CN112330171A - Emergency force based command management method and system - Google Patents

Abstract

The invention belongs to the technical field of command management, and particularly relates to a command management method and system based on emergency force, wherein potential data are acquired in multiple modes, the acquired potential data are verified, and the checked data are submitted to a big data platform for cleaning and processing; screening the processed potential data and carrying out marshalling management; and commanding and controlling the personnel in the grouping management according to the uploaded information. An emergency combat force command management system integrating potential, marshalling, management, information, command, education, training and guarantee is constructed. The technical problems that potential resources are difficult to master, soldier marshalling is difficult to implement, information is difficult to collect, information reports are not timely and accurate, command and control are difficult to accurate, difficult organizations are quickly mobilized, and blind areas exist in communication guarantee are solved.

Description

Emergency force based command management method and system

Technical Field

The invention belongs to the technical field of command management, and particularly relates to a command management method and system based on emergency force.

Background

Civil soldiers, national defense mobilization professional teams, emergency industry professional strength, social strength of mobile workers and volunteer teams (hereinafter referred to as emergency response strength) are important bases for performing emergency response missions in administrative areas and are the backbone strength of civil wars. For a long time, people are in the peaceful development age, the worry and the consciousness are not strong, the national defense concept is thin, and the emergent combat force has the outstanding problems of insufficient attraction, difficult mastering of potential resources, difficult implementation of soldier marshalling, difficult in-place daily management, difficult collection of information, quick mobilization of difficult organizations, difficult precision of command control and the like in construction and application, so that the construction development and the function exertion of the emergent combat force are seriously restricted.

The potential resources are difficult to master, and the concrete performance is as follows: the potential data range is wide, the types are multiple, but the data source is single, and the data is incomplete; secondly, the potential data volume is large, but the data acquisition mode mainly adopts the traditional manual mode to carry out acquisition and input by workers, the workload is huge, and the problem of repeated acquisition exists; thirdly, the accuracy and the timeliness of the acquired potential data are low, and the authenticity of the data cannot be effectively verified.

The marshalling of the soldiers is difficult to implement, and the marshalling bottom is unclear and not real and inaccurate. The problem of repeated soldier editing in the same industry and cross soldier editing in cross industry. The concrete expression is as follows: the whole lesson work in the past relies on Excel roster to report step by step, complex operation to through artifical discernment can't avoid the repetition problem, even do not have the repetition personnel under this unit, nevertheless when gathering the last level unit, also can take place with the repetition of unit soldier of the same level. In such cases, the screening and localization of repeat problems by personnel is difficult.

The information is difficult to collect, and the information report is not timely and accurate.

The command control is difficult to be accurate, the difficult organization is rapidly mobilized, and blind areas are guaranteed in communication.

Daily combat readiness management and organization training are difficult to achieve. The concrete expression is as follows: in daily combat readiness, the on-duty condition of the team members cannot be mastered in real time, and the work report and the notice are not timely. The training and education of the team members are difficult to centralize and organize, and the training results and the education effects are difficult to master.

Disclosure of Invention

Aiming at the technical problems, the invention provides a command management method and a command management system based on emergency force, which can realize integration, marshalling, daily management and rescue command of force.

In order to solve the technical problems, the invention adopts the technical scheme that:

a command management method based on emergency force acquires potential data in multiple modes, verifies the acquired potential data, and submits the checked data to a big data platform for cleaning and processing; screening the processed potential data and carrying out marshalling management; and commanding and controlling the personnel in the grouping management according to the uploaded information.

When potential data are collected, an off-line loading and cluster operation mode is adopted; loading potential data into a memory of a Driver end by using a BitMap algorithm, and broadcasting and updating each Work node by using a broadcast variable to ensure that the broadcast variable on each Work node is consistent;

when data is inserted, the data is simultaneously dropped into HBase, and the fields to be deduplicated in the data are loaded into a special table by using a coprocessor of the HBase.

When in marshalling management, a force system is constructed according to the membership, the organization formation, the personnel basic information and the latest geographical position of the affiliated squadron can be inquired in real time, and the presence and personnel distribution conditions of the affiliated force personnel can be mastered.

The uploaded information is reported to a management system of the affiliated unit, and the positioning information is also reported to the management system; displaying the information in a directory tree in a classified manner according to the information state, acquiring information positioning information and displaying the information positioning information on a map;

reporting the information which cannot be processed at the current level, displaying the information in a user management system of a superior unit, and processing the information by the superior unit;

checking weather and calling a real-time weather interface to obtain the latest weather data around the place where the information occurs, so that the situation analysis of the information site is facilitated;

the unmanned aerial vehicle monitoring module adds unmanned aerial vehicle equipment and sets up the unique identification code of unmanned aerial vehicle in the system, sends out unmanned aerial vehicle when the condition takes place and scouts the control around it, and unmanned aerial vehicle transmits on-the-spot audio and video data to the server, and unit user management system acquires its audio and video data and demonstrates on the interface.

When the information is reported through a mobile phone user terminal, picture information needs to be reported, an image-picker Android selection library is used, Kotlin is used for rewriting, the camera function can work normally by using new grammatical characteristics and algorithms, and the camera function is separated from the selected page, so that the function of the selected page is more independent.

When in command and control, the holographic geographic information technology is utilized, and the operations such as marking, ranging, measuring surface, central cross, section measurement and the like are carried out on the periphery of the information by combining maps of line drawing, relief map, image map and other types, so that the optimal configuration and deployment of force resources are realized on a visual three-dimensional map platform, and a more flexible, accurate and efficient action scheme is made;

searching team members, equipment and other potential data distribution conditions within a certain range around the peripheral calling information generating place; and performing batch frame selection on the map by using map frame selection, issuing tasks on the map by using the batch frame selection, sending task information and task geographic positions to user terminals of all target persons, and receiving task receiving feedback information of the user terminals.

The task is issued in combination with a map frame selection technology, and a task message is pushed to the user handheld terminal through an extensible communication and presentation protocol Xmapp, so that the user handheld terminal is kept in contact with a background; the tasks issued in the map frame selection mode accord with the principle of proximity, so that the task distribution is more reasonable;

when the system and the user have high concurrency information, one IOCP object can be associated with a plurality of sockets and/or file control terminals in the operating system; the IOCP object is internally provided with a first-in first-out queue which is used for storing service request completion messages of the input end and the output end which are related to the IOCP;

the process requesting the input output service does not receive the IO service completion notification, but checks the message queue of the IOCP to determine the status of the IO request; the multiple threads are responsible for taking the completion notification from the IOCP message queue and performing data processing; if no message exists in the queue, the thread blocks and hangs in the queue, and the threads realize load balancing;

the IOCP server is managed by a C/C + + writing client Web end and a server Socket thread pool, and can better manage the Socket of the client; the server side performs transfer service to decode the WebSocket protocol of the Web side and take the decoded WebSocket protocol to the data sent by the client side, and after the processing of the data is completed by the server side, the server side informs the client side of converting the WebSocket protocol into a WebSocket protocol and sending a message to the client side for notification.

The potential data is collected by one or more of the following means: the method comprises the following steps of intelligently inputting a system, collecting a web crawler, leading in government affairs or data of a third-party platform, and collecting by a handheld terminal;

when the system is intelligently recorded: after data are submitted in a queuing mode, the system sends the data to the servers, the servers carry out one-to-one deployment, the data submitted by different users are processed by the unused servers, meanwhile, the successful results of the users are returned, and the current queue condition and the import progress are prompted;

when the web crawler is collected: capturing various publicly published potential resource data from each website, cleaning and removing the data from various sources, fusing the acquired data with the existing data, continuously perfecting and supplementing a potential basic database, and synchronizing structured and unstructured data and streaming data by adopting various advanced technical components to ensure the acquisition quality of data acquisition;

when data of government affairs or third party platforms are imported: integrating different government affair systems and different types of data, and adopting an ETL tool to realize the extraction of the total amount and increment of each type of data of the database and the operations of cleaning, desensitization, conversion, verification and combination;

when the handheld terminal collects: in the process of inputting the personal information, the system performs uniqueness processing on the user, and ensures that the user can only input and update information under one identification number.

A command management system based on emergency force comprises a data resource module, a registration marshalling module, an information reporting module and an organization command module;

the data resource module is used for carrying out input, modification, query and deletion management on the provided data;

batch marshalling, team management, team member management and map positioning are carried out through the registration marshalling module;

the information state is displayed in a directory tree in a classified mode through an information reporting module, information positioning information is obtained and displayed on a map;

analyzing the terrain through an organization command module, and searching team members, equipment and other potential data distribution conditions in a certain range around the peripheral calling information generating place; and (4) performing batch frame selection on the map by using the map frame selection, and issuing the tasks on the map by using the batch frame selection.

The system also comprises a learning education module and a business training module; the study education module organizes team members to carry out political and ideological education courses and examinations and the service training module carries out plan attendance and subsidy distribution.

Compared with the prior art, the invention has the following beneficial effects:

1. the management team, the emergency response force organization and the rescue force are integrated, linkage management and joint command decision are implemented, the organization command service guarantee is provided, and a command management system integrating potential, marshalling, education, training, management, information, command and guarantee is constructed.

2. And a five-level strength system of provinces, cities, counties and villages is constructed according to the membership relationship, the organization, the basic information of personnel and the latest geographical position of the affiliated squadron can be inquired in real time, and the positions and the personnel distribution conditions of the affiliated strength personnel are mastered.

3. The emergency can be reported in the forms of characters, pictures, audio and video and the like through the mobile phone client at the first time, and the command management system can receive, automatically label, classify and dispose and report information step by step in real time, so that a command authority can master the situation in time and organize and dispose quickly. The force around the incident place and the positions and meteorological conditions of team members can be mastered in real time to form a situation map, command instructions are issued in time in a mobile client or short message mode, the functions of communication command, path planning and the like are achieved, force deployment is adjusted, accurate command is achieved, and the problems of multiple command levels, inaccurate command and the like are effectively solved.

4. The geographic and geomorphic, coordinate elevation and distance area of the human area can be inquired and analyzed through a shadow map, a topographic map, a traffic map, a line drawing and a three-dimensional image, and information support and auxiliary decision are provided.

5. The system can be used for pushing messages and releasing articles, and timely pushing the contents of current politics, emergency rescue, emergency knowledge and the like to the mobile phone client. The problems of difficulty in centralization of personnel and difficulty in follow-up of education are effectively solved.

6. A series of business processes of personnel business training, attendance management and subsidy issuing are realized through the system, the condition of subsidy issuing detail and subsidy arrival account is automatically generated, the traditional manual statistics of subsidy and issuing are replaced, the working efficiency is improved, and the problem of difficulty in training is solved.

7. And (4) carrying out statistical analysis on the position rate, the task response rate and the information reporting rate of the personnel, visually displaying the data quality, the marshalling quality and each proportion of the personnel, and providing data support for the decision of each command organ.

8. When potential data are collected, data need to be cleaned, in an original deduplication mode, all data need to be loaded with a complete value, and operations such as joion are carried out, so that the configuration of a needed single server or cluster server is high, and when the data volume is large, the hardware configuration of the server needs to be increased. The BitMap is used for loading data, so that the use of a memory can be reduced, the duplication elimination of large-scale data can be performed under the condition of low server hardware environment, and the waste of resources is effectively reduced.

9. The task issuing combines the map frame selection technology, the traditional mode of the task issuing in the past is improved, the task is directly issued from the map more intuitively, and the task message is pushed to the user handheld terminal through the extensible communication and the presentation protocol Xmapp, so that the user handheld terminal is kept in contact with the background. The tasks issued by the map frame selection mode accord with the principle of proximity, so that the task distribution is more reasonable.

Drawings

FIG. 1 is a flow diagram of the invention as a whole;

FIG. 2 is a flow chart of the potential data acquisition and processing of the present invention;

FIG. 3 is a flow chart of the present invention for collecting and processing personal data of a user's handheld terminal;

FIG. 4 is a big data washing and processing flow of the present invention;

FIG. 5 is a flow of the present invention for scheduled attendance and subsidy release;

Detailed Description

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

As shown in fig. 1 to 5, a command management method based on emergency power can solve the problem of incomplete data by collecting potential data in various ways. Verifying the acquired potential data, submitting the verified data into a big data platform for cleaning and processing; the method is characterized in that a big data processing technology is applied to complete multi-source heterogeneous multi-mode data integration fusion such as data cleaning and data fusion, classification storage is carried out according to administrative divisions and position information, and display is carried out on a map, so that the problems of inaccurate, inconsistent and false unrealistic potential data are mainly solved, and meanwhile timeliness and freshness of the data can be guaranteed.

Screening the processed potential data and carrying out marshalling management; the screening conditions can be set according to actual conditions, such as: the method provides combined screening of potential personnel major, political face, cultural degree, work units, service conditions and the like, screens potential personnel lists which are more in line with conditions according to the personnel quality requirements of teams, and performs batch enqueuing. And after the enqueue is successful, displaying the enqueue on the left directory tree and the map.

And commanding and controlling the personnel in the grouping management according to the uploaded information. The team member can report the information by a handheld terminal and the like, and the information is displayed on a directory tree and a map after being received by the unit user management terminal, so that the information can be classified, processed, analyzed and judged.

Furthermore, in the potential data acquisition step, a plurality of channels and modes are adopted for acquisition, and the acquired data is cleaned and processed; specifically, the method comprises the following steps: the potential data is collected by one or more of the following means: the system comprises intelligent input, web crawler collection, government affair leading-in or third-party platform data collection and handheld terminal collection.

1. System intelligent entry

The improvement is carried out on the prior system recording technology, and the improvement scheme is as follows:

and (3) automatic information generation: after the user inputs the identification card number, the gender, the age and the birth date are extracted from the identification card number. The user inputs the name key words of the working units, the system automatically searches the unit data existing in the database to provide the user with the selection, and the information of the working units is automatically generated after the selection without repeated input. Aiming at the acquisition content with sharing property, the user can repeatedly enter the data during entering to cause data redundancy, in order to solve the problem, the system identifies the data, matches the existing data in the database, preferentially displays the data with high matching degree, and the user can directly select the data. For example, the following steps are carried out: and (5) equipment input. The user needs to input information such as basic information and technical parameters of equipment of a certain model, when the user inputs the model of the equipment on the adding interface, the system searches the technical parameter information of the equipment of the model in the matching potential database, the technical parameter information is displayed in a selection column of the adding interface, and the user can directly call the data of the equipment after selecting the equipment.

Connecting an identity card acquisition terminal: the identity card information is refreshed through the identity card acquisition terminal, and the name, the gender, the ethnicity, the date of birth, the identity card number, the address and the household registration location are extracted and stored in the system.

OCR recognition: uploading the ID card photo, and extracting the information of name, gender, ethnicity, birth date, identity card number, address, household registration location and head portrait by using the existing OCR recognition technology.

Batch import: the system provides an Excel form batch import function, and a user fills in data according to a specified Excel template and then imports the form into the system. In order to solve the problems that each unit data acquisition time period is concentrated, the concurrency is large, the server is easily stressed to cause slow leading-in function blockage, and the working efficiency and the user experience are affected, the method is improved on the basis of the prior art, a queuing mode is adopted, after a user submits data, the system sends the data to the server, the server carries out one-to-one deployment, the data submitted by different users are processed by different servers, meanwhile, the user success result is returned, and the current queue condition and the leading-in progress are prompted. Therefore, the concurrency of data requests can be greatly reduced, the pressure of the server is relieved, and good user experience can be brought.

2. Web crawler collection

The system comprises a plurality of potential resource databases, a plurality of web crawlers, a plurality of network data acquisition modules and a plurality of potential resource data management modules.

3. Lead-through government affairs or third party platform

Due to the fact that data types of government functional departments are structured and high in data quality, the system is in butt joint with third party platforms such as public security, human society and government cloud, different government systems and different types of data are integrated, and a series of operations such as extraction of the total amount and increment of various types of data of the database, cleaning, desensitization, conversion, verification and combination are achieved by the aid of a special ETL tool.

4. User hand-held terminal personal data entry

In the potential acquisition step, the system provides a method for the individual user to carry out scattered input on the terminal instead of manual acquisition and input by workers. With reference to fig. 3, the specific scheme is as follows:

personal information, equipment material information, units and other information are input through the handheld terminal of the user. The system can acquire the mobile phone number and the geographic position information of the handheld terminal of the individual user on the premise that the user agrees to authorization to automatically complete information, the data is cleaned and processed after being submitted, and the result data is stored in the potential basic database, returned to the handheld terminal of the individual user and displayed at the corresponding unit user management terminal according to the membership selected by the user. The personal user hand-held terminal and the unit user management terminal can also manage the input information, and the system is updated in real time after personal data is modified. In the process of inputting personal information by the handheld terminal of the personal user, the system performs uniqueness processing on the user, ensures that the user can only input and update information under one identity card number, and ensures data security.

Further, in order to solve the problems of repeated soldier editing and cross soldier editing, in a system under a local area network or internet environment, the weight judgment of personnel is carried out during data entry, namely when a user inputs an identity card number, the system carries out retrieval, if the same identity card number exists, a prompt is popped up, and the prompt content comprises repeated information prompt of the identity card and a unit in which the identity card exists; in the system under the non-networking environment, the judgment of the repetition of the personnel is carried out during the data reporting or summarizing, namely after the system receives a data packet, the detailed information and the repetition unit of the repeated personnel are displayed in the system, and a user can select to keep the local data or the received data. Meanwhile, repeated personnel logs can be downloaded, so that units generating repeated soldier editing problems can conveniently compare and replace soldiers.

Further, when the control is commanded: and (3) searching the peripheral force distribution of the target site by combining a map, selecting the team or personnel in batches to issue tasks, receiving task information by the handheld terminal of the team members, and responding to the tasks. The unit user management end can carry out audio and video communication and video conference with each team member, and master the first-line situation in real time.

The target location may be an intelligence occurrence location or a custom location.

In order to solve the problem of a middle communication blind area, under the condition that communication cannot be carried out under the condition that no mobile network signal exists, the system comprehensively utilizes the Beidou satellite navigation positioning communication, the LTE private network base station, the regional narrow band, the short wave and other emergency communication functions, grasps the position of emergency combat-required force, keeps communication contact and ensures that command is not interrupted.

Further, the daily management method comprises the following steps: and organizing attendance, training and education for the marshalling team and the team members thereof through the unit user management end. The team members participate in training, attendance checking, card punching, training education and the like at the user handheld terminal, and the on-line condition of the team members is mastered by acquiring the on-line information of the user handheld terminal of the team members.

Further, when a personal user side or other modes are used for data acquisition, each person can input N pieces of data, but the key point of data entering a big data platform is the data repeatability problem. If the data is not good enough to remove the repetitive data, two problems may occur:

data repetition, for example: after 100 persons input the same identification number, 100 persons with the same identification number can appear in the system;

when the data volume is small, the consumed resources are small when the deduplication is performed, but when the data volume is large, the resources on a single machine are completely consumed when the deduplication is performed, so that other services on the server are completely hung up or the server is hung up;

in view of the above two critical problems, it is a particularly important task to perform deduplication reasonably at the time of data entry.

Firstly, when data is collected, the data is in an offline loading mode but in a cluster running mode, so that data to be deduplicated is loaded into a memory of a Driver end by using a BitMap algorithm, and each Work node is broadcasted and updated by using a broadcast variable, so that the broadcast variable on each Work node is ensured to be consistent.

Secondly, when data is used and inserted, and the data falls into the HBase, the field to be deduplicated is loaded into a special table (a preloaded data table for program starting) by using the coprocessor of the HBase, so that the problem of service hang-up caused by program running or other reasons can be solved.

In the original deduplication mode, all data are required to be loaded with a complete value, and operations such as joon are performed, so that the configuration of a required single server or cluster server is high, and when the data volume is large, the hardware configuration of the server needs to be increased. The BitMap is used for loading data, so that the use of a memory can be reduced, the duplication elimination of large-scale data can be performed under the condition of low server hardware environment, and the waste of resources is effectively reduced.

Furthermore, during grouping management, a strength system is constructed according to the membership relationship, organization formation, personnel basic information and the latest geographical position of the affiliated squad can be inquired in real time, and the presence and personnel distribution conditions of the affiliated strength personnel can be mastered.

Further, the uploaded information is reported to a management system of the affiliated unit, and the positioning information is also reported to the management system; displaying the information in a directory tree in a classified manner according to the information state, acquiring information positioning information and displaying the information positioning information on a map;

reporting the information to the user management system of the upper level unit, and processing the information by the upper level unit;

checking weather and calling a real-time weather interface to obtain the latest weather data around the place where the information occurs, so that the situation analysis of the information site is facilitated;

the unmanned aerial vehicle monitoring module adds unmanned aerial vehicle equipment and sets up the unique identification code of unmanned aerial vehicle in the system, sends out unmanned aerial vehicle when the condition takes place and scouts the control around it, and unmanned aerial vehicle transmits on-the-spot audio and video data to the server, and unit user management system acquires its audio and video data and demonstrates on the interface.

Further, when the personal user side reports the picture information to the command management system, the problem that a high-version android system cannot be compatible with a mobile phone picture library in the prior art is solved. The method comprises the steps of improving related source codes on the basis of an image-picker Android selection library, rewriting the source codes by using Kotlin, enabling a camera function to work normally by using new grammatical characteristics and algorithms, and enabling the camera function to be separated from a selected page so that the function of the selected page is more independent.

The method is characterized in that an internal algorithm of the Adapter of the original selection page is disordered, so that the algorithm related to a camera is rearranged by Kotlin, a touch identification area of a multi-selection click event of the original algorithm is only a check box, so that the misoperation probability is high during the operation of a user, the touch identification of the check box is directly forbidden, the binding selection state of the picture thumbnail identification area is changed, and the operation is safer and quicker. The original algorithm uses the onactive result to transmit data, is complex to use, and is inconvenient to operate in data receiving and transmitting, so that the Kotlin protocol is used for transmitting data by using an event bus.

Furthermore, when in command control, the holographic geographic information technology is utilized, and the operations such as marking, ranging, measuring surface, central cross, section measurement and the like are carried out on the periphery of the information by combining maps of line drawing, relief map, image map and other types, so that the optimal configuration and deployment of force resources are realized on a visual three-dimensional map platform, and a more flexible, accurate and efficient action scheme is made;

searching team members, equipment and other potential data distribution conditions within a certain range around the peripheral calling information generating place; and performing batch frame selection on the map by using map frame selection, issuing tasks on the map by using the batch frame selection, sending task information and task geographic positions to user terminals of all target persons, and receiving task receiving feedback information of the user terminals.

The task issuing combines the map frame selection technology, the traditional mode of the task issuing in the past is improved, the task is directly issued from the map more intuitively, and the task message is pushed to the user handheld terminal through the extensible communication and the presentation protocol Xmapp, so that the user handheld terminal is kept in contact with the background. The tasks issued by the map frame selection mode accord with the principle of proximity, so that the task distribution is more reasonable.

Further, in implementing the functions of emergency positioning, message pushing, message notification and task issuing, in order to solve the problem of high-concurrency information communication between the system and the user, the system solves the problem of high-concurrency polling through an IOCP, and one IOCP object can be associated with a plurality of sockets and/or file control terminals in an operating system. The IOCP object has a first-in first-out (FIFO) queue inside for storing the service request completion messages of the input and output terminals associated with the IOCP. The process requesting the input output service does not receive the IO service completion notification, but checks the message queue of the IOCP to determine the status of the IO request. Multiple threads (in the thread pool) are responsible for taking completion notifications from the IOCP message queue and performing data processing; if there are no messages in the queue, then the threads are blocked from suspending in the queue, and the threads are thus load balanced.

The IOCP server is managed by C/C + + writing client Web end and server Socket thread pool, and can better manage the Socket of the client (grouping, exception handling, etc.). The server performs transit service to decode the WebSocket protocol of the Web end and take the decoded WebSocket protocol to the data sent by the client, and after the processing of the data is completed by the server, the server informs the client(s) to convert the WebSocket protocol into a WebSocket protocol and send a message to the client for notification.

A command management system based on emergency force comprises a data resource module, a registration marshalling module, an information reporting module and an organization command module.

Data resource module in the system:

and management functions of data entry, modification, query, deletion and the like are provided for users. When the information of the data personnel is recorded, the ID card number is extracted, the retrieval is carried out in the database, if the retrieval is carried out, the membership where the personnel is located is returned, a prompt popup window is displayed, the existing membership of the personnel is shown, and the membership where the personnel is located is displayed. The system simultaneously displays various potential data through the left membership directory tree and map positioning, so that a user can view the potential data in a linkage manner by combining the membership and the map positioning.

Further, in the module, as optimization, a draft box function is provided, a user can input part of collected attributes, the acquired attributes are temporarily stored in the draft box, and after all the necessary attributes are input, the data are submitted to a formal potential personnel list.

Furthermore, in the process of collecting data in multiple modes, in order to improve the quality of various data and ensure the data safety, the system checks the data in the data acquisition stage, and the data enters a big data platform for cleaning and processing after being submitted. The specific scheme is as follows:

in the data acquisition stage, the system performs strict format check and sensitive word processing on data entry. And checking the null value, the incomplete value, the repetition, the format content and the rationality of the data entry. The system automatically converts the format of data values with fixed formats such as date, telephone and the like, and ensures the consistency of the data.

In the data processing stage, the system performs ETL extraction, cleaning, conversion and loading on multi-source heterogeneous multi-modal data, and stores the data according to administrative divisions and position information in a classified manner.

Register grouping module in the system:

the module comprises the functions of team management, batch grouping, team member management, map positioning, video communication, mass short message sending and the like. Wherein:

the team management function can add, modify, inquire and delete the multi-level teams in the membership directory tree. For generating a team organization structure under each membership unit.

The batch grouping function can acquire all potential personnel data in the unit, provide screening and query for various attributes of the personnel, screen out a personnel list meeting the quality requirements of the team, perform batch check-in to the team, and simultaneously display the team members under each team node in the directory tree.

The team member management function is used for checking the details of the team members and modifying the information of the team members. Personnel on the team can be dequeued and returned to the potential personnel database after dequeuing.

The map positioning function can display the detailed positioning of teams and team members on a map, collect the latest positioning information of the handheld terminal of the user and the use state of the terminal application program, return to the system, display on the map and distinguish the online state from the offline state by colors.

The video communication function can be used for dialing through the handheld terminal of the user to carry out video call.

The group short message sending function can send the short message in a group sending mode to the mobile phone of the target team member and can be used for sending out the notice immediately or at regular time.

The information reporting module in the system:

the module comprises a user handheld terminal information reporting function, an individual soldier information reporting module of a unit user management system and an unmanned aerial vehicle monitoring module, and the specific scheme is as follows:

the handheld terminal information reporting function is used for reporting information including videos, pictures and texts to a management system of a subordinate unit, and reporting the positioning information of the user to the management system.

The individual information reporting module acquires the information sent by the handheld terminal of the user, displays the information in a directory tree in a classified manner according to the information state, acquires the information positioning information and displays the information positioning information on a map. The information states are divided into initial states, adopted states, unadopted states and reported states. The individual information reporting module also comprises the functions of information indication, video call, information acquisition, information reporting, weather checking and the like.

The information indicating function is used for information communication between the unit user management system and the user handheld end reporting information;

the video call function is used for carrying out video call between the unit user management system and the user handheld end reporting information, the unit user initiates a call request in the management system, and the user handheld end receives the video request;

the adopted information is used for classifying the information and can be adopted or not adopted;

reporting the information which cannot be processed at the current level, displaying the information in a user management system of a superior unit, and processing the information by the superior unit;

and checking weather and calling a real-time weather interface to obtain the latest weather data around the place where the information occurs, so that the situation analysis of the information site is facilitated.

The unmanned aerial vehicle monitoring module adds unmanned aerial vehicle equipment and sets up the unique identification code of unmanned aerial vehicle in the system, sends out unmanned aerial vehicle when the condition takes place and scouts the control around it, and unmanned aerial vehicle transmits on-the-spot audio and video data to the server, and unit user management system acquires its audio and video data and demonstrates on the interface.

The terminal information reporting function is used for reporting information including videos, pictures and texts to a management system of a subordinate unit.

Organization command module in system

The module comprises terrain analysis, search periphery and task issuing, and the specific scheme is as follows:

the terrain analysis can utilize a holographic geographic information technology, and can be combined with line-drawing maps, relief maps, image maps and other types of maps to label, measure distance, measure surface, center cross, section measurement and other operations on the periphery of information, so that the optimal configuration and deployment of force resources are realized on a visual three-dimensional map platform, and a more flexible, accurate and efficient action scheme is made.

The distribution of team members, equipment and other potential data within a certain range around the place where the peripheral retrieval information is generated is searched. And performing batch frame selection on the map by using map frame selection, issuing tasks on the map by using the batch frame selection, sending task information and task geographic positions to user mobile phone terminals of all target persons, and receiving task receiving feedback information of the user mobile phone terminals.

The system constructs an emergency combat force command management system which integrates potential, marshalling, management, information, command, education, training and guarantee. The technical problems that potential resources are difficult to master, soldier marshalling is difficult to implement, information is difficult to collect, information reports are not timely and accurate, command and control are difficult to accurate, difficult organizations are quickly mobilized, and blind areas exist in communication guarantee are solved.

Further, the system also comprises a learning education module and a business training module;

the learning education module is used for organizing team members to carry out political and ideological education courses, examinations and the like, the course creation, the examinations and the like can be carried out through the unit user management system, the courses, the examinations and the like are synchronously displayed in the user mobile phone terminal, and the team members can learn, browse, interact and participate in the education course through the user mobile phone terminal. The unit user management system acquires the data of the user mobile phone terminal for statistical analysis, and can master the participation and learning implementation conditions of each team member.

The business training module comprises functions of plan attendance checking, subsidy issuing and the like, the plan attendance checking function creates a training plan through the unit user management system, training plan data are synchronized to the user mobile phone terminal, team members participate in attendance checking and punch cards for registration, and the unit user management system acquires attendance data of each person of the mobile phone terminal to perform report statistics. The subsidy issuing function is used for screening by time periods or training batches, setting daily subsidy amount and creating subsidy issuing, the system automatically combines training attendance according to personnel and calculates the amount of subsidy to be issued, a subsidy issuing detail table and a bank subsidy table are generated, and a user can export the subsidy to be issued directly. After the issuing is finished, the issuing result generated by the bank is imported into the system, and the implementation condition of subsidy issuing can be checked.

Although only the preferred embodiments of the present invention have been described in detail, the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art, and all changes are encompassed in the scope of the present invention.

Claims (10)

1. A command management method based on emergency force is characterized in that: potential data are acquired in various modes, the acquired potential data are verified, and the verified data are submitted to a big data platform for cleaning and processing; carrying out marshalling management on the screened potential data; and commanding and controlling the personnel in the grouping management according to the uploaded information.

2. The command management method based on emergency force according to claim 1, wherein: when potential data are collected, the potential data are loaded into a memory of a Driver end by using a BitMap algorithm, and broadcasting and updating are performed on each Work node by using a broadcasting variable, so that the consistency of the broadcasting variable on each Work node is ensured;

when data is inserted, the data is simultaneously dropped into HBase, and fields needing to be deduplicated are loaded into a special table by using a coprocessor of the HBase.

3. The command management method based on emergency force according to claim 1, wherein: when in marshalling management, a force system is constructed according to the membership, the organization formation, the personnel basic information and the latest geographical position of the affiliated squad can be inquired in real time, and the on-duty and personnel distribution conditions of the affiliated force personnel can be mastered.

4. The command management method based on emergency force according to claim 1, wherein: the uploaded information is reported to a management system of the affiliated unit, and the positioning information is also reported to the management system; displaying the information in a directory tree in a classified manner according to the information state, acquiring information positioning information and displaying the information positioning information on a map;

reporting the information which cannot be processed at the current level, displaying the information in a user management system of a superior unit, and processing the information by the superior unit;

the latest meteorological data around the place where the information occurs is obtained, and the situation analysis of the information site is facilitated;

when the situation occurs, the unmanned aerial vehicle is dispatched to monitor the surrounding area, the unmanned aerial vehicle transmits the field audio and video data to the server, and the unit user management system acquires the audio and video data and displays the audio and video data on an interface.

5. The command management method based on emergency force according to claim 4, wherein: when the information is reported through a mobile phone user terminal, picture information needs to be reported, an image-picker Android selection library is used, Kotlin is used for rewriting, the camera function can work normally by using new grammatical characteristics and algorithms, and the camera function is separated from the selected page, so that the function of the selected page is more independent.

6. The command management method based on emergency force according to claim 1, wherein: when in command and control, the holographic geographic information technology is utilized, and line drawing, relief map and image map type maps are combined to mark, measure distance, measure surface, center cross and section measurement calculation on the periphery of the information, so that the optimal configuration and deployment of force resources are realized on a visual three-dimensional map platform;

the method comprises the following steps of (1) calling team members, equipment and other potential data distribution conditions within a certain range around an information generation place; and performing batch frame selection on the map by using map frame selection, issuing tasks on the map by using the batch frame selection, sending task information and task geographic positions to user terminals of all target persons, and receiving task receiving feedback information of the user terminals.

7. The command management method based on emergency force according to claim 6, wherein: the task issuing pushes a task message to the user handheld terminal through an extensible communication and presentation protocol Xmapp, so that the user handheld terminal is kept in contact with a background; the tasks are issued in a map frame selection mode by adopting a proximity principle;

when high concurrency information exists between a system and a user, one IOCP object is associated with a plurality of sockets and/or file control ends in an operating system; the IOCP object is internally provided with a first-in first-out queue which is used for storing service request completion messages of the input end and the output end which are related to the IOCP;

the process requesting the input output service does not receive the IO service completion notification, but checks the message queue of the IOCP to determine the status of the IO request; the multiple threads are responsible for taking the completion notification from the IOCP message queue and performing data processing; if there is no message in the queue, the thread blocks suspension on the queue;

the IOCP server is managed by a C/C + + writing client Web end and a server Socket thread pool, and manages the Socket of the client; the server side performs transfer service to decode the WebSocket protocol of the Web side and take the decoded WebSocket protocol to the data sent by the client side, and after the processing of the data is completed by the server side, the server side informs the client side of converting the WebSocket protocol into a WebSocket protocol and sending a message to the client side for notification.

8. The emergency force-based command management method according to claim 1, wherein the potential data is collected by at least one of the following methods: the method comprises the following steps of intelligently inputting a system, collecting a web crawler, leading in government affairs or data of a third-party platform, and collecting by a handheld terminal;

when the system is intelligently recorded: after data are submitted in a queuing mode, the system sends the data to the servers, the servers carry out one-to-one deployment, the data submitted by different users are processed by the different servers, meanwhile, the user success result is returned, and the current queue condition and the import progress are prompted;

when the web crawler is collected: capturing various publicly published potential resource data from each website, cleaning and removing the data from various sources, fusing the acquired data with the existing data, continuously perfecting and supplementing a potential basic database, and synchronizing structured and unstructured data and streaming data by adopting various advanced technical components to ensure the acquisition quality of data acquisition;

when data of government affairs or third party platforms are imported: integrating different government affair systems and different types of data, and adopting an ETL tool to realize the extraction of the total amount and increment of each type of data of the database and the operations of cleaning, desensitization, conversion, verification and combination;

when the handheld terminal collects: in the process of inputting the personal information, the system performs uniqueness processing on the user, and ensures that the user can only input and update information under one identification number.

9. A command management system based on emergency force is characterized in that: the system comprises a data resource module, a registration marshalling module, an information reporting module and an organization command module;

the data resource module is used for carrying out input, modification, query and deletion management on the provided data;

batch marshalling, team management and team member management are carried out through the registration marshalling module;

the information state is displayed in a directory tree in a classified mode through an information reporting module, information positioning information is obtained and displayed on a map;

analyzing the terrain through an organization command module, and calling team members, equipment and other potential data distribution conditions within a certain range around an information generating place; and (4) performing batch frame selection on the map by using the map frame selection, and issuing the tasks on the map by using the batch frame selection.

10. The emergency strength-based command management system of claim 9, wherein: the system also comprises a learning education module and a business training module; the study education module organizes team members to carry out political and ideological education courses and examinations and the service training module carries out plan attendance and subsidy distribution.

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