CN114945189A

CN114945189A - Construction method and device of provincial-network-level 5G communication management system

Info

Publication number: CN114945189A
Application number: CN202210541932.1A
Authority: CN
Inventors: 李家樑; 王劲; 李科君; 林柔丹; 李盟; 马红飞
Original assignee: Guangdong Planning and Designing Institute of Telecommunications Co Ltd
Current assignee: Guangdong Planning and Designing Institute of Telecommunications Co Ltd
Priority date: 2022-05-18
Filing date: 2022-05-18
Publication date: 2022-08-26

Abstract

The invention discloses a method and a device for constructing a provincial-network-level 5G communication management system, wherein the method comprises the following steps: determining a first-level architecture type corresponding to a first-level system architecture, a subset function module corresponding to each first-level architecture type and an architecture intercommunication protocol between each first-level architecture type according to a preset system construction algorithm; according to the subset function module corresponding to each primary architecture type, constructing and obtaining a plurality of primary architecture components corresponding to the primary architecture types, and accordingly constructing an initial system architecture; constructing a primary system by an initial system architecture according to the intercommunication relation and the system construction algorithm among each subset functional module; determining architecture components and subset functional modules which need to be deleted, so as to reconstruct a primary system and obtain a secondary system; and constructing a target system according to the system construction algorithm, the primary system and the secondary system. Therefore, the implementation of the invention provides a construction method of the provincial and network hierarchical system, which can improve the management and control efficiency and accuracy of communication resources.

Description

Construction method and device of provincial-network-level 5G communication management system

Technical Field

The invention relates to the technical field of power communication, in particular to a construction method and a device of a provincial-network hierarchical 5G communication management system.

Background

Compared with the previous mobile communication technology of several generations, the 5G technology can be oriented to more service scenes, provides stronger network bearing capacity and provides safer and more open industry private network service, and has great significance for power communication.

However, because the research and development time of the 5G technology is short, the application in the power industry is still in the starting and pilot stage at present, and meanwhile, in the process of putting the 5G technology into application, many disadvantages are also shown, such as the problems of opaque tariff management, low communication quality perception and the like. In addition, when enterprises of different sizes gradually put into use the 5G technology, the requirements for the 5G technology are different, for example, the requirements of the grid-level unit and the provincial-level unit of the power enterprise for 5G resource management and monitoring are not completely consistent. Therefore, it is important to provide a management and control scheme for 5G communication resources.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a method and an apparatus for constructing a 5G communication management system in a grid province hierarchy, which can improve the management and control efficiency and the management and control accuracy of 5G communication resources.

In order to solve the above technical problem, a first aspect of the present invention discloses a method for constructing a 5G communication management system with a provincial network hierarchy, where the method includes:

determining a primary architecture type corresponding to a primary system architecture according to a preset system construction algorithm;

determining a subset function module corresponding to each one-level architecture type and determining an architecture intercommunication protocol between each one-level architecture type, wherein the architecture intercommunication protocol is used for realizing data interaction between different one-level architecture types;

constructing and obtaining a plurality of primary architecture components corresponding to the primary architecture types according to the subset function module corresponding to each primary architecture type, and constructing an initial system architecture according to an architecture intercommunication protocol between each primary architecture type and all the primary architecture components;

executing preset system construction operation on the initial system architecture according to the intercommunication relation among each subset functional module and the system construction algorithm to obtain a primary system corresponding to the primary system architecture, wherein the primary system is used for controlling all primary architecture components;

determining the architecture components and the subset functional modules which need to be deleted according to the system construction algorithm, and executing system reconstruction operation on the primary system according to the determined architecture components and the subset functional modules which need to be deleted to obtain a secondary system;

and constructing a target system for controlling the primary system and the secondary system according to the system construction algorithm, the primary system and the secondary system.

As an optional implementation manner, in the first aspect of the present invention, before determining the subset function module corresponding to each of the primary architecture types and determining the architecture interworking protocol between each of the primary architecture types, the method further includes:

determining system internal data corresponding to the primary architecture type, wherein the system internal data comprises at least one of configuration data corresponding to communication resources, target data correspondingly generated when the communication resources are controlled and user data;

determining external interface data according to the system internal data, wherein the external interface data comprises interface parameter data corresponding to an external interface for transmitting the system internal data;

according to a preset data collection algorithm, performing data collection operation on the system internal data and the external interface data to obtain a collection result;

and the determining the subset function module corresponding to each of the primary architecture types and the architecture interworking protocol between each of the primary architecture types includes:

analyzing the collection result according to the system construction algorithm to obtain an analysis result, wherein the analysis result comprises a plurality of data sets, and each data set is used for constructing a subset function module corresponding to one level of architecture type;

and determining the architecture intercommunication protocol between each level of architecture type according to the analysis result.

As an optional implementation manner, in the first aspect of the present invention, after determining an architecture interworking protocol between each of the primary architecture types, the method further includes:

determining a framework-module interworking protocol between the subset function module corresponding to each one-level framework type and the one-level framework type according to the system construction algorithm, wherein the framework-module interworking protocol is used for realizing data interaction between a single framework type and the subset function module controlled by the framework type;

determining data interaction authority between each architecture type and other architecture types according to all determined architecture intercommunication protocols;

updating the architecture-module intercommunication protocol according to all the data interaction authorities;

and constructing an initial system architecture according to the architecture intercommunication protocol between each one-level architecture type and all the one-level architecture components, wherein the method comprises the following steps:

and constructing an initial system architecture according to the architecture intercommunication protocol among each one-level architecture type, the architecture-module intercommunication protocol and all the one-level architecture components.

As an optional implementation manner, in the first aspect of the present invention, after determining, according to the system construction algorithm, the architecture component and the subset functional module that need to be deleted, and before performing, according to the determined architecture component and the subset functional module that need to be deleted, a system reconfiguration operation on the primary system to obtain the secondary system, the method further includes:

configuring a system level corresponding to the primary system according to the system construction algorithm, and repeatedly engraving the primary system to obtain repeated engraving system data;

the method for obtaining the secondary system by executing the system reconfiguration operation on the primary system according to the determined architecture components and the subset functional modules which need to be deleted comprises the following steps:

according to the determined architecture components and subset function modules which need to be deleted, performing system reconstruction operation on the repeated engraving system data to obtain a reconstructed system;

configuring a system level corresponding to the reconstruction system according to the system construction algorithm, wherein the system level corresponding to the reconstruction system is lower than the system level corresponding to the primary system;

and according to the system level corresponding to the primary system and the system level corresponding to the reconstruction system, constructing a system intercommunication protocol between the primary system and the reconstruction system, and determining the reconstruction system as a secondary system.

As an optional implementation manner, in the first aspect of the present invention, the constructing, according to the system construction algorithm, the primary system, and the secondary system, a target system for managing and controlling the primary system and the secondary system includes:

verifying the system interaction function between the primary system and the secondary system according to the determined interaction verification algorithm to obtain a verification result;

when the verification result shows that the data interaction between the primary system and the secondary system is not abnormal, constructing a target system for controlling the primary system and the secondary system according to the system construction algorithm, the primary system, the secondary system and the system interaction protocol;

when the verification result shows that the data interaction between the primary system and the secondary system is abnormal, analyzing abnormal data corresponding to the abnormal interaction to obtain an abnormal analysis report;

calling an exception handling program matched with the exception analysis report to process the exception data, and updating the system interaction protocol according to the exception analysis report;

and constructing a target system for controlling the primary system and the secondary system according to the system construction algorithm, the primary system, the secondary system and the system interaction protocol.

As an optional implementation manner, in the first aspect of the present invention, after the constructing, according to the system construction algorithm, the primary system, and the secondary system, a target system for managing the primary system and the secondary system, the method further includes:

executing operation and maintenance test operation on the constructed target system according to a preset operation and maintenance safety model to obtain an operation and maintenance test result, wherein the operation and maintenance test operation is used for testing the operation reliability of the target system, and the operation and maintenance test operation comprises at least one of testing the error report rate of internal data of the primary system during operation, testing the error report rate of internal data of the secondary system during operation and testing the error report rate of data of the primary system during data interaction with the secondary system;

when the operation and maintenance test result shows that the operation and maintenance error rate corresponding to the target system is lower than or equal to a preset fault-tolerant threshold, determining that the target system is a qualified system and taking the target system as a standby system when the 5G communication resource management is carried out;

and when the operation and maintenance test result shows that the operation and maintenance error rate corresponding to the target system is higher than a preset fault-tolerant threshold, determining that the target system is a non-qualified system, analyzing the operation and maintenance test result to obtain an operation and maintenance error report work order, wherein the operation and maintenance error report work order comprises a high-frequency error report point corresponding to the trial operation and maintenance of the target system and an error report reason of the high-frequency error report point, and the operation and maintenance error report work order is used as auxiliary data when a system with the same function as the target system is constructed subsequently.

As an optional implementation manner, in the first aspect of the present invention, the target system includes the primary system and the secondary system, the primary system includes a provincial system, the secondary system includes a network system, and a system level corresponding to the primary system is higher than a system level corresponding to the secondary system, where:

the primary system comprises a plurality of functional modules, the functional modules comprise at least one of a comprehensive monitoring module, a process management module, a resource management module, a performance management module, a statistical analysis module, a data and interface management module and a system management module, and each functional module of the primary system at least corresponds to one sub-functional module;

the secondary system is a system reconstructed after deleting the determined deletion function module on the basis of the primary system, and the deletion function module comprises the performance management module and/or the process management module.

The second aspect of the invention discloses a construction device of a 5G communication management system of a network province hierarchy, which comprises:

the determining module is used for determining a primary architecture type corresponding to a primary system architecture according to a preset system construction algorithm;

the determining module is further configured to determine a subset function module corresponding to each of the first-level architecture types and determine an architecture interworking protocol between each of the first-level architecture types, where the architecture interworking protocol is used to implement data interaction between different first-level architecture types;

a building module, configured to build a plurality of primary architecture components corresponding to the primary architecture types according to the subset function module corresponding to each of the primary architecture types, and build an initial system architecture according to an architecture interworking protocol between each of the primary architecture types and all the primary architecture components;

the building module is further configured to perform a preset system building operation on the initial system architecture according to the intercommunication relationship between each subset function module and the system building algorithm to obtain a primary system corresponding to the primary system architecture, and the primary system is configured to manage and control all the primary architecture components;

the determining module is further used for determining architecture components and subset functional modules which need to be deleted according to the system construction algorithm;

the reconstruction module is used for executing system reconstruction operation on the primary system according to the architecture components and the subset function modules which are determined by the determination module and need to be deleted to obtain a secondary system;

the building module is further used for building a target system for controlling the primary system and the secondary system according to the system building algorithm, the primary system and the secondary system.

As an optional implementation manner, in the second aspect of the present invention, the determining module is further configured to determine, before determining the subset function module corresponding to each of the primary architecture types and determining an architecture interworking protocol between each of the primary architecture types, system internal data corresponding to the primary architecture types, where the system internal data includes at least one of configuration data corresponding to a communication resource, target data correspondingly generated when the communication resource is managed and user data;

the determining module is further configured to determine external interface data according to the system internal data, where the external interface data includes interface parameter data corresponding to an external interface used for transmitting the system internal data;

the device further comprises:

the collecting module is used for carrying out data collecting operation on the system internal data and the external interface data according to a preset data collecting algorithm to obtain a collecting result;

the determining module determines the subset function module corresponding to each of the primary architecture types and the architecture interworking protocol between each of the primary architecture types in a specific manner including:

As an optional implementation manner, in the second aspect of the present invention, the determining module is further configured to determine, according to the system building algorithm, an architecture-module interworking protocol between the subset function module corresponding to each of the primary architecture types and the primary architecture type after determining an architecture interworking protocol between each of the primary architecture types, where the architecture-module interworking protocol is used to implement data interaction between a single architecture type and the subset function module managed and controlled by the architecture type;

the determining module is further configured to determine, according to all the determined architecture interworking protocols, a data interaction permission between each architecture type and another architecture type;

the device further comprises:

the updating module is used for updating the framework-module intercommunication protocol according to all the data interaction authorities;

and the method for constructing the initial system architecture by the construction module according to the architecture intercommunication protocol between each one-level architecture type and all the one-level architecture components specifically comprises the following steps:

As an optional embodiment, in the second aspect of the present invention, the apparatus further comprises:

the configuration module is used for configuring a system level corresponding to the primary system according to the system construction algorithm before the determining module determines the architecture components and the subset function modules which need to be deleted according to the system construction algorithm and the reconstructing module executes system reconstructing operation on the primary system according to the determined architecture components and the subset function modules which need to be deleted to obtain a secondary system;

the repeated engraving module is used for repeatedly engraving the primary system to obtain repeated engraving system data;

the method for the reconstruction module to execute system reconstruction operation on the primary system according to the determined architecture components and subset functional modules to be deleted includes:

according to the determined architecture components and subset functional modules needing to be deleted, performing system reconstruction operation on the repeated engraving system data to obtain a reconstruction system;

As an optional implementation manner, in the second aspect of the present invention, the manner of constructing, by the construction module, a target system for managing and controlling the primary system and the secondary system according to the system construction algorithm, the primary system, and the secondary system specifically includes:

As an alternative embodiment, in the second aspect of the present invention, the apparatus further comprises:

the operation and maintenance testing module is used for executing operation and maintenance testing operation on the constructed target system according to a preset operation and maintenance safety model after the construction module constructs the target system for controlling the primary system and the secondary system according to the system construction algorithm, the primary system and the secondary system to obtain an operation and maintenance testing result, the operation and maintenance testing operation is used for testing the operation reliability of the target system, and the operation and maintenance testing operation comprises at least one of testing the error reporting rate of internal data of the primary system during operation, testing the error reporting rate of internal data of the secondary system during operation and testing the error reporting rate of data of the primary system during data interaction with the secondary system;

the determining module is further configured to determine that the target system is a qualified system when the operation and maintenance test result indicates that the operation and maintenance error rate corresponding to the target system is lower than or equal to a preset fault-tolerant threshold, and the target system is used as a standby system when 5G communication resource management is performed;

the determining module is further configured to determine that the target system is a non-qualified system when the operation and maintenance test result indicates that the operation and maintenance error rate corresponding to the target system is higher than a preset fault tolerance threshold;

and the analysis module is used for analyzing the operation and maintenance test result to obtain an operation and maintenance error report work order, the operation and maintenance error report work order comprises high-frequency error report points corresponding to the trial operation and maintenance of the target system and error report reasons of the high-frequency error report points, and the operation and maintenance error report work order is used as auxiliary data when a system with the same functions as the target system is subsequently constructed.

As an optional implementation manner, in the second aspect of the present invention, the target system includes the primary system and the secondary system, the primary system includes a provincial system, the secondary system includes a network system, and the system level corresponding to the primary system is higher than the system level corresponding to the secondary system, wherein:

The third aspect of the present invention discloses another apparatus for constructing a 5G communication management system of a cybercoin hierarchy, the apparatus comprising:

a memory storing executable program code;

a processor coupled with the memory;

the processor calls the executable program codes stored in the memory to execute the construction method of the 5G communication management system of the provincial power grid hierarchy disclosed by the first aspect of the invention.

The fourth aspect of the present invention discloses a computer storage medium, which stores computer instructions, and when the computer instructions are called, the computer instructions are used for executing the method for constructing the hierarchical 5G communication management system in network and provinces disclosed in the first aspect of the present invention.

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

the embodiment of the invention provides a construction method of a provincial-network-level 5G communication management system, which comprises the following steps: determining a primary architecture type corresponding to a primary system architecture according to a preset system construction algorithm; determining a subset function module corresponding to each one-level architecture type and determining an architecture intercommunication protocol between each one-level architecture type, wherein the architecture intercommunication protocol is used for realizing data interaction between different one-level architecture types; constructing and obtaining a plurality of first-level architecture components corresponding to the first-level architecture types according to the subset function module corresponding to each first-level architecture type, and constructing an initial system architecture according to an architecture intercommunication protocol between each first-level architecture type and all the first-level architecture components; executing preset system construction operation on the initial system architecture according to the intercommunication relation among each subset functional module and a system construction algorithm to obtain a primary system corresponding to a primary system architecture, wherein the primary system is used for controlling all primary architecture components; determining the architecture components and the subset functional modules which need to be deleted according to a system construction algorithm, and executing system reconstruction operation on the primary system according to the determined architecture components and the subset functional modules which need to be deleted to obtain a secondary system; and constructing a target system for controlling the primary system and the secondary system according to the system construction algorithm, the primary system and the secondary system. Therefore, the hierarchical management system is constructed to realize hierarchical management and control of the 5G communication resources, can meet the management and control requirements of enterprises of different scales on the 5G communication resources, and can improve the management and control efficiency and the management and control accuracy of the 5G communication resources.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic flowchart of a method for constructing a 5G communication management system with a provincial network hierarchy according to an embodiment of the present invention;

fig. 2 is a schematic flow chart of a method for constructing another hierarchical 5G communication management system in the network province, which is disclosed by the embodiment of the invention;

fig. 3 is a schematic structural diagram of a construction device of a 5G communication management system of a cybercoin hierarchy according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a construction device of another step-by-step 5G communication management system in the cyber province, which is disclosed by the embodiment of the invention;

fig. 5 is a schematic structural diagram of a construction apparatus of another step-by-step 5G communication management system in the provincial power of the invention;

FIG. 6 is a structural diagram of a provincial system functional framework according to the embodiment of the present invention;

fig. 7 is a schematic structural diagram corresponding to a network-level system functional framework according to an embodiment of the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, 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.

The terms "first," "second," and the like in the description and claims of the present invention and in the above-described drawings are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, apparatus, article, or article that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or article.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

The invention discloses a construction method and a device of a network provincial hierarchical 5G communication management system, which realize hierarchical management and control of 5G communication resources by constructing a hierarchical management system, can adapt to the management and control requirements of enterprises of different scales on the 5G communication resources, and can improve the management and control efficiency and the management and control accuracy of the 5G communication resources. The following are detailed below.

Example one

Referring to fig. 1, fig. 1 is a flowchart illustrating a method for constructing a 5G communication management system with a provincial network hierarchy according to an embodiment of the present invention. The method for constructing the 5G communication management system of the grid province hierarchy described in fig. 1 may be applied to a device for constructing the 5G communication management system of the grid province hierarchy, and the embodiment of the present invention is not limited thereto. As shown in fig. 1, the method for constructing the 5G communication management system of the cybercoin hierarchy may include the following operations:

101. and determining a primary architecture type corresponding to the primary system architecture according to a preset system construction algorithm.

102. Determining a subset function module corresponding to each primary architecture type and determining an architecture interworking protocol between each primary architecture type.

In the embodiment of the invention, the architecture intercommunication protocol is used for realizing data interaction among different levels of architecture types.

In this embodiment of the present invention, optionally, before determining the subset function module corresponding to each primary architecture type and determining the architecture interworking protocol between each primary architecture type in step 102, the method may further include the following operations:

according to a preset data collection algorithm, performing data collection operation on system internal data and external interface data to obtain a collection result;

and the step 102 of determining the subset function module corresponding to each primary architecture type and the architecture interworking protocol between each primary architecture type specifically includes:

analyzing the aggregation result according to a system construction algorithm to obtain an analysis result, wherein the analysis result comprises a plurality of data sets, and each data set is used for constructing a subset function module corresponding to a certain one-level architecture type;

and determining the architecture intercommunication protocol between each first-level architecture type according to the analysis result.

It should be noted that the configuration data corresponding to the communication resource includes resource distribution and operation for configuring the 5G communication resource; the target data comprises at least one of slice, card, fault management, flow data and tariff data aiming at the 5G communication resource; the framework intercommunication protocol is used for realizing module interaction among different levels of functional modules, and the embodiment of the invention is not limited.

Therefore, in the embodiment of the invention, the internal data of the system can be automatically determined and the determined internal data of the system can be collected, so that the data set required by the subset function module corresponding to a certain one-level architecture type to be constructed subsequently can be determined, and the construction efficiency and the construction accuracy of the subset function module to be constructed subsequently can be improved.

103. According to the subset function module corresponding to each one-level architecture type, a plurality of one-level architecture components corresponding to the one-level architecture types are constructed and obtained, and according to the architecture intercommunication protocol between each one-level architecture type and all the one-level architecture components, an initial system architecture is constructed.

104. And executing preset system construction operation on the initial system architecture according to the intercommunication relation among all the subset function modules and a system construction algorithm to obtain a primary system corresponding to the primary system architecture.

In the embodiment of the invention, the primary system is used for controlling all primary architecture components.

105. And according to the determined architecture components and the subset functional modules which need to be deleted, performing system reconstruction operation on the primary system to obtain a secondary system.

In this embodiment of the present invention, optionally, after determining the architecture component and the subset function module that need to be deleted according to the system construction algorithm in step 105, and before performing system reconfiguration operation on the primary system according to the determined architecture component and the subset function module that need to be deleted, and obtaining the secondary system, the method further includes the following operations:

configuring a system level corresponding to the primary system according to a system construction algorithm, and repeatedly engraving the primary system to obtain repeated engraving system data;

the method for performing system reconfiguration operation on the primary system according to the determined architecture components and subset function modules to be deleted includes:

according to the determined architecture components and subset functional modules needing to be deleted, performing system reconstruction operation on the complex engraving system data to obtain a reconstruction system;

configuring a system level corresponding to a reconstruction system according to a system construction algorithm, wherein the system level corresponding to the reconstruction system is lower than a system level corresponding to a primary system;

and according to the system level corresponding to the first-level system and the system level corresponding to the reconstruction system, constructing a system intercommunication protocol between the first-level system and the reconstruction system, and determining the reconstruction system as a secondary system.

Therefore, in the embodiment of the invention, the secondary system is obtained by reconstructing the data in a repeated carving manner, and the system level of the secondary system is further configured intelligently, so that the hierarchical management and control function of the system is realized, and the accuracy of the subsequent construction of the target system is improved.

106. And constructing a target system for controlling the primary system and the secondary system according to the system construction algorithm, the primary system and the secondary system.

In this embodiment of the present invention, optionally, the step 106 of constructing the target system for controlling the primary system and the secondary system according to the system construction algorithm, the primary system, and the secondary system specifically includes:

when the verification result shows that the data interaction between the primary system and the secondary system is not abnormal, a target system for controlling the primary system and the secondary system is constructed according to a system construction algorithm, the primary system, the secondary system and a system interaction protocol;

when the verification result shows that the data interaction between the primary system and the secondary system is abnormal, abnormal data corresponding to the abnormal interaction are analyzed to obtain an abnormal analysis report;

calling an exception handling program matched with the exception analysis report to process the exception data, and updating a system interaction protocol according to the exception analysis report;

and constructing a target system for controlling the primary system and the secondary system according to a system construction algorithm, the primary system, the secondary system and a system interaction protocol.

Therefore, in the embodiment of the invention, before the target system is constructed, the interaction function between the constructed primary system and the constructed secondary system can be intelligently verified, which is beneficial to improving the operation reliability of the finally constructed target system; and when the interaction abnormity exists between the primary system and the secondary system, the interaction abnormity reason is self-adaptively analyzed to obtain an abnormity analysis report and abnormal data is automatically processed, so that the occurrence of the condition that the target system is in operation error due to the interaction abnormity exists between the primary system and the secondary system is reduced, and the operation reliability of the target system is improved to a certain extent.

It can be seen that, by implementing the method for constructing the hierarchical 5G communication management system in the network province described in fig. 1, hierarchical management and control of the 5G communication resources can be realized by constructing a hierarchical management system, the method can be adapted to the management and control requirements of enterprises of different scales on the 5G communication resources, and can also improve the management and control efficiency and the management and control accuracy of the 5G communication resources.

In an optional embodiment, the target system comprises a primary system and a secondary system, the primary system comprises a provincial system, the secondary system comprises a network system, and the system level corresponding to the primary system is higher than the system level corresponding to the secondary system, wherein:

the primary system comprises a plurality of functional modules, each functional module comprises at least one of a comprehensive monitoring module, a process management module, a resource management module, a performance management module, a statistical analysis module, a data and interface management module and a system management module, and each functional module of the primary system at least corresponds to one sub-functional module;

the secondary system is a system reconstructed after deleting the determined deletion function module on the basis of the primary system, and the deletion function module comprises a performance management module and/or a process management module.

It should be noted that the comprehensive monitoring module is used for globally showing the distribution and the operation condition of the power 5G communication resource, and mainly includes 2 secondary function modules, namely a service monitoring module and a 5G application scene module, wherein:

and the service monitoring module is used for acquiring module information corresponding to all other modules and comprehensively displaying the acquired module information according to the received instruction.

And the 5G application scene module is used for performing custom display on a 5G power service scene and embodying service bearing logic, such as end-to-end network topology of each service.

The flow management module is used for providing the functions of slice, card and fault flow management for the constructed 5G communication management system, and mainly comprises 3 secondary function modules of a slice management module, a card management module and a fault management module, wherein:

and the slice management module is used for carrying out electronic management on the slice opening process and assisting a user to submit slice opening, slice returning and slice modifying applications to a telecom operator.

And the card management module is used for electronically managing the processes of the annual card plan and the monthly card plan and assisting the user in submitting the opening, returning and modifying applications of the wireless communication card to a telecom operator.

And the fault management module is used for receiving notification information of network interruption, network congestion, equipment maintenance, shutdown maintenance and the like of an operator and pushing fault reporting information to a telecom operator.

The resource management function module is used for providing the functions of resource management such as cards, slices and equipment for the 5G communication management system, and mainly comprises 3 secondary function modules of 5G card account management, 5G equipment account management and 5G electric virtual private network physical resource management, wherein:

and the 5G card account management module is used for realizing acquisition and maintenance of 5G card account data, dynamically displaying 5G card resource data, and inquiring and operating data according to screening conditions of different dimensions by a user.

The 5G equipment standing book management module is used for achieving collection and maintenance of the 5G equipment standing book, can be used for butt joint of the 5G communication terminal, collecting terminal information, can be used for remotely controlling the terminal, and achieves comprehensive management capacity of the 5G terminal.

The 5G power virtual private network physical resource management module has comprehensive management capabilities of collection, maintenance and the like of 5G slices, UPF and base station accounts and is used for providing functions of showing, inquiring, leading in and leading out of the accounts.

The process management function module is used for providing a performance monitoring function of 5G equipment for the system, and mainly comprises 2 secondary function modules of performance monitoring and performance alarming, wherein:

the performance monitoring module can acquire terminal performance data in real time through the interface and display performance information such as current and historical flow, received power, signal-to-noise ratio and the like of the communication terminal in the forms of numbers, charts and the like.

And the performance alarm module supports setting a performance threshold and is used for sending out an alarm when the performance threshold exceeds or falls below a set range.

The statistical analysis function module is used for providing statistical analysis functions of indexes such as flow, state, alarm, tariff and the like for the system, and mainly comprises 4 secondary function modules of flow analysis, state analysis, alarm analysis and tariff analysis, wherein:

and the flow analysis module is used for counting the dimensions of daily flow, monthly flow and historical flow of the wireless communication card and the communication terminal from operators, service types, regions, flow intervals and the like, and recording and counting the cards of which the generated flow is zero or exceeds a set meal specified value within a certain service life.

And the state analysis module is used for counting various states and online rates of the wireless communication card and the communication terminal from dimensions such as operators, service types and regions, and supporting screening and exporting of a counting result.

And the alarm analysis module is used for counting the alarms of the communication terminal from the dimensions of manufacturers, service types, areas and the like and supporting the screening and the derivation of statistical results.

And the charge analysis module is used for analyzing and calculating the total charge required by opening the wireless communication card and the slice according to the attributes of the wireless communication card such as the region, the monthly usage flow, the lease duration and the like and the detailed charging rule of the 5G slice, and assisting the user in screening out the scheme with the lowest charge.

The data and interface management function module mainly comprises 4 secondary function modules of external capability docking, internal data opening, interface safety management and interface monitoring, wherein:

and the external capability docking module is used for providing a docking function with an external system for the system, such as acquisition, storage and analysis of 5G card, 5G terminal and 5G slice data.

And the internal data opening module is used for providing the sorted 5G card, 5G terminal and 5G slice data to an external system in a data service form.

And the interface security management module is used for performing authentication and authorization functions on the accessed external system and supporting the external system to access corresponding services within the authority range.

And the interface monitoring module is used for realizing the interface monitoring functions of access control, load control, SLA guarantee, data compression and the like.

The system management function module mainly comprises 5 secondary function modules of user management, role management, log management, area management and menu management, wherein:

and the user management module is used for supporting the creation, modification, deletion and query of system users and roles, supporting the association of the users and the roles and supporting the setting of the permissions of the users and the roles.

And the role management module is used for supporting the setting of the permissions of the user and the role and supporting the setting of system management, function modules, function operation, data access and data modification permissions.

And the log management module has the functions of managing the operation log and the log login, and is used for recording the operation log when data is newly added, modified and deleted, and tracking and monitoring the operation record.

And the region management module is used for realizing the corresponding functions of adding, deleting and modifying the region attributes in each function of the system.

And the menu management module has the functions of displaying and hiding the functional items in the system menu bar and is used for supporting the provision of differentiated system functional items for different users.

Specifically, please refer to fig. 6 and 7 for practical application, where fig. 6 is a provincial level system function architecture diagram, and fig. 7 is a network level system function architecture diagram, where the network level system function architecture shown in fig. 7 omits 2 primary modules for performance management and flow management, and removes alarm statistics analysis and tariff analysis functions in the statistics analysis module, based on the network level system function architecture shown in fig. 6.

It can be seen that, in the embodiment of the present invention, when a province system is constructed, 7 specific primary modules are intelligently constructed through the determined system function framework, each primary module is correspondingly provided with a plurality of secondary function modules, the system function framework is constructed in a step-by-step module construction manner, and finally a required system is constructed; furthermore, a provincial and network-level 5G communication management and control system is constructed, and the management and control efficiency and the management and control accuracy of the 5G communication resources by the user are improved.

Example two

Referring to fig. 2, fig. 2 is a flowchart illustrating a method for constructing another hierarchical 5G communication management system according to an embodiment of the present invention. The method for constructing the 5G communication management system of the grid province hierarchy described in fig. 2 may be applied to a device for constructing the 5G communication management system of the grid province hierarchy, and the embodiment of the present invention is not limited thereto. As shown in fig. 2, the method for constructing the 5G communication management system of the cybercoin hierarchy may include the following operations:

201. and determining a primary architecture type corresponding to the primary system architecture according to a preset system construction algorithm.

202. Determining a subset function module corresponding to each primary architecture type and determining an architecture interworking protocol between each primary architecture type.

203. And determining a framework-module intercommunication protocol between the subset function module corresponding to each primary framework type and the primary framework type according to a system construction algorithm.

In the embodiment of the present invention, the architecture-module interworking protocol is used to implement data interaction between a single architecture type and a subset function module managed by the architecture type.

204. And determining the data interaction authority between each architecture type and other architecture types according to all determined architecture intercommunication protocols.

205. And updating the framework-module intercommunication protocol according to all the data interaction authorities.

206. According to the subset function module corresponding to each one-level architecture type, a plurality of one-level architecture components corresponding to the one-level architecture types are constructed and obtained, and according to the architecture intercommunication protocol, the architecture-module intercommunication protocol and all the one-level architecture components among the one-level architecture types, an initial system architecture is constructed.

207. And executing preset system construction operation on the initial system architecture according to the intercommunication relation among all the subset function modules and a system construction algorithm to obtain a primary system corresponding to the primary system architecture.

208. And according to the determined architecture components and the subset functional modules which need to be deleted, performing system reconstruction operation on the primary system to obtain a secondary system.

209. And constructing a target system for controlling the primary system and the secondary system according to the system construction algorithm, the primary system and the secondary system.

In the embodiment of the present invention, please refer to other specific descriptions of steps 101 to 102 and steps 103 to 106 in the first embodiment for other descriptions of steps 201 to 202 and steps 206 to 209, which are not described again in the embodiment of the present invention.

It can be seen that, by implementing the method for constructing the 5G communication management system for the grid province hierarchy described in fig. 2, a hierarchical management system is constructed to implement hierarchical management and control on 5G communication resources, which can meet the management and control requirements of enterprises of different scales on the 5G communication resources, and can also improve the management and control efficiency and the management and control accuracy of the 5G communication resources; in addition, when the preposed preparation work of constructing the target system is carried out, the framework-module intercommunication protocol can be automatically determined, and the reliability and the accuracy of the determined initial system framework are further improved.

In an optional embodiment, after the target system for controlling the primary system and the secondary system is constructed according to the system construction algorithm, the primary system and the secondary system, the method may further include the following operations:

according to a preset operation and maintenance safety model, performing operation and maintenance test operation on the constructed target system to obtain an operation and maintenance test result, wherein the operation and maintenance test operation is used for testing the operation reliability of the target system, and the operation and maintenance test operation comprises at least one of the error reporting rate of internal data of the system during the operation of the primary system, the error reporting rate of internal data of the system during the operation of the secondary system and the data error reporting rate of the data interaction between the primary system and the secondary system;

when the operation and maintenance test result shows that the operation and maintenance error rate corresponding to the target system is lower than or equal to a preset fault-tolerant threshold, determining the target system as a qualified system, and taking the target system as a standby system when the 5G communication resource management is carried out;

and when the operation and maintenance test result shows that the operation and maintenance error rate corresponding to the target system is higher than a preset fault-tolerant threshold, determining that the target system is a non-qualified system, analyzing the operation and maintenance test result to obtain an operation and maintenance error report worksheet, wherein the operation and maintenance error report worksheet comprises a high-frequency error report point corresponding to the trial operation and maintenance of the target system and an error report reason of the high-frequency error report point, and the operation and maintenance error report worksheet is used as auxiliary data when a system with the same function as the target system is subsequently constructed.

Therefore, in the optional embodiment, based on the operation and maintenance safety model, the automatic operation and maintenance test on the performance of the constructed target system is realized, and the screening efficiency of the screening qualified system is improved; the corresponding operation and maintenance fault reporting work order can be generated for the non-qualified system and used as reference data for subsequent processing of the non-qualified system, so that the processing efficiency of processing the non-qualified system is improved; and the operation and maintenance test operation is carried out, so that the operation feasibility of the target system is further verified, and the probability that the finally constructed system is a qualified system is improved.

EXAMPLE III

Referring to fig. 3, fig. 3 is a schematic structural diagram of a construction apparatus of a 5G communication management system with a provincial network hierarchy according to an embodiment of the present invention. As shown in fig. 3, the constructing apparatus of the 5G communication management system of the cybercoin hierarchy may include a determining module 301, a constructing module 302, and a reconstructing module 303, wherein:

the determining module 301 is configured to determine a primary architecture type corresponding to a primary system architecture according to a preset system building algorithm.

The determining module 301 is further configured to determine a subset function module corresponding to each of the first-level architecture types and determine an architecture interworking protocol between each of the first-level architecture types, where the architecture interworking protocol is used to implement data interaction between different first-level architecture types.

A building module 302, configured to build a plurality of first-level architecture components corresponding to the first-level architecture types according to the subset function module corresponding to each first-level architecture type, and build an initial system architecture according to an architecture intercommunication protocol between each first-level architecture type and all first-level architecture components.

The building module 302 is further configured to execute a preset system building operation on the initial system architecture according to the intercommunication relationship between each subset functional module and the system building algorithm, so as to obtain a primary system corresponding to the primary system architecture, where the primary system is configured to manage and control all primary architecture components.

The determining module 301 is further configured to determine, according to a system construction algorithm, an architecture component and a subset function module that need to be deleted.

A reconstructing module 303, configured to perform system reconstructing operation on the primary system constructed by the constructing module 302 according to the architecture component and the subset function module that are determined by the determining module 301 and need to be deleted, so as to obtain a secondary system.

The building module 302 is further configured to build a target system for controlling the primary system and the secondary system according to the system building algorithm, the primary system, and the secondary system.

It can be seen that, by implementing the construction apparatus for the step-by-step 5G communication management system in fig. 3, it is possible to implement step-by-step management and control on 5G communication resources by constructing a step-by-step management system, and it is possible to adapt to the management and control requirements of enterprises of different scales on 5G communication resources, and improve the management and control efficiency and the management and control accuracy for 5G communication resources.

Referring to fig. 4, fig. 4 is a schematic structural diagram of a construction apparatus of another step-by-step 5G communication management system in cyber province according to an embodiment of the present invention. The determining module 301 is further configured to determine, before determining the subset function module corresponding to each primary architecture type and determining the architecture interworking protocol between each primary architecture type, system internal data corresponding to the primary architecture type, where the system internal data includes at least one of configuration data corresponding to a communication resource, target data correspondingly generated when the communication resource is managed and controlled, and user data.

The determining module 301 is further configured to determine external interface data according to the system internal data, where the external interface data includes interface parameter data corresponding to an external interface used for transmitting the system internal data.

As shown in fig. 4, the constructing apparatus of the 5G communication management system of the cybercoin hierarchy may further include an aggregation module 304, wherein:

the collecting module 304 is configured to perform data collecting operation on the system internal data and the external interface data determined by the determining module 301 according to a preset data collecting algorithm, so as to obtain a collecting result.

The determining module 301 determines the subset function module corresponding to each primary architecture type and the architecture interworking protocol between each primary architecture type, specifically includes the following operations:

It can be seen that, by implementing the construction apparatus for a step-by-step 5G communication management system described in fig. 4, system internal data can be automatically determined and the determined system internal data can be collected, so that a data set required by a subset functional module corresponding to a certain one-level architecture type to be subsequently constructed is determined, and the construction efficiency and the construction accuracy of the subsequently constructed subset functional module are improved.

In another optional embodiment, the determining module 301 is further configured to determine, according to a system building algorithm, after determining an architecture interworking protocol between each primary architecture type, an architecture-module interworking protocol between the subset function module corresponding to each primary architecture type and the primary architecture type, where the architecture-module interworking protocol is used to implement data interaction between a single architecture type and the subset function module managed and controlled by the architecture type.

The determining module 301 is further configured to determine, according to all determined architecture interworking protocols, data interaction permissions between each architecture type and other architecture types.

The apparatus further comprises an update module 305, wherein:

and the updating module 305 is used for updating the architecture-module intercommunication protocol according to all the data interaction authorities.

And, the method for constructing the initial system architecture by the construction module 302 according to the architecture interworking protocol between each of the primary architecture types and all the primary architecture components specifically includes the following operations:

and constructing an initial system architecture according to an architecture intercommunication protocol, an architecture-module intercommunication protocol and all the first-level architecture components among all the first-level architecture types.

It can be seen that, when implementing the architecture of the 5G communication management system with a step in step depicted in fig. 4, the architecture-module interworking protocol can be automatically determined during the preparation of the front end of the target system, so as to improve the reliability and accuracy of the determined initial system architecture.

In yet another optional embodiment, the apparatus for constructing the 5G communication management system of the cybercoin hierarchy further includes a configuration module 306 and a copy module 307, wherein:

the configuration module 306 is configured to configure a system level corresponding to the primary system according to a system construction algorithm after the determination module 301 determines the architecture component and the subset function module that need to be deleted, and before the reconstruction module 303 performs a system reconstruction operation on the primary system according to the determined architecture component and the subset function module that need to be deleted, so as to obtain a secondary system.

And a re-engraving module 307, configured to re-engrave the primary system constructed by the re-engraving construction module 302 to obtain re-engraving system data.

The method for obtaining the secondary system by the reconfiguration module 303 executing the system reconfiguration operation on the primary system according to the determined architecture components and subset functional modules to be deleted includes the following specific operations:

according to the determined architecture components and subset functional modules to be deleted, performing system reconstruction operation on the re-engraving system data re-engraved by the re-engraving module 307 to obtain a reconstruction system;

Therefore, by implementing the construction device of the network province hierarchical 5G communication management system described in fig. 4, the secondary system is obtained by reconstructing in a way of repeated data carving, and the system hierarchy of the secondary system is further configured intelligently, so that the hierarchical management and control function of the system is realized, and the accuracy of the subsequent construction of the target system is improved.

In another optional embodiment, the method for constructing the target system for managing and controlling the primary system and the secondary system by the construction module 302 according to the system construction algorithm, the primary system and the secondary system specifically includes the following operations:

when the verification result shows that the data interaction between the primary system and the secondary system has interaction abnormity, analyzing abnormal data corresponding to the interaction abnormity to obtain an abnormity analysis report;

Therefore, by implementing the construction device of the provincial network hierarchical 5G communication management system described in fig. 4, before the target system is constructed, the interaction function between the constructed primary system and the constructed secondary system can be verified intelligently, which is beneficial to improving the operational reliability of the finally constructed target system; and when the interaction abnormity exists between the primary system and the secondary system, the interaction abnormity reason is self-adaptively analyzed to obtain an abnormity analysis report and abnormal data is automatically processed, so that the occurrence of the condition that the target system is in operation error due to the interaction abnormity exists between the primary system and the secondary system is reduced, and the operation reliability of the target system is improved to a certain extent.

In another optional embodiment, the apparatus for constructing a 5G communication management system of a step of the previous, further include the operation and maintenance test module 308, analysis module 309, wherein:

and the operation and maintenance testing module 308 is configured to, after the building module 302 builds a target system for controlling the primary system and the secondary system according to the system building algorithm, the primary system and the secondary system, execute an operation and maintenance testing operation on the built target system according to a preset operation and maintenance safety model to obtain an operation and maintenance testing result, where the operation and maintenance testing operation is used to test the operational reliability of the target system, and the operation and maintenance testing operation includes at least one of an error reporting rate of internal data of the system during the operation of the primary system, an error reporting rate of internal data of the system during the operation of the secondary system, and an error reporting rate of data when the primary system and the secondary system perform data interaction.

The determining module 301 is further configured to determine that the target system is a qualified system when the operation and maintenance test result indicates that the operation and maintenance error rate corresponding to the target system is lower than or equal to the preset fault-tolerant threshold, so as to serve as a standby system when performing 5G communication resource management.

The determining module 301 is further configured to determine that the target system is a non-qualified system when the operation and maintenance test result indicates that the operation and maintenance error rate corresponding to the target system is higher than a preset fault tolerance threshold.

The analysis module 309 is configured to analyze the operation and maintenance test result obtained by the operation and maintenance test module 308 to obtain an operation and maintenance error report sheet, where the operation and maintenance error report sheet includes a high-frequency error report point corresponding to the commissioning and maintenance of the target system and an error report reason of the high-frequency error report point, and the operation and maintenance error report sheet is used as auxiliary data when a system with the function consistent with that of the target system is subsequently constructed.

Therefore, the implementation of the device for constructing the provincial-network-level 5G communication management system described in fig. 4 realizes the automatic operation and maintenance test of the performance of the constructed target system based on the operation and maintenance security model, and improves the screening efficiency of the screening qualified system; the corresponding operation and maintenance fault reporting work order can be generated for the non-qualified system and used as reference data for subsequent processing of the non-qualified system, so that the processing efficiency of processing the non-qualified system is improved; and the operation and maintenance test operation is adopted to further verify the operation feasibility of the target system, so that the probability that the finally constructed system is a qualified system is improved.

In yet another alternative embodiment, the target system includes a primary system and a secondary system, the primary system includes a provincial system, the secondary system includes a network system, and a system level corresponding to the primary system is higher than a system level corresponding to the secondary system, wherein:

Example four

Referring to fig. 5, fig. 5 is a schematic structural diagram of a device for constructing another hierarchic 5G communication management system according to an embodiment of the present invention. As shown in fig. 5, the apparatus for constructing the 5G communication management system of the cybercoin hierarchy may include:

a memory 401 storing executable program code;

a processor 402 coupled to a memory 401;

the processor 402 calls the executable program code stored in the memory 401 to execute the steps in the method for constructing the 5G communication management system of the provincial level described in the first embodiment or the second embodiment of the invention.

EXAMPLE five

The embodiment of the invention discloses a computer storage medium, which stores computer instructions, and the computer instructions are used for executing steps in the construction method of the provincial network hierarchical 5G communication management system described in the first embodiment or the second embodiment of the invention when being called.

EXAMPLE six

The embodiment of the invention discloses a computer program product, which comprises a non-transitory computer storage medium storing a computer program, wherein the computer program is operable to make a computer execute the steps in the construction method of the provincial level 5G communication management system described in the first embodiment or the second embodiment.

The above-described embodiments of the apparatus are merely illustrative, and the modules described as separate components may or may not be physically separate, and the components shown as modules may or may not be physical modules, may be located in one place, or may be distributed on a plurality of network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Through the above detailed description of the embodiments, those skilled in the art will clearly understand that the embodiments may be implemented by software plus a necessary general hardware platform, and may also be implemented by hardware. Based on such understanding, the above technical solutions may be embodied in the form of a software product, which may be stored in a computer storage medium, wherein the storage medium includes a Read-Only Memory (ROM), a Random Access Memory (RAM), a Programmable Read-Only Memory (PROM), an Erasable Programmable Read-Only Memory (EPROM), a One-time Programmable Read-Only Memory (OTPROM), an Electrically Erasable Programmable Read-Only Memory (EEPROM), a Compact Disc-Read-Only Memory (CD-ROM) or other magnetic disk, a magnetic tape Memory, a magnetic tape, a magnetic disk, a, Or any other medium which can be used to carry or store data and which can be read by a computer.

Finally, it should be noted that: the method and apparatus for constructing a 5G communication management system for cyber provincial level disclosed in the embodiments of the present invention are only disclosed as preferred embodiments of the present invention, and are only used for illustrating the technical solutions of the present invention, not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art; the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

1. A construction method of a 5G communication management system of a network province level is characterized by comprising the following steps:

2. The method of claim 1, wherein before determining the subset function module corresponding to each of the primary architecture types and determining the architecture interworking protocol between each of the primary architecture types, the method further comprises:

3. The method of claim 2, wherein after determining the inter-fabric interworking protocol between each of the first-level fabric types, the method further comprises:

determining a framework-module intercommunication protocol between the subset function module corresponding to each primary framework type and the primary framework type according to the system construction algorithm, wherein the framework-module intercommunication protocol is used for realizing data interaction between a single framework type and the subset function module controlled by the framework type;

4. The method according to any one of claims 1 to 3, wherein after determining the architecture components and the subset functional modules that need to be deleted according to the system construction algorithm, and before performing system reconfiguration operation on the primary system according to the determined architecture components and the subset functional modules that need to be deleted to obtain the secondary system, the method further comprises:

5. The method according to claim 4, wherein the step of constructing a target system for managing the primary system and the secondary system according to the system construction algorithm, the primary system and the secondary system comprises:

6. The method for constructing a 5G communication management system according to any one of claims 1 to 5, wherein after constructing the target system for managing the primary system and the secondary system according to the system construction algorithm, the primary system and the secondary system, the method further comprises:

when the operation and maintenance test result shows that the operation and maintenance error rate corresponding to the target system is lower than or equal to a preset fault-tolerant threshold, determining the target system as a qualified system, and taking the target system as a standby system when performing 5G communication resource management;

7. The method according to any one of claims 1 to 6, wherein the target system comprises the primary system and the secondary system, the primary system comprises a provincial system, the secondary system comprises a cyber-level system, and the system level of the primary system is higher than the system level of the secondary system, and wherein:

8. An apparatus for constructing a 5G communication management system of a cybercoin hierarchy, the apparatus comprising:

the building module is used for building and obtaining a plurality of first-level architecture components corresponding to the first-level architecture types according to the subset function module corresponding to each first-level architecture type, and building an initial system architecture according to an architecture intercommunication protocol between each first-level architecture type and all the first-level architecture components;

the building module is further configured to perform a preset system building operation on the initial system architecture according to the intercommunication relationship between each subset function module and the system building algorithm, so as to obtain a primary system corresponding to the primary system architecture, where the primary system is configured to manage and control all the primary architecture components;

9. An apparatus for constructing a 5G communication management system of a cybercoin hierarchy, the apparatus comprising:

a memory storing executable program code;

a processor coupled with the memory;

the processor calls the executable program code stored in the memory to execute the construction method of the network province hierarchical 5G communication management system according to any one of claims 1 to 7.

10. A computer storage medium storing computer instructions for executing the method of constructing a 5G communication management system of a cybercoin hierarchy according to any one of claims 1 to 7 when the computer instructions are called.