CN111553664A - Method for realizing intelligent management of design and production of communication equipment based on 5G technology - Google Patents

Abstract

The invention discloses a method for realizing intelligent management of design and production of communication equipment based on a 5G technology, which comprises the following steps: aiming at the design and production of communication equipment, the intelligent management system based on the 5G technology mainly comprises a network basic module, an information management module, a design management module and a production management module; based on the system, each module realizes intelligent supervision of the design process and the production process of the communication equipment and interactive control of the design, the production and the technological process. The method utilizes the 5G intelligent management system, can realize the whole process management and control from design to production of the communication equipment, solves the problems of unclear management order of the design and production process and the bottleneck of large-scale design and production management, and improves the reliability and timeliness of the design and production of the communication equipment.

Description

Method for realizing intelligent management of design and production of communication equipment based on 5G technology

Technical Field

The invention relates to the field of equipment design and production management and control, in particular to a method for realizing the whole process management and control from design to production of communication equipment by using a 5G intelligent management system for supervision in the design and production process of the communication equipment.

Background

With the rapid development of the 5G communication technology, a wireless network with high speed, large capacity and low time delay is brought, and the rapid development of social informatization, networking and intellectualization is further promoted. At present, the design and production management of communication equipment lacks an intelligent mode, an existing management system lacks real-time supervision on the whole design and production flow of the equipment, the incomplete records of the design scheme of the equipment, the design version of software and hardware in the development process of the equipment, zero resetting of test problems and the like are probably caused, the working time input by a worker is not clear, and the timeliness of the design and production of the communication equipment is influenced. Moreover, the existing management system for designing and producing communication equipment is limited by the performance of the network, and cannot carry out real-time and reliable supervision on simultaneous large-scale design and production of various kinds of equipment of an enterprise. It can be seen that the existing systems for designing production management for communication devices have certain drawbacks.

Disclosure of Invention

Technical problem to be solved

Aiming at the problem that the design and production management process of the existing communication equipment is not clear, the invention provides the method for realizing the intelligent management of the design and production of the communication equipment based on the 5G technology, the whole process supervision of the simultaneous design and production of various communication equipment is realized, the problems of unclear management order of the design and production process and the bottleneck of large-scale design and production management are solved, and the reliability and the timeliness of the design and production of the communication equipment are improved.

(II) technical scheme

A method for realizing intelligent management of design and production of communication equipment based on a 5G technology comprises a network basic module, an information management module, a design management module and a production management module, and realizes intelligent supervision of a design process and a production process of the communication equipment and interactive control of the design, production and process processes based on the modules of the system.

The network infrastructure module: the system comprises a 5G server and a firewall, wherein the 5G server processes data information generated by an information management module, a design management module and a production management module to realize data interaction among management system modules, and stores data generated by the information management module, the design management module and the production management module, and the firewall filters illegal users and unsafe service requests according to the authority preset by a manager;

the information management module: the system is used for comprehensive information management and comprises production plan management, material purchasing management, process management, sales management, after-sale management, quality management, manpower management and financial management, wherein a production plan staged version, a material purchasing plan staged version, a process plan and implementation flow, a sales plan and actual sales volume, equipment after-sale maintenance information, equipment quality information, equipment design and production manpower arrangement and capital conditions are imported into the system according to communication equipment design and production time nodes, and system data are stored to a 5G server and used as the basis for equipment design and production completion conditions and risk assessment, so that authorized personnel can check and modify the system;

the design management module: the method is used for management of the design process of the communication equipment, and comprises an equipment scheme, hardware and software design of the equipment, a test condition, problem analysis process management and control, risk pre-control in a design stage, risk avoiding operation, personnel workload and miswork condition, and material and personnel scheduling in the design process, wherein the staged version of the equipment software and hardware scheme, unit test and system test condition are stored in a server, the statistics of the equipment design scheme, test data, actually consumed materials, used manpower and personnel workload are imported into a system, the system compares the data with a preset plan stored in the server, and a warning can be popped up at a system interface when deviation occurs.

The production management module: the system is used for managing the production process of communication equipment, and comprises equipment quality management and control, workshop environment monitoring and production risk assessment, the production process of the equipment is supervised according to a production plan in an information management module, a production workshop monitors the working environment of the workshop through a camera and a temperature and humidity sensor, once the workshop environment is abnormal, the system can sound an alarm and pop out a prompt at an interface, the equipment quality condition is led into the system in a staged mode, the system intelligently compares product quality information with data in the production plan, and a warning can be popped out at the system interface when deviation occurs.

The specific supervision steps are as follows:

step A: the whole design scheme, the process scheme, the production plan, the manpower and material information of the equipment are stored in a 5G server through a management system;

and B: the staged software and hardware scheme and the process scheme of the equipment are stored in the 5G server through the management system;

and C: leading test reports of all units of the equipment into a system, extracting test result data by a design management module, comparing the test result data with theoretical data of an integral scheme in a server, judging whether the test result data is qualified or not, entering a step D if the test result data is qualified, and entering a step E if the test result data is unqualified;

step D: the test report of the whole equipment is imported into the system, the design management module extracts the test result data and compares the test result data with the theoretical data of the whole scheme in the server to judge whether the test result data is qualified or not, the step F is carried out if the test result data is qualified, and the step E is carried out if the test result data is unqualified;

step E: the design management module matches and displays the last submitted scheme version related to the problem data according to the test problem data, and the project personnel re-modifies the software and hardware design and then re-tests the software and hardware design, and then the step C is carried out;

step F: the temperature and humidity data of a workshop in the equipment production stage are imported into a management system in real time through a 5G network;

step G: the production management module compares the real-time temperature and humidity monitored by the workshop with standard data in a production plan in the server, and enters step H if the real-time temperature and humidity are qualified, and enters step I if the real-time temperature and humidity are unqualified;

step H: importing the quality detection data in the production process stage into a management system through a 5G network, and entering the step J;

step I: the management system initiates an instruction through a 5G network, alarms are sounded between vehicles within 1ms, prompt information is popped up on an interface of the management system at the same time, and the step H is carried out;

step J: the production management module extracts detection data in the quality report of the production process stage and compares the detection data with standard data in quality management, if the detection data is qualified and the quality is detected in the last stage of production, the step K is carried out, if the detection data is qualified and the quality is not detected in the last stage of production, the step H is carried out, and if the detection data is not qualified, the step L is carried out;

step K: and finishing the production of the equipment.

Step L: c, the information management module displays a software and hardware scheme or a process scheme related to the problem data in a matching manner according to the quality problem data, and the project personnel enter the step C after revising the software and hardware or the process design;

(III) advantageous effects

Compared with the prior art, the method for realizing intelligent management of communication equipment design and production based on the 5G technology has the following beneficial effects:

(1) the intelligent monitoring system utilizes the characteristics of the 5G network, can carry out whole-process management on the simultaneous design and production of various communication devices, and the 5G server can process various information of the management system at a high rate and a low time delay to realize real-time monitoring. The supervision system is intelligent, can compare test, monitoring data and standard data intelligently, starts a processing mechanism according to different problems, and the like, so that the labor and time cost of project management are saved.

(2) The system comprises a network basic module, an information management module, a design management module and a production management module, wherein the network basic module realizes the operation of the management system through a 5G network, the scheme of communication equipment design and production, software and hardware design, test results, process information, material and manpower scheduling information are stored in the information management module and the design management module, the design management module realizes the supervision of equipment design flow, the production management module realizes the supervision of equipment production flow, the information management module realizes the supervision of equipment process, quality, sales, manpower and financial supervision, the functions of the modules are divided into clear, information interaction control is realized, the supervision of the whole process from design to production of the communication equipment is realized together, and the reliability and the timeliness of equipment production are improved.

(3) The design flow of the communication equipment is supervised by the design management module, so that the scheme, software and hardware design, unit and complete machine test results in the design process of the equipment can be checked and traced, the design process of the equipment can be managed and controlled, and the design flow standardization, process clearness and risk controllability are realized.

(4) The production process of the communication equipment is supervised by the production management module, so that the production environment can be monitored, the product quality can be supervised, and the production risk can be avoided in the production process of the equipment.

Drawings

FIG. 1 is a system architecture diagram for implementing intelligent management of communication device design and production based on 5G technology;

fig. 2 is a flow chart of design and production supervision of the device W by the intelligent management system.

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, the embodiment provides a method for implementing intelligent management of design and production of communication equipment based on a 5G technology, including a network basic module, an information management module, a design management module, and a production management module, and taking a design and production process of a certain communication equipment W as an example, the following is specifically described:

the network basic module is used for information interaction, data processing and network security maintenance in the design and production process of the equipment W, and uses a 5G network to transmit data, a 5G server to store the data and a firewall to isolate illegal users without operation permission on the equipment W;

the information management module is used for integrated information management in the design and production process of the equipment W, and comprises production plan management, material purchasing management, process management, sales management, after-sales management, quality management, manpower management and financial management, wherein the production plan staged version, the material purchasing plan staged version, the process plan and implementation flow, the sales plan and actual sales volume, the after-sales maintenance information, the quality information, the design and production manpower arrangement and the capital situation of the equipment W are imported into the system and stored in the 5G server according to the design and production time node of the equipment W and serve as the basis for the design and production completion situation and the risk assessment of the equipment W;

the design management module is used for managing the design process of the communication equipment W, and comprises an equipment scheme, software and hardware design, test conditions, problem analysis process management and control, design stage risk pre-control, risk avoiding operation, personnel workload and malworking conditions, and material and personnel scheduling in the equipment design process, and is used as a basis for judging whether the performance index of the equipment W is qualified or not and whether the risk in the design stage is controllable or not;

the production management module is used for managing the production process of the communication equipment W, comprises workshop environment monitoring, quality control and risk assessment, intelligently compares workshop conditions and stage quality monitoring data of the production of the equipment W through a workshop camera and a temperature and humidity sensor, and can judge the risk of the production process according to the workshop conditions and the quality comparison;

referring to fig. 2, the specific steps of the supervision of the whole design and production process of the communication device W are as follows:

step 201: the overall design scheme, the process scheme and the production plan of the equipment W, and related manpower and material information are stored in a 5G server through a management system;

step 202: the staged software and hardware scheme and the process scheme of the equipment W are stored in the 5G server through the management system;

step 203: leading test reports of all units of the equipment W into the system, extracting test result data by a design management module, comparing the test result data with theoretical data of the whole scheme of the equipment W in the server, judging whether the test result data is qualified or not, entering a step 204 if the test result data is qualified, and entering a step 205 if the test result data is not qualified;

step 204: the whole machine test report of the equipment W is imported into the system, the design management module extracts the test result data and compares the test result data with the theoretical data of the whole scheme of the equipment W in the server to judge whether the test result data is qualified or not, the step 206 is carried out if the test result data is qualified, and the step 205 is carried out if the test result data is unqualified;

step 205: the design management module matches and displays the finally submitted software or hardware scheme version related to the problem data according to the test problem data of the equipment W, and the project personnel re-modifies the software and hardware design and then re-tests the software and hardware design, and then the step 203 is carried out;

step 206: the temperature and humidity data of a workshop in the production stage of the equipment W are imported into a management system in real time through a 5G network;

step 207: the production management module compares the real-time temperature and humidity monitored by the workshop with standard data in a production plan of equipment W in the server, and if the real-time temperature and humidity are qualified, the step 208 is carried out, and if the real-time temperature and humidity are not qualified, the step 209 is carried out;

step 208: importing the quality detection data of the equipment W in the production process stage into a management system through a 5G network, and entering step 210;

step 209: the management system initiates an instruction through a 5G network, sounds an alarm in the workshop within 1ms, pops up prompt information on an interface of the management system at the same time, and enters step 208;

step 210: the production management module extracts detection data in the quality report of the production process stage and compares the detection data with standard data of the equipment W in quality management, if the detection data is qualified and is the quality detection of the final production stage, the step 211 is executed, if the detection data is qualified and is not the quality detection of the final production stage, the step 208 is executed, and if the detection data is not qualified, the step 212 is executed;

step 211: the production of the apparatus W is ended.

Step 212: the information management module matches and displays a software and hardware scheme or a process scheme related to the problem data of the equipment W according to the quality problem data of the equipment W, and the project personnel enter step 203 after revising the software and hardware or the process design;

in summary, the above description is only a preferred example of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. A method for realizing intelligent management of communication equipment design and production based on 5G technology is characterized in that the system comprises a network basic module, an information management module, a design management module and a production management module, and intelligent supervision of the communication equipment design process, intelligent supervision of the production process and interactive control of the design, production and process processes are realized based on the modules of the system, wherein,

the network infrastructure module: the system comprises a 5G server and a firewall, wherein the 5G server processes data information generated by an information management module, a design management module and a production management module to realize data interaction among management system modules, and stores data generated by the information management module, the design management module and the production management module, and the firewall filters illegal users and unsafe service requests according to the authority preset by a manager;

the information management module: the system is used for comprehensive information management and comprises production plan management, material purchasing management, process management, sales management, after-sale management, quality management, manpower management and financial management, wherein a production plan staged version, a material purchasing plan staged version, a process plan and implementation flow, a sales plan and actual sales volume, equipment after-sale maintenance information, equipment quality information, equipment design and production manpower arrangement and capital conditions are imported into the system according to communication equipment design and production time nodes, and system data are stored to a 5G server and used as the basis for equipment design and production completion conditions and risk assessment, so that authorized personnel can check and modify the system;

the design management module: the system is used for management of a communication equipment design process, and comprises an equipment scheme, hardware and software design of equipment, a test condition, problem analysis process management and control, risk pre-control in a design stage, risk avoiding operation, personnel workload and miswork condition, and material and personnel scheduling in the design process, wherein the equipment software and hardware scheme staged version, unit test and system test condition are stored in a server, the equipment design scheme, test data, actually consumed material, used manpower and personnel workload statistics are imported into the system, the system compares the data with a preset plan stored in the server, and a warning can be popped up in a system interface when deviation occurs;

the production management module: the system is used for managing the production process of communication equipment, and comprises equipment quality management and control, workshop environment monitoring and production risk assessment, the production process of the equipment is supervised according to a production plan in an information management module, a production workshop monitors the working environment of the workshop through a camera and a temperature and humidity sensor, once the workshop environment is abnormal, the system sounds an alarm and pops up a prompt on an interface, the equipment quality condition is led into the system in a staged manner, the system intelligently compares product quality information with data in the production plan, and a warning is popped up on the system interface when deviation occurs;

the specific supervision steps are as follows:

step 1.1: the whole design scheme, the process scheme, the production plan, the manpower and material information of the equipment are stored in a 5G server through a management system;

step 1.2: the staged software and hardware scheme and the process scheme of the equipment are stored in the 5G server through the management system;

step 1.3: leading test reports of all units of the equipment into a system, extracting test result data by a design management module, comparing the test result data with theoretical data of an integral scheme in a server, judging whether the test result data is qualified or not, entering a step 1.4 if the test result data is qualified, and entering a step 1.5 if the test result data is not qualified;

step 1.4: the test report of the whole equipment is imported into the system, the design management module extracts the test result data and compares the test result data with the theoretical data of the whole scheme in the server to judge whether the test result data is qualified or not, the step 1.6 is carried out when the test result data is qualified, and the step 1.5 is carried out when the test result data is unqualified;

step 1.5: the design management module matches and displays the last submitted scheme version related to the problem data according to the test problem data, and the project personnel re-modifies the software and hardware design and then re-tests the software and hardware design, and then the step 1.3 is carried out;

step 1.6: the temperature and humidity data of a workshop in the equipment production stage are imported into a management system in real time through a 5G network;

step 1.7: the production management module compares the real-time temperature and humidity monitored by the workshop with standard data in a production plan in the server, and if the real-time temperature and humidity are qualified, the step 1.8 is carried out, and if the real-time temperature and humidity are not qualified, the step 1.9 is carried out;

step 1.8: importing the quality detection data in the production process stage into a management system through a 5G network, and entering the step 1.10;

step 1.9: the management system initiates an instruction through a 5G network, alarms are sounded in the workshop within 1ms, prompt information is popped up on an interface of the management system at the same time, and the step 1.8 is carried out;

step 1.10: the production management module extracts detection data in the quality report of the production process stage and compares the detection data with standard data in quality management, if the detection data is qualified and the quality detection is the last stage of production, the step 1.11 is carried out, if the detection data is qualified and the quality detection is not the last stage of production, the step 1.8 is carried out, and if the detection data is not qualified, the step 1.12 is carried out;

step 1.11: finishing the production of the equipment;

step 1.12: and (3) the information management module displays the software and hardware scheme or the process scheme related to the problem data in a matching way according to the quality problem data, and the project personnel enters the step 1.3 after revising the software and hardware or the process design.

2. The method for realizing intelligent management of design and production of communication equipment based on the 5G technology as claimed in claim 1, wherein the system realizes intelligent supervision of the design process of the communication equipment, equipment schemes are imported into the system according to a time sequence and automatically named by the time of the imported system, and the equipment scheme with the latest import time is used as a standard scheme for theoretical comparison basis of software and hardware design and test at the later stage of the equipment; importing each stage scheme of the software and hardware design into a system to serve as a comparison reference after the software and hardware scheme is possibly modified at the later stage; the test result of the equipment unit and the test result of the whole machine are imported into the system, the design management module starts an intelligent comparison program, the actual test result is compared with the theoretical result in the standard scheme, and if the test data and the theoretical data have deviation, a warning is popped up on the interface of the system; in the initial stage of equipment design and production, the system sets a risk coefficient evaluation value in the equipment design stage, carries out risk evaluation according to software and hardware design modification, material and manpower scheduling intelligence in the equipment design process, opens a management system each time to enter an equipment design supervision interface, and automatically pops up a risk value in the current stage.

3. The method for realizing intelligent management of design and production of communication equipment based on the 5G technology as claimed in claim 1, wherein the system realizes intelligent supervision of production process of communication equipment and interactive control of design, production and process, and specifically comprises: the production workshop monitors the working environment of the workshop through a camera and a temperature and humidity sensor, the system intelligently compares environment monitoring data with a production plan stored in an information management module, and if the monitoring data exceeds the deviation range of the plan data, the system pops up a warning on an interface; after the quality monitoring data in the production process of the product is imported into the system, the system intelligently compares with the production plan in the information management module, and if the quality monitoring data and the quality standard data have deviation, the system pops up a warning on an interface; starting a design management module supervision flow when a design problem occurs, updating the software and hardware design of the equipment, and restarting a production management module production supervision flow after the unit and the complete machine pass the test; starting the process management flow of the information management module when the process problem occurs, and restarting the production supervision flow of the production management module after the process problem is solved; in the initial stage of equipment design and production, the system sets a risk coefficient evaluation value in the equipment production stage, intelligently evaluates risks according to workshop environment problems and equipment quality problems occurring in the equipment production process, opens a management system each time, enters an equipment production supervision interface, and automatically pops up a risk value in the current stage.

4. The method as claimed in claim 2, wherein the system identifies and extracts the preset staged schemes, compares the data to be compared with the standard data stored in the server, and determines the data as the non-qualified data if the standard data deviation exceeds 0.5%.

5. The method for realizing intelligent management of design and production of communication equipment based on the 5G technology as claimed in claim 3, wherein the system identifies and extracts the temperature, humidity and preset product quality data of the production workshop to compare with the standard data stored in the server; exceeding 0.5% of the standard data deviation is considered as non-qualified data.

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