by each level comprehensive treatment center by each level community village, street town and functional department, and after judgment and analysis, transferring the events to a gridding member for verification after junction handling;

if other functional departments are required to transact or cannot transact, returning the event to the comprehensive treatment center, and explaining the reason;

if the event cannot be completed before the expiration date of the event is found, applying for delay to the current-stage comprehensive treatment center, and determining whether to agree or not by the current-stage comprehensive treatment center according to actual conditions.

S4, supervising the event accepted by the functional department; in addition, when the event is overdue and not transacted, the system can automatically send supervision reminding.

Further, in the event delivery circulation from top to bottom, the event delivery is to take photos of events with potential safety hazards or contradiction disputes in life by starting and calling the masses in the public role of the owners and upload the photos to the grid scheduling system;

after the auditing of the related departments, the events are treated and reported, and the grid coordination command center audits, and the reasons for the refusal are not given and the report of the events is replied to the masses in the form of mobile phone short messages;

the public reporting event passing the audit is decided by the grid coordination command center to assign corresponding departments downwards; and after being processed by the related departments, the processing conditions of the reply events are returned in the form of short messages.

Furthermore, in the data association model, platform data is unified through big data to manage the whole platform and the business system of the access platform in a unified way, so that the association of grid transactions of the grid members and reporting events in social management is realized.

Further, in the command scheduling model, during the process of conducting the patrol of the grid area, the position of the grid member is uploaded in real time through the mobile terminal, and the position and the running track of the corresponding person are mastered on a large screen of the command center;

when a corresponding person has a major emergency event and needs to be indicated and processed by an upper command center, calling the corresponding command center person by calling the urban camera and the video monitoring call function according to the size of the event, and starting the emergency plan to deploy and schedule the corresponding street and community personnel to perform emergency assistance according to the real-time monitoring on-site condition of the video call interface by the command center person, and simultaneously, rapidly organizing and coordinating the emergency scheduling support of surrounding gridders;

after receiving the dispatching notification of the superior command center, corresponding personnel for inspecting the periphery of the place of occurrence receive dispatching information at the mobile phone terminal, and peripheral gridding members know details through a video call form and check the position route to arrive at the place of occurrence in time to carry out event emergency treatment;

the corresponding personnel communicate through the platform video, so that the field condition is realized, and a convenient channel is provided for the emergency dispatch support of the peripheral gridding member pairs; and enabling the peripheral meshing members to arrive at the place meshing members in time for scheduling support through position route navigation.

Further, after receiving the scheduling notification of the superior command center, surrounding patrol personnel receive scheduling information at the mobile phone terminal, and the surrounding personnel know details and check the position route to arrive at the incident place in time to carry out event emergency treatment;

and enabling the peripheral meshing members to arrive at the place meshing members in time for scheduling support through position route navigation.

A gridding intelligent scheduling apparatus, comprising: at least one memory and at least one processor;

the at least one memory for storing a machine readable program;

the at least one processor is configured to invoke the machine-readable program to perform a meshed intelligent scheduling method.

Compared with the prior art, the gridding intelligent scheduling method and device have the following outstanding beneficial effects:

the invention provides a gridding scheduling method of a gridding model, a gridding event stream model, a data association model and a command scheduling model, and provides a source-path-execution means-deployed network refined stream scheduling mechanism.

Drawings

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

FIG. 1 is a schematic diagram of a gridding model flow in a gridding intelligent scheduling method;

FIG. 2 is a schematic diagram of a bottom-up event report flow in a gridding intelligent scheduling method;

fig. 3 is a schematic diagram of top-down event delivery and circulation in a gridding intelligent scheduling method.

Detailed Description

In order to provide a better understanding of the aspects of the present invention, the present invention will be described in further detail with reference to specific embodiments. It will be apparent that the described embodiments are only 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.

A preferred embodiment is given below:

according to the gridding intelligent scheduling method, firstly, a gridding model is divided on the basis of geographic areas of urban areas, counties and street communities, corresponding grid areas are divided on a map, and each grid area formulates corresponding personnel to conduct grid transaction management;

then, reporting and handling the circulation from the bottom to the top and the circulation from the top to the bottom by the grid event circulation model, and carrying out closed-loop processing of event scheduling;

the data association model performs urban operation management in a three-dimensional GIS map mode, performs visual presentation, displays the whole geographic range of urban and rural grids, and integrates and displays index information of basic profiles;

and finally, the command scheduling model uploads the position in real time through the mobile terminal, and the surrounding gridding personnel arrive at corresponding personnel in the place of occurrence in time for scheduling support through position route navigation.

As shown in fig. 1, in the gridding model, based on urban, county, street town, community geographic area division, corresponding grid areas are divided on a map, and each grid area designates a corresponding person (i.e., a gridding member) for grid transaction management. Grid transaction points such as task points, inspection points and the like of a grid member are scattered in a grid area. After the task is determined, in order to ensure that the gridding member travels according to a prescribed route, the name and the position information of the task point are recorded through a map positioning function to limit the point position distance, and when the gridding member reaches the effective range of the preset task, the corresponding task can be executed and reported to a submitting system to form a history archive, so that the history archive is taken as an assessment basis. The efficiency of task completion is achieved by the operator's availability by presenting nearby processing at the task points of the map.

The map-based service is used for carrying out business according to basic layer grid staff, and the main functions comprise grid patrol (checking distance and time in the grid every day), attendance check-in, event investigation (reporting), routine work (hidden danger patrol reporting of key places and key crowds), issuing task processing and the like. The grid personnel reasonably distributes grid transactions such as hidden trouble point patrol, task issuing, event reporting and the like every day, files the data of the completion situation, and a grid command scheduling center (all levels of comprehensive control center departments are called as a whole) can display the data such as grid patrol track, event reporting and the like of the corresponding grid in a large screen so as to provide a geographic space basis for grid command scheduling.

As shown in fig. 2, in the event report stream from bottom to top of the grid event stream model, the steps are as follows:

s1, a gridding member is used as a basis of a gridding system, and after the gridding member finds a problem, self-handling and self-connection are realized on the mobile terminal. The need that the clan can not do by oneself transfers the incident to the upper level community comprehensive center. The clathrates also verify the events forwarded by the various levels of comprehensive treatment centers or functional departments to decide whether to end the event flow or return.

The gridding member verifies the reported resolved event, and if the event is resolved, the processing of the closed event is finished; if the solution is not dissolved, the process of canceling the event closing event is finished according to the processing feedback opinion, and the reporting community is a committee comprehensive treatment center.

The event report content comprises grid information (the event must fall to an exact grid), event titles, event types, related personnel, investigation time, investigation places, event descriptions, transacted comments, accessories and other information, and the gridding system provides information guarantee and theoretical basis for the overall dispatching of gridding through data integration, comparison, analysis, statistics and archiving.

S2, receiving event information reported by a gridding member (or corresponding level comprehensive treatment center staff) through a comprehensive treatment center at each level (community village, street town, county and city), judging and analyzing, and forwarding the event information after transacting to the gridding member for verification, wherein if the event which cannot be transacted by the level comprehensive treatment center is reported to a superior comprehensive treatment center; the system can also return to a gridding member or a lower comprehensive treatment center to carry out event circulation again; events related to other functions (e.g., a required court, a dispatch office, etc.) may be transferred to a peer functional department (and designated for a transaction period) for event handling.

S3, receiving events transferred by each level comprehensive treatment center by each level community village, street town, county and city) functional departments, and forwarding the events to a gridding member for verification after the events are judged and analyzed. If other functional departments are required to transact or cannot transact, the event is returned to the comprehensive treatment center, and the reason is explained. If the event cannot be completed before the expiration date of the event is found, a delay can be applied to the comprehensive treatment center. The comprehensive center of the present stage can decide whether to agree or not according to the actual situation.

S4, supervising the event accepted by the functional department; in addition, when the event is overdue and not transacted, the system can automatically send supervision reminding.

As shown in fig. 3, in the event delivery circulation from top to bottom, the event delivery is to take a picture of an event with potential safety hazard or contradiction disputes in life by launching and calling the masses in the role of the owner, upload the event to a gridding scheduling system through 12345, a specific two-dimensional code and a micro-message applet, and after the auditing of the related departments, process the event to report, audit (check some non-standard contents) of a gridding coordination command center (a comprehensive management center) without giving a refusal reason and replying to the masses reporting the event in the form of mobile phone short messages; the report event of the masses passing the audit is decided by the grid coordination command center to assign corresponding departments downwards. And after being processed by the related departments, the system returns a reply event processing condition in the form of a short message, so that the first time response of the crowd appeal is realized by taking grid system scheduling as a bridge.

In the data association model, urban operation management is integrated in a three-dimensional GIS map mode, a comprehensive platform (urban operation management service platform) is adopted, four centers (comprehensive treatment center, park management center, administrative approval center and internal transaction management center) are visually presented, the integral geographic range of urban and rural grids is displayed in a form of statistical analysis, imaging and one map, index information of basic profile is integrated and displayed, key data summary of thematic application is displayed, and accurate decision command and research and judgment analysis of gridding leadership are assisted. And the platform data comprises plates for supporting an integrated platform, a service platform, a data resource center and the like, unified user management is used for carrying out unified management on the whole platform and a service system of an access platform, and the correlation between grid transactions of a grid member and reporting events in social management is realized. The data association comprises reporting quantity, distribution condition, type and the like of the social gridding platform gridding member events, input parameter basis can be provided for gridding personnel, and the extracted starting conditions are used for interfacing with real-time data, so that social gridding scheduling deployment can be completed more accurately and efficiently.

In the command scheduling model, a gridding person can master the position and the running track of the gridding person on a large screen of a command center through the function of uploading the position of the mobile terminal in real time in the process of conducting the patrol of the grid area; when a major emergency event occurs to a gridding person and needs to be indicated and processed by an upper command center, calling corresponding command center personnel by calling a city camera and a video monitoring call function according to the size of the event, and enabling the command center personnel to monitor the site situation in real time according to a video call interface, starting an emergency plan to deploy and schedule corresponding streets and community personnel to perform emergency assistance, and simultaneously, rapidly organizing and coordinating emergency scheduling support of surrounding gridding persons; the surrounding patrol meshing member of the place of occurrence receives the scheduling information at the mobile phone terminal after receiving the scheduling notification of the superior command center, and the surrounding meshing member can know details through a video call form and check the position route to arrive at the place of occurrence in time to carry out event emergency treatment; the peripheral gridding member realizes the video call of the emergent gridding member through the platform video call function, the site condition of the gridding member is known in real time, and a convenient channel is provided for the peripheral gridding member to carry out emergency dispatch support; and the peripheral meshing member can timely and accurately reach the place meshing member to carry out scheduling support through the position route navigation.

The surrounding patrol meshing member of the place of occurrence receives the scheduling information at the mobile phone terminal after receiving the scheduling notification of the superior command center, and the surrounding meshing member can know details through a video call form and check the position route to arrive at the place of occurrence in time to carry out event emergency treatment.

The peripheral gridding member realizes the video call of the emergent gridding member through the platform video call function, so that the site condition of the gridding member is known in real time, and a convenient channel is provided for the peripheral gridding member to carry out emergency dispatch support.

And the peripheral meshing member can timely and accurately reach the place meshing member to carry out scheduling support through the position route navigation.

Based on the above method, a gridding intelligent scheduling device in this embodiment includes: at least one memory and at least one processor;

the at least one memory for storing a machine readable program;

the at least one processor is configured to invoke the machine-readable program to perform a meshed intelligent scheduling method.

The above-mentioned specific embodiments are merely specific examples of the present invention, and the scope of the present invention is not limited to the specific embodiments, and any suitable changes or substitutions made by those skilled in the art, which conform to the technical solutions described in the claims of the present invention, should fall within the scope of the present invention.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The gridding intelligent scheduling method is characterized in that firstly, a gridding model is divided on the basis of geographic areas of urban areas, counties and street communities, corresponding grid areas are divided on a map, and each grid area formulates corresponding personnel to conduct grid transaction management;

then, reporting and handling the circulation from the bottom to the top and the circulation from the top to the bottom by the grid event circulation model, and carrying out closed-loop processing of event scheduling;

the data association model performs urban operation management in a three-dimensional GIS map mode, performs visual presentation, displays the whole geographic range of urban and rural grids, and integrates and displays index information of basic profiles;

and finally, the command scheduling model uploads the position in real time through the mobile terminal, and the surrounding gridding personnel arrive at corresponding personnel in the place of occurrence in time for scheduling support through position route navigation.

2. The intelligent gridding scheduling method according to claim 1, wherein in a gridding model, grid transaction points of corresponding personnel are scattered in a grid area, the names and position information of task points are recorded through a map positioning function to limit the point position distance, when a gridding member arrives within a preset task effective range, corresponding tasks can be executed and reported to a submitting system to form a historical archive, a map service performs data archiving according to the basic layer gridding member to develop business, and a geographic space basis is provided for gridding command scheduling.

3. The intelligent dispatching method for meshing according to claim 2, wherein in the event report stream from bottom to top, the specific steps are as follows:

s1, corresponding personnel serve as a basis of a gridding system, the reported events of the solution are verified, and if the events are solved, the event processing is closed; if the solution is not solved, the process of canceling the event closing event is finished according to the processing feedback opinion, and the reporting community is a committee comprehensive treatment center;

s2, each level of comprehensive treatment center receives event information reported by corresponding personnel, after judgment and analysis, the event information is forwarded to the corresponding personnel for verification after junction handling, and if the event which cannot be handled by the level of comprehensive treatment center is reported to the upper level of comprehensive treatment center or returned to a gridding member or the lower level of comprehensive treatment center for event circulation again;

transferring the events related to other functions to the same-level functional departments for event disposal;

s3, receiving events transferred by each level comprehensive treatment center by each level community village, street town and functional department, and after judgment and analysis, transferring the events to a gridding member for verification after junction handling;

if other functional departments are required to transact or cannot transact, returning the event to the comprehensive treatment center, and explaining the reason;

if the event cannot be completed before the expiration date of the event is found, applying for delay to the current-stage comprehensive treatment center, and determining whether to agree or not by the current-stage comprehensive treatment center according to actual conditions.

S4, supervising the event accepted by the functional department; in addition, when the event is overdue and not transacted, the system can automatically send supervision reminding.

4. The gridding intelligent scheduling method according to claim 3, wherein in the event delivery circulation from top to bottom, the event delivery is to take photos of events with potential safety hazards or contradictory disputes in life by starting and calling the masses in the role of the owner's public and upload the photos to the gridding scheduling system;

after the auditing of the related departments, the events are treated and reported, and the grid coordination command center audits, and the reasons for the refusal are not given and the report of the events is replied to the masses in the form of mobile phone short messages;

the public reporting event passing the audit is decided by the grid coordination command center to assign corresponding departments downwards; and after being processed by the related departments, the processing conditions of the reply events are returned in the form of short messages.

5. The gridding intelligent scheduling method according to claim 4, wherein in the data association model, platform data is unified user management to manage the whole platform and the business system of the access platform uniformly through big data, so that the relation between grid transactions of a gridding member and reporting events in social management is realized.

6. The gridding intelligent scheduling method according to claim 5, wherein in the command scheduling model, a gridding person uploads the position in real time through a mobile terminal in the process of conducting a grid area patrol, and the position and the running track of the corresponding person are mastered on a large screen of a command center;

when a corresponding person has a major emergency event and needs to be indicated and processed by an upper command center, calling the corresponding command center person by calling the urban camera and the video monitoring call function according to the size of the event, and starting the emergency plan to deploy and schedule the corresponding street and community personnel to perform emergency assistance according to the real-time monitoring on-site condition of the video call interface by the command center person, and simultaneously, rapidly organizing and coordinating the emergency scheduling support of surrounding gridders;

after receiving the dispatching notification of the superior command center, corresponding personnel for inspecting the periphery of the place of occurrence receive dispatching information at the mobile phone terminal, and peripheral gridding members know details through a video call form and check the position route to arrive at the place of occurrence in time to carry out event emergency treatment;

the corresponding personnel communicate through the platform video, so that the field condition is realized, and a convenient channel is provided for the emergency dispatch support of the peripheral gridding member pairs; and enabling the peripheral meshing members to arrive at the place meshing members in time for scheduling support through position route navigation.

7. The method for intelligent scheduling of a grid system according to claim 6, wherein,

after receiving the scheduling notification of the superior command center, the surrounding patrol personnel of the venue receive scheduling information at the mobile phone terminal, and the surrounding personnel know details and check the position route to arrive at the venue in time to carry out event emergency treatment;

and enabling the peripheral meshing members to arrive at the place meshing members in time for scheduling support through position route navigation.

8. A gridding intelligent scheduling apparatus, comprising: at least one memory and at least one processor;

the at least one memory for storing a machine readable program;

the at least one processor being configured to invoke the machine readable program to perform the method of any of claims 1 to 7.