CN114529270A

CN114529270A - Enterprise mobilization condition analysis method of large-screen-end simulation system

Info

Publication number: CN114529270A
Application number: CN202210432792.4A
Authority: CN
Inventors: 田林涛; 陆平; 严真旭; 张峰; 张斌; 廖大中; 赵亿锌; 张春宇
Original assignee: National Defense Science And Technology Industry Bureau Military Project Review Center; China Academy of Information and Communications Technology CAICT
Current assignee: National Defense Science And Technology Industry Bureau Military Project Review Center; China Academy of Information and Communications Technology CAICT
Priority date: 2022-04-24
Filing date: 2022-04-24
Publication date: 2022-05-24

Abstract

The invention discloses an enterprise mobilization condition analysis method of a large-screen-end simulation system, which is used for a computer device or a communication internet platform consisting of the computer device and comprises the following steps: a cloud server; an information acquisition server; the data processing and analyzing server is used for analyzing and processing the preprocessed data to obtain decision data; a cloud server terminal; a regional server; an associated unit port; department user terminals. According to the intelligent interactive communication system, the point-to-point and point-to-surface remote accurate management and mobile management are realized and intelligent information communication is carried out between an enterprise and a related unit without time and area limitation through the plurality of cloud servers, the information acquisition server, the data processing and analyzing server, the regional server, the related unit port and the department user port, the intelligent interactive communication between the enterprise and the related unit is realized, the communication is timely, quick and effective, and the working efficiency of the enterprise for processing emergencies is improved.

Description

Enterprise mobilization condition analysis method of large-screen-end simulation system

Technical Field

The invention relates to the technical field of enterprise management analysis, in particular to an enterprise mobilization condition analysis method of a large-screen-end simulation system.

Background

The internal control and management information of an enterprise is an important component in enterprise development, and whether the information communication is smooth or not can greatly influence the operation and efficiency of the enterprise. Under the environment of rapid development of computer and network technologies, the management and control problems of various information of enterprises are more prominent, in the systematic operation process of enterprises, emergencies can be encountered, various complicated information in the emergencies needs to be filed and processed, information instructions are transmitted through a large amount of paper files in the prior art, great inconvenience is brought to staff, and query and retrieval are difficult, so that the enterprise information management system needs to manage the information by using computer hardware, software, network communication equipment and other office equipment, and the enterprise benefit and efficiency are improved.

Therefore, an enterprise mobilization condition analysis method of the large-screen-end simulation system is provided.

Disclosure of Invention

The invention aims to provide an enterprise mobilization condition analysis method of a large-screen-end simulation system, which aims to solve the problems that great inconvenience is brought to staff and query and retrieval are difficult due to the fact that information instructions are transmitted through a large number of paper files in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: an enterprise mobilization condition analysis method of a large-screen-end simulation system is used for a computer device or a communication internet platform consisting of the computer device, and comprises the following steps: the cloud server is used for information management of the enterprise headquarters; the information acquisition server is used for acquiring the type of the emergency, confirming the corresponding emergency disposal means and synchronously uploading the type of the emergency and the disposal means to the cloud server; the data processing and analyzing server is used for analyzing and processing the preprocessed data to obtain decision data and feeding the decision data back to the cloud server; the cloud server terminal is used for executing business operation according to the decision data; the regional server is connected with the cloud server and is a server which is set in each regional branch company or branch by an application enterprise headquarter; the association unit port is connected with the regional server and used for providing information communication and interaction for enterprise association units by the enterprise headquarters; and the department user side is connected with the regional server, and the enterprise headquarters provides branch company data information to the regional server through the cloud server and performs information interaction, information release and management application with the branch company.

Preferably, the emergency treatment means comprises means for treating by using common materials or equipment, and a professional unit and a professional device which need to intervene in the treatment of the dangerous case according to the type of the distress.

Preferably, the determining the burst type according to the burst information specifically includes: the supplier cannot normally supply the distress data information, the enterprise staff cannot normally work due to the distress data information, and the customer cannot normally supply the distress data information due to the distress data information; the distress data information comprises distress position according to the environmental information, abnormal temperature, humidity, air pressure, fire, toxic substance concentration and other distress condition data information, and distress types are confirmed according to the distress information and the environmental information.

Preferably, the preprocessing includes at least one of a verification process, a filtering process, an integration process, a type conversion process, a discretization process, a reduction process, and a format conversion process.

Preferably, the decision data includes: the data processing and analyzing server is used for performing at least one analysis processing of data management, data analysis, data mining and model calculation on the preprocessed data to obtain the decision data; the data management comprises at least one of authority, role and service management on the preprocessed data; the data analysis comprises at least one of descriptive analysis, correlation analysis, regression analysis, cluster analysis and principal component analysis of the preprocessed data; the data mining is to generate new data according to the preprocessed data simulation; the model calculation is used for establishing a mathematical model and calculating the preprocessed data according to the mathematical model to obtain the decision data.

Preferably, the area server is used for transmitting a cloud server instruction and returning information or an instruction to the cloud server, and is matched with the cloud server to complete military enterprise process information management.

Preferably, the department port is a digital device, can adopt a customized product or a mobile phone for connection, and has intelligent application functions of automatic information retrieval, automatic data statistics and transaction payment.

Preferably, the method for identifying the professional units and the professional equipment which need to intervene in dangerous case treatment according to the distress types comprises the following steps: according to the distress information, the need of professional intervention, including public safety personnel such as firemen, armed police and doctors, is confirmed; according to the types of distress, units needing intervention are confirmed, wherein the units comprise public safety departments such as fire departments, public security, armed police teams, medical institutions and the like; and confirming the professional equipment needing to be prepared according to the distress type and the distress information.

Preferably, the emergency monitoring system further comprises an information display module, wherein the information display module is used for displaying the information of work arrangement, work plan, work progress and personnel mobilization corresponding to the current emergency one to one in real time.

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

1. according to the intelligent interactive communication system, the point-to-point and point-to-surface remote accurate management and mobile management and intelligent information communication between the enterprise and the associated unit are realized through the plurality of cloud servers, the information acquisition server, the data processing and analyzing server, the regional server, the associated unit port and the department user port, the intelligent interactive communication between the enterprise and the associated unit without the limitation of time and region is realized, the communication is timely, quick and effective, and the working efficiency of the enterprise for processing emergencies is improved;

2. the invention determines a correct disposal means aiming at the collected emergency information of the emergency type and the emergency caused by the emergency through the matching use of the information acquisition server and the data processing and analyzing service, and feeds back the correct disposal means to the enterprise headquarters in time, gives out approximate reasonable measures through the enterprise headquarters, sends the measures to the corresponding branch companies or the relevant units, and simultaneously guides the corresponding public safety departments to access, thereby making reasonable decisions in the first time, saving the rescue time and providing a reasonable scheme.

Drawings

FIG. 1 is a block diagram illustrating the flow of an enterprise emergency event in accordance with the present invention;

FIG. 2 is a flow chart of the emergency handling of the present invention;

FIG. 3 is a flowchart of the processing of embodiment 1 of the emergency event of the present invention;

FIG. 4 is a flowchart of the processing of embodiment 2 of the present invention;

fig. 5 is a flowchart of the processing of the emergency embodiment 3 of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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.

Referring to fig. 1 to 5, the present invention provides a technical solution of an enterprise mobilization condition analysis method of a large-screen simulation system: an enterprise mobilization condition analysis method of a large-screen-end simulation system is used for a computer device or a communication internet platform consisting of the computer device, and comprises the following steps: the cloud server is used for information management of the enterprise headquarters; the information acquisition server is used for acquiring the type of the emergency, confirming the corresponding emergency handling means and synchronously uploading the type of the emergency and the handling means to the cloud server; the data processing and analyzing server is used for analyzing and processing the preprocessed data to obtain decision data and feeding the decision data back to the cloud server; the cloud server terminal is used for executing business operation according to the decision data; the regional server is connected with the cloud server and is a server which is set in each regional branch company or branch by an application enterprise headquarter; the association unit port is connected with the regional server and used for providing information communication and interaction for enterprise association units by the enterprise headquarters; and the department user side is connected with the regional server, and the enterprise headquarters provides branch company data information to the regional server through the cloud server and performs information interaction, information release and management application with the branch company.

The central server: the system is a central management server of an application enterprise headquarters and is used for information management (release and deletion) of a group; the regional server is a server which is established in each regional division company (or division) by the headquarters of the application enterprise, is used for transmitting a port instruction of the central server and returning information or instructions of a relevant unit port or department port, and is matched with the central server to complete management (release and delete) of business information;

the department user side is a digital device which is provided for different departments of a company by a branch company, presents a collective video conference of a branch company responsible person and each department leader responsible person through a video screen, performs point-to-point information interaction, information publishing and management application between a headquarter and the branch company responsible person and between a headquarter and each department responsible person of the branch company, and has multiple intelligent application functions of automatic information retrieval, automatic data statistics, transaction payment and the like;

an associated unit port: the invention relates to an enterprise mobilization condition analysis method of a member, which can be an intelligent remote management system customized for enterprises and business units and comprises intelligent management, information, communication and interaction platforms of video conferences and enterprise management (including purchasing, research and development, production, finance, business, warehouses, logistics and service).

Intelligent remote accurate: point-to-point and point-to-surface remote intelligent system management (such as headquarter and branch responsible person, headquarter and branch company, high management and high management, branch company and staff, etc.); intelligent movement: the mobile equipment or the mobile phone is connected with a system to complete mobile intelligent office (including information transmission, information retrieval, mobile video conference, work instant report, file processing, document processing and the like); intelligent information exchange: the enterprises and the associated units realize intelligent interactive communication (festival, celebration, important information release, enterprise dynamics and the like) which is not limited by time and regions; intelligent business activities: enterprises, business units, business personnel and clients can realize intelligent communication and exchange (supply, demand and video) without time and area limitation; and information transfer, communication; data is automatically retrieved and analyzed.

Embodiment 1 as shown in fig. 1, 2 and 3, an information acquisition server acquires data information, confirms an emergency type according to the acquired emergency information, confirms a corresponding emergency handling means, and synchronously uploads the emergency type and the handling means to a cloud server, wherein the emergency type includes a supplier problem type, an enterprise employee problem type and a client problem type, so that common emergency situations are roughly divided into three types, namely, a supplier problem, an enterprise employee problem and a client after-sales problem;

the determining the burst type according to the burst information specifically includes: the supplier cannot normally supply the distress data information, the enterprise staff cannot normally work due to the distress data information, and the customer cannot normally supply the distress data information due to the distress data information; the distress data information comprises distress position according to the environmental information, abnormal temperature, humidity, air pressure, fire, toxic substance concentration and other distress condition data information, and distress types are confirmed according to the distress information and the environmental information.

Solving the aspects and types of the problems according to the reasons and the stereotype of the three emergency problems; if the supplier has a problem, communicating with the supplier in time, determining the influence and degree caused by the problem and the problem of the supplier having an emergency, uploading the data to a data processing and analyzing server, and judging whether the supplier can deliver the goods on time with guaranteed quality or not according to the problems of the existing supplier and the actual situation of an enterprise company through the data processing and analyzing server; if the staff has problems, the staff communicates with the staff in time, the influence and degree caused by the problems and the sudden problem situation of the enterprise company caused by the reasonable or operation of the staff are determined, the data are uploaded to a data processing and analyzing server, and the problem is solved according to the influence and degree caused by the existing problems and by combining the actual situation of the enterprise company through the data processing and analyzing server.

If the customer has a problem after sale, the customer is communicated with the customer in time to determine the reason of the problem after sale, influence on the problem caused by the customer and the influence degree, the data is uploaded to a data processing and analyzing server, and how to solve the problem is judged and changed by the data processing and analyzing server according to the influence and the degree caused by the existing problem and the actual situation of an enterprise company, and meanwhile, the data is sent to each branch company in time to pay attention to the problem.

The emergency disposal means comprises means for disposing by using common materials or equipment, including timely reporting to a boss and a regional server through a department user terminal, and professional units and professional equipment which need to intervene in dangerous case disposal according to the types of distress.

The preprocessing includes at least one of verification processing, filtering processing, integration processing, type conversion, discretization processing, reduction processing, and format conversion.

The verification processing means that after the information acquisition server acquires various types of data through various channels, the authenticity and timeliness of the data can be further verified through mutual comparison, so that the information acquisition server can finally acquire real and effective potential information; the filtering processing refers to that the information acquisition server screens various types of data acquired through various channels and eliminates redundant information or useless information; the integrated processing means that the information acquisition server encapsulates various acquired data into a data set or a data packet in one format or one type; type conversion, discretization processing, reduction processing and format conversion into a conventional processing method for data.

The decision data comprises: the data processing and analyzing server is used for performing at least one analysis processing of data management, data analysis, data mining and model calculation on the preprocessed data to obtain the decision data; the data management comprises at least one of authority, role and service management on the preprocessed data; the data analysis comprises at least one of descriptive analysis, correlation analysis, regression analysis, cluster analysis and principal component analysis of the preprocessed data; the data mining is to generate new data according to the preprocessed data simulation; the model calculation is used for establishing a mathematical model and calculating the preprocessed data according to the mathematical model to obtain the decision data.

The analysis processing may specifically be analysis calculation of the preprocessed data; optionally, the preprocessed data may be managed and maintained; optionally, the preprocessed data may be screened and mined; optionally, the preprocessed data may be stored and recorded; optionally, the preprocessed data may be displayed; optionally, the preprocessed data may be modified and improved; alternatively, the preprocessed data may be distributed by different applications.

In this embodiment, the preprocessed data may be analyzed by using the at least one analysis processing method, and no matter which analysis processing method is used, decision data may be obtained and uploaded to the cloud server; in practical application, the data service terminal may also initiate a service request to the data processing and analyzing server, and then the data processing and analyzing server searches for corresponding decision data or other types of data according to the service request, and then sends the searched decision data or other types of data to the cloud server.

The regional server is used for transmitting a cloud server instruction and returning information or an instruction to the cloud server, and is matched with the cloud server to complete military enterprise process information management.

When the system works, the information acquisition service acquires the type of an emergency, the data processing and analysis server is used for analyzing and processing the preprocessed data to obtain decision data and sending the decision data to the cloud service, then an enterprise manager reads the decision data according to the area position of the emergency and the actual condition of a structural enterprise, the decision data is used as a reference to give a specific approximate handling scheme, and the manager transmits the approximate handling scheme to all or corresponding regional servers and associated unit ports through the cloud server, so that point-to-point and point-to-point remote accurate management and mobile management are realized, and intelligent information communication between the enterprise and the associated units is realized.

As an embodiment of the present invention, as shown in fig. 1, the department port is a digital device, can be connected by a customized product or a mobile phone, and has an intelligent application function of automatic information retrieval, automatic data statistics, and transaction payment.

Embodiment 2, as shown in fig. 4, the method for identifying a professional unit and a professional device that need to intervene in dangerous case treatment according to the kind of the danger specifically includes: according to the distress information, the need of professional intervention, including public safety personnel such as firemen, armed police and doctors, is confirmed; according to the types of distress, units needing intervention are confirmed, wherein the units comprise public safety departments such as fire departments, public security, armed police teams, medical institutions and the like; confirming professional equipment needing to be prepared according to the distress type and the distress information; the method can confirm the on-site emergency disposal means according to the distress type, and can comprehensively acquire the current distress environment through collecting the environment information. The treatment method relying on manual experience gives the current right treatment means, thereby ensuring that the proper emergency treatment is performed on site within the optimal treatment time, and simultaneously providing sufficient support for the intervention of the professional, firstly, the mechanism suitable for the intervention is confirmed within the first time, and secondly, the mechanism accurately notifies the situation for the intervention.

As an embodiment of the present invention, as shown in fig. 4, the present invention further includes an information display module, where the information display module is configured to display information of work arrangement, work plan, work progress and personnel mobilization corresponding to the current emergency one to one in real time.

During operation, a headquarter manager, a branch company responsible person, an associated unit, an associated enterprise and a corresponding department responsible person can respectively and correspondingly use the cloud server terminal, the area server, the associated unit port and the department user side to access the cloud server in time, and the cloud server can know the specific processing flow, the processing efficiency and the processing result of the emergency in real time, namely know the information of work arrangement, work plan, work progress and personnel movement correspondingly formulated by the enterprise aiming at the emergency in time.

Example 3: referring to fig. 5, a method for analyzing an enterprise mobilization condition of a large-screen simulation system specifically includes the following steps:

s1, building a communication internet platform based on a plurality of department user terminals, a plurality of area servers, a plurality of associated unit ports, a cloud server, an information acquisition server and a data processing and analyzing server;

s2, connecting a plurality of information acquisition servers to the Internet, including but not limited to wireless communication, domestic Internet and foreign Internet;

s3, determining the type of the emergency event through a data processing and analyzing server based on the acquired information data, and making a corresponding emergency processing scheme and decision data and uploading the emergency processing scheme and decision data to a cloud server;

and S4, giving a processing suggestion by the manager based on the emergency processing scheme and the decision data, and sending the processing suggestion to the regional server.

Wherein step S3 specifically includes:

s31, collecting geographical location information, environment information and distress information including but not limited to suppliers, employees and customers based on the information acquisition server;

s32, determining distress classification according to the environmental information; if the supplier has a problem, communicating with the supplier in time, and determining the influence and degree caused by the problem and the problem when the supplier has an emergency; if the staff has problems, the staff communicates with the staff in time to determine that the staff is reasonable or operates to cause the enterprise company to generate an emergency problem condition, and influence and degree caused by the problems and the problems; if the customer has a problem after sale, communicating with the customer in time to determine the reason of the problem after sale, and influence degree on the problem caused by the customer;

s33, collecting distress information; the system collects distress information of people, specifically collects basic body characteristic parameters of human body such as blood pressure, oxyhemoglobin saturation, heartbeat and the like through basic medical instruments, and assists in manually inputting the distress information, including specific trauma positions and types of generated adverse reactions; manual input comprises manual input, keywords are intercepted by the system in a conventional retrieval mode, or manual input is guided in a chart and option mode;

s34, determining the distress type;

s35, confirming that professional intervention is needed according to the distress information;

s36, confirming the units needing intervention according to the distress types;

and S37, confirming the professional equipment needing to be prepared according to the distress type and the distress information.

The method comprises the steps that firstly, an information acquisition server is used for acquiring the type of an emergency, confirming a corresponding emergency handling means, synchronously uploading the type of the emergency and the handling means to a cloud server, and manually uploading information data of the emergency to the cloud server when the emergency happens probably; after various types of data are acquired through various channels, the specific data acquisition server firstly performs repeated filtering processing on a large amount of data, and then can further realize verification of authenticity and effectiveness of the data through mutual comparison, so that the information acquisition server can finally acquire real and effective potential information, and then performs centralized processing on the screened data; the filtering processing refers to that the information acquisition server screens various types of data acquired through various channels and eliminates redundant information or useless information; the integrated processing means that the information acquisition server encapsulates various acquired data into a data set or a data packet in one format or one type; the data processing and analyzing server accesses the cloud server and reads data information of the emergency in the cloud server, the data processing and analyzing server is used for analyzing and processing the preprocessed data, and after various channels are read through the constructed network platform to acquire various types of data, the authenticity and timeliness of the data can be further verified through mutual comparison, so that the information acquisition server can finally acquire real and effective potential information; the filtering processing refers to that the information acquisition server screens various types of data acquired through various channels and eliminates redundant information or useless information; the integrated processing means that the information acquisition server encapsulates various acquired data to obtain decision data, and feeds the decision data back to the cloud server; the information acquisition service acquires the type of an emergency, and the data processing and analysis server is used for analyzing and processing the preprocessed data to obtain decision data and sending the decision data to the cloud service, then an enterprise manager reads the decision data simultaneously according to the area position of the emergency and the actual situation of a structural enterprise, gives a specific approximate processing scheme for coping by taking the decision data as a reference, and transmits the approximate processing scheme to all or corresponding regional servers and associated unit ports through the cloud server, so that point-to-point and point-to-surface remote accurate management and mobile management are realized, and intelligent information communication is carried out between the enterprise and the associated units.

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

Claims

1. An enterprise mobilization condition analysis method of a large-screen-end simulation system is used for a computer device or a communication internet platform consisting of computer devices, and is characterized in that: the method comprises the following steps: the cloud server is used for information management of the enterprise headquarters; the information acquisition server is used for acquiring the type of the emergency, confirming the corresponding emergency handling means and synchronously uploading the type of the emergency and the handling means to the cloud server; the data processing and analyzing server is used for analyzing and processing the preprocessed data to obtain decision data and feeding the decision data back to the cloud server; the cloud server terminal is used for executing business operation according to the decision data; the regional server is connected with the cloud server and is a server which is set in each regional branch company or branch by an application enterprise headquarter; the association unit port is connected with the regional server and is used for providing information communication and interaction for enterprise association units by the enterprise headquarters; and the department user side is connected with the regional server, and the enterprise headquarters provides branch company data information to the regional server through the cloud server and performs information interaction, information release and management application with the branch company.

2. The method for analyzing the enterprise mobilization condition of the large-screen-end simulation system according to claim 1, wherein the method comprises the following steps: the emergency treatment means comprises means for treating by using common materials or equipment, and professional units and professional equipment for intervening dangerous case treatment according to the emergency type.

3. The method for analyzing the enterprise mobilization condition of the large-screen-end simulation system according to claim 1, wherein the method comprises the following steps: the determining the burst type according to the burst information specifically includes: the supplier cannot normally supply the distress data information, the enterprise staff cannot normally work due to the distress data information, and the customer cannot normally supply the distress data information due to the distress data information; the distress data information comprises distress situation data information such as distress positions, abnormal temperature, humidity, air pressure, fire, toxic substance concentration and the like according to the environmental information, and the type of distress is confirmed according to the distress information and the environmental information.

4. The method for analyzing the enterprise mobilization condition of the large-screen-end simulation system according to claim 1, wherein the method comprises the following steps: the preprocessing includes at least one of verification processing, filtering processing, integration processing, type conversion, discretization processing, reduction processing, and format conversion.

5. The method for analyzing the enterprise mobilization condition of the large-screen-end simulation system according to claim 1, wherein the method comprises the following steps: the decision data comprises: the data processing and analyzing server is used for performing at least one analysis processing of data management, data analysis, data mining and model calculation on the preprocessed data to obtain the decision data; the data management comprises at least one of authority, role and service management on the preprocessed data; the data analysis comprises at least one of descriptive analysis, correlation analysis, regression analysis, cluster analysis and principal component analysis of the preprocessed data; the data mining is to generate new data according to the preprocessed data simulation; the model calculation is used for establishing a mathematical model and calculating the preprocessed data according to the mathematical model to obtain the decision data.

6. The method for analyzing the enterprise mobilization condition of the large-screen-end simulation system according to claim 1, wherein the method comprises the following steps: the regional server is used for transmitting a cloud server instruction and returning information or an instruction to the cloud server, and is matched with the cloud server to complete military enterprise process information management.

7. The method for analyzing the enterprise mobilization condition of the large-screen-end simulation system according to claim 1, wherein the method comprises the following steps: the department port is a digital device, can be connected by a customized product or a mobile phone, and has intelligent application functions of automatic information retrieval, automatic data statistics and transaction payment.

8. The method for analyzing the enterprise mobilization condition of the large-screen-end simulation system according to claim 2, wherein the method comprises the following steps: according to the distress type, the special unit and the special equipment which need to intervene in the dangerous case treatment are confirmed, and the method specifically comprises the following steps: according to the distress information, the need of professional intervention, including public safety personnel such as firemen, armed police and doctors, is confirmed; according to the types of distress, units needing intervention are confirmed, wherein the units comprise public safety departments such as fire departments, public security, armed police teams, medical institutions and the like; and confirming the professional equipment needing to be prepared according to the distress type and the distress information.

9. The method for analyzing the enterprise mobilization condition of the large-screen-end simulation system according to claim 1, wherein the method comprises the following steps: the system also comprises an information display module, wherein the information display module is used for displaying the information of work arrangement, work plan, work progress and personnel mobilization corresponding to the current emergency one to one in real time.