CN115767584A - Core network opening method and device and electronic equipment - Google Patents

Abstract

The present invention relates to the technical field of core networks, and in particular, to a core network provisioning method, apparatus, and electronic device. The core network opening method comprises the following steps: responding to a service template selection instruction, and determining a target core network service template from a plurality of core network service templates; the different core network service templates correspond to network elements and characteristic functions of different industries; deploying network element configuration and parameters of a core network based on the target core network service template; and detecting the service adaptation state based on the deployed core network, and if the service adaptation state is determined to be the successful adaptation state, the core network is successfully opened. The core network provisioning method, the core network provisioning device and the electronic equipment are used for solving the defects of complex core network deployment process, slow service provisioning, network element redundancy and the like in the prior art.

Description

Core network opening method and device and electronic equipment

Technical Field

The present invention relates to the field of core network technologies, and in particular, to a core network provisioning method and apparatus, and an electronic device.

Background

The 5G network gradually evolves from a traditional ToC terminal to a private network facing to a ToB industry client. With the wide application of the 5G private network in the industrial customer market, the core network is also developed from a traditional centralized large network to a diversified deployment form such as a lightweight network sinking to the customer side.

At present, clients in the 5G private network industry are in vertical fields of manufacturing industry, mining, energy transmission, industrial production, transportation, medical health, education and the like. In order to ensure low time delay, high reliability and privacy security of private network data, telecommunication equipment manufacturers develop a traditional centralized deployment of a core network to a full-scale sinking mode and a mode that partial network elements sink to an industry client side. Therefore, the requirements of low time delay, high reliability and privacy safety of industrial customers are met.

The existing core network opening method has the following defects that no matter a mode of sinking the whole amount or sinking part of network elements to the local is adopted, the deployment and the opening of the core network still adopt the traditional unified management mode. The method can not meet the customer requirements to customize the constitution of the network element service, thereby causing the problems of complex core network deployment process, slow service opening, network element redundancy and the like.

Disclosure of Invention

The invention provides a core network opening method, a core network opening device and electronic equipment, which are used for solving the defects of complex core network deployment process, slow service opening, network element redundancy and the like in the prior art.

The invention provides a core network opening method, which comprises the following steps:

responding to a service template selection instruction, and determining a target core network service template from a plurality of core network service templates; the different core network service templates correspond to network elements and characteristic functions of different industries;

deploying network element configuration and parameters of a core network based on the target core network service template;

and detecting the service adaptation state based on the deployed core network, and if the service adaptation state is determined to be the successful adaptation state, the core network is successfully opened.

According to the core network provisioning method provided by the invention, the deploying of the network element configuration and parameters of the core network based on the target core network service template comprises the following steps:

determining the network elements and the characteristic functions of the core network based on the target core network service template;

and determining the network element configuration and parameters and the configuration relation between the network elements based on the characteristic function.

According to the core network opening method provided by the invention, the core network service template comprises a mine service template, and network elements corresponding to the mine service template at least comprise an access and mobility management function network element, a session management function network element, a user plane function network element, an authentication service function network element, a unified data management function network element, a policy control function network element and an IP multimedia subsystem network element; the corresponding characteristic functions of the mine service template at least comprise 4G capability, 5G capability, 4G and 5G interoperation capability, 5G voice capability and dual-machine hot standby capability.

According to the core network opening method provided by the invention, the core network service template comprises a factory service template, and the network elements corresponding to the factory service template at least comprise an access and mobility management function network element, a session management function network element, a user plane function network element, an authentication service function network element, a unified data management function network element, a policy control function network element and a position management function network element; the characteristic functions corresponding to the factory service template at least comprise a 5G local area network function, a time sensitive network function, a positioning function and a dual-computer hot standby capability.

According to the core network opening method provided by the invention, the core network service template comprises a campus service template, and network elements corresponding to the campus service template at least comprise an access and mobility management function network element, a session management function network element, a user plane function network element, an authentication service function network element, a unified data management function network element, a policy control function network element, a network slice selection function network element, a trusted wireless local area network intercommunication function network element and a position management function network element; the characteristic functions corresponding to the park service template at least comprise network slicing capability, 5G + WiFi fusion communication capability and positioning capability.

According to the core network opening method provided by the invention, the core network service template comprises an education service template, and the network elements corresponding to the education service template at least comprise an access and mobility management function network element, a session management function network element, a user plane function network element, an authentication service function network element, a unified data management function network element, a policy control function network element, a network repository function network element, a network slice selection function network element and a network development function network element; the characteristic functions corresponding to the education service template at least comprise network capacity opening capacity.

The invention also provides a core network opening device, which comprises:

the target core network service template selection module is used for responding to a service template selection instruction and determining a target core network service template from a plurality of core network service templates; the different core network service templates correspond to network elements and characteristic functions of different industries;

a network element configuration and parameter deployment module, configured to deploy network element configuration and parameters of a core network based on the target core network service template;

and the detection module is used for detecting the service adaptation state based on the deployed core network, and if the service adaptation state is determined to be the successful adaptation state, the core network is successfully opened.

The invention also provides an electronic device, which comprises a memory, a processor and a computer program which is stored on the memory and can run on the processor, wherein when the processor executes the program, the core network opening method is realized according to any one of the above methods.

The present invention also provides a non-transitory computer-readable storage medium, on which a computer program is stored, which, when executed by a processor, implements the core network provisioning method as described in any of the above.

The present invention also provides a computer program product comprising a computer program, wherein the computer program, when executed by a processor, implements any of the above core network provisioning methods.

According to the core network opening method, the core network opening device and the electronic equipment, a plurality of core network service templates aiming at different industries are arranged, and different core network service templates correspond to network elements and characteristic functions of different industries; and then deploying the network element configuration and parameters of the core network based on the target core network service template determined from the plurality of core network service templates. The embodiment of the invention solves the problem that users in different industries have different requirements on the service capacity of the private network core network, realizes the rapid deployment and the opening of the core network, and provides light-weight core network equipment and 5G network capacity for the users in different industries, thereby realizing the improvement of the deployment efficiency of the core network, the simplification of the service opening process, and the reduction of unnecessary network elements and capacity redundancy.

Drawings

In order to more clearly illustrate the technical solutions of the present invention or the prior art, the drawings needed for the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

Fig. 1 is a schematic flow chart of a core network provisioning method according to the present invention;

fig. 2 is a second schematic flow chart of the core network provisioning method according to the present invention;

fig. 3 is a schematic structural diagram of a core network provisioning apparatus provided in the present invention;

fig. 4 is a schematic structural diagram of an electronic device provided in the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. 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 and fig. 2, a core network provisioning method according to the present invention is described below, where the core network provisioning method according to the embodiment of the present invention includes:

step 100, responding to a service template selection instruction, and determining a target core network service template from a plurality of core network service templates; and different core network service templates correspond to network elements and characteristic functions of different industries.

The electronic equipment receives the input of users in different industries, responds to the service template selection instruction of the user, and determines a target core network service template from a plurality of core network service templates. And different core network service templates correspond to network elements and characteristic functions of different industries. Specifically, users in different industries can select a core network service template on a touch screen, and the finally selected core network service template is a target core network service template.

As the mobile communication is developed into the 5G era, the core network is gradually developed into industry from the traditional personal-oriented service. The requirements of different industries for core networks are very different.

For example, the demand of private networks in the energy mining industry is that core networks support 4, 5G interoperability, voice, 5G data transmission, and high reliability. The demand of the industry for private networks is that a core Network supports a 5G Local Area Network (LAN), 5G positioning, 5G data transmission and high reliability.

Therefore, the embodiment of the invention sets the core network service template facing different industries without function requirements. And different core network service templates correspond to network elements and characteristic functions of different industries. The core network service template of the embodiment of the invention comprises core network service templates of various different industries, such as a mine service template facing the energy mine industry, a factory service template facing the industrial industry, a park service template facing the power industry, an education service template facing the education industry and the like. The core network service templates of different industries have characteristic functions and network elements corresponding to the industries.

The core network is modularly split through different core network service templates, so that the core network with different service capabilities can be rapidly deployed and opened, and the core network opening service with higher economy and timeliness is provided for users in different industries.

And 200, deploying network element configuration and parameters of the core network based on the target core network service template.

And the electronic equipment deploys the network element configuration and parameters of the core network based on the target core network service template. The target core network service template is mapped with network elements and characteristic functions correspondingly. The electronic equipment automatically plans the configuration relation among the network elements based on the network elements and the characteristic functions, and realizes the corresponding characteristic functions.

For example, the requirements of private networks in the mining industry are that the core network support 4, 5G interoperability, voice, 5G data transmission, and high reliability. The mine service template corresponding to the mine industry has the characteristic functions of supporting 4G and 5G interoperations, voice and 5G data transmission and high reliability. And the network element corresponding to the mine service template can correspondingly realize the functions. And the electronic equipment deploys the network element configuration and parameters of the core network based on the mine service template. Therefore, the system supports 4 and 5G interoperation, voice and 5G data transmission and high reliability.

Step 300, detecting a service adaptation state based on the deployed core network, and if the service adaptation state is determined to be an adaptation success state, the core network is successfully opened.

And the electronic equipment detects the service adaptation state based on the deployed core network, and the core network is successfully opened if the service adaptation state is determined to be the successful adaptation state. In other words, the electronic device detects the activation state of the detection device; if the start is normal, reporting the completion of the core network service opening to the network management.

On the other hand, if the core network detects that the service adaptation state is not successfully adapted, the core network fails to open; or the electronic equipment reports the service opening abnormity and the error reporting reason to the network management when the starting state of the detection equipment of the electronic equipment is abnormal.

Setting a plurality of core network service templates aiming at different industries, wherein different core network service templates correspond to network elements and characteristic functions of different industries; and then deploying the network element configuration and parameters of the core network based on the target core network service template determined from the plurality of core network service templates. The embodiment of the invention solves the problem that users in different industries have different requirements on the service capacity of the private network core network, realizes the rapid deployment and the opening of the core network, and provides light-weight core network equipment and 5G network capacity for users in different industries, thereby improving the deployment efficiency of the core network, simplifying the service opening process, and reducing unnecessary network elements and capacity redundancy.

In other aspects of the embodiment of the present invention, the step 200 of deploying the network element configuration and parameters of the core network based on the target core network service template includes:

step 210, determining network elements and characteristic functions of a core network based on the target core network service template;

step 220, determining the network element configuration and parameters based on the characteristic function, and the configuration relationship between the network elements.

The electronic equipment determines the network elements and the characteristic functions of the core network based on the target core network service template; and determining the network element configuration and parameters and the configuration relation between the network elements based on the characteristic function.

For example, when The target core network service template is a mine service template, the network elements corresponding to The mine service template at least include an Access and Mobility Management Function network element (referred to as Access and Mobility Management Function; AMF for short), a Session Management Function network element (referred to as Session Management Function; SMF for short), a User plane Function network element (referred to as UPF for short), an Authentication service Function network element (referred to as The Authentication service Function for short), an Unified Data Management Function network element (referred to as The Unified Data Management Function for short, UDM for short), a Policy Control Function network element (referred to as The Policy Control Function for short, PCF for short), and an IP Multimedia network element Subsystem (IP Multimedia Subsystem)); the corresponding characteristic functions of the mine service template at least comprise 4G capability, 5G capability, 4G and 5G interoperation capability, 5G voice capability and dual-machine hot standby capability. In one embodiment, the characteristic functions of the mine service template further include an N26 interface opening capability and a 5G voice capability, and a hot master/standby capability of the core network. And the electronic equipment determines the network element configuration and parameters and the configuration relation between the network elements based on the characteristic functions.

Specifically, in one embodiment, the network element configuration and parameters for deploying the core network based on the mine service template are as follows:

AMF (access and mobility management function network element) configuration:

n26-supported = "1" (N26 enable switch)

gtpv2c-server-ip =' (gtpv 2c server address)

gtpv2c-server-port = (gtpv 2c server port)

gtpv2c-client-ip =' (gtpv 2c client address)

gtpv2c-client-port =' (gtpv 2c client port)

SMF (Session management function network element) configuration:

n26-supplied = "1" (N26-enabled switch)

gtpv2c-server-ip = "(gtpv 2c as server address) gtpv2c-server-port =" ((gtpv 2c as server port) gtpv2c-client-ip = "((gtpv 2c as client address) gtpv2c-client-port =" "(gtpv 2c as client port) hot master/slave parameters:

AMF \ SMF \ AUSF \ PCF \ UDM network element configuration ha-enable = '1' (ha hot active/standby enable switch)

redis-server-ip = "127.0.0.1" (redis database address) redis-server-port = "26379" (redis database address port) VONR speech (5G speech):

AMF (Access and mobility management function network element) network element configuration: von-supported = "1"

Network element configuration of SMF (Session management function network element) pcscf-ipv4= '192.168.120.51' (pcscf ipv4 address)

pcscf-ipv6= "fe80::54" (pcscf ipv6 address)

PCF (policy control function network element) network element configuration:

n5-switch = "1" (N5 enable switch)

N5-local-client-ip = "(PCF as client address) N5-local-client-port =" (PCF as client port) N5-local-server-ip = "(PCF as server address)

N5-local-server-port =' (PCF as service port)

In another embodiment, when The target core network service template is a factory service template, the network elements corresponding to The factory service template at least include an Access and Mobility Management Function network element (referred to as Access and Mobility Management Function; AMF for short), a Session Management Function network element (referred to as Session Management Function; SMF for short), a User plane Function network element (referred to as User plane Function, UPF for short), an Authentication service Function network element (referred to as Authentication Server Function, AUSF for short), a Unified Data Management Function network element (referred to as UDM for short), a Policy Control Function network element (referred to as Policy Control Function, PCF for short), and a Location Management Function network element (referred to as Location Management Function, LMF for short); the characteristic functions corresponding to the factory service template at least comprise a 5G local area network function, a time sensitive network function, a positioning function and a dual-computer hot standby capability.

Specifically, in an embodiment, the network element configuration and parameters for deploying the core network based on the factory service template are as follows:

5G local area network configuration information:

SMF (Session management function network element) network element configuration:

xml file configuration vngorupinfo (5 GVN group information includes mac: dnmac, vn group name, DNIP address: DNIP, IP type: type), and the like

UDM (user plane function network element) network element configuration:

groupId = "11,12" (internal group id information)

mtcProviderInformation = "mtc" (supported mtc device information)

afInstanceId = "af" (supported af information)

sharedVnGroupDataIds = "111,112" (shared VnGroupData association id information)

ShardedNNConfigurationId = "public, default" (share dnn information in VnGroupData)

snssai-sst = "1" snssai-sd = "sd" (sharing slice information in VnGroupData)

defaultSessiontType = "2" allowedSessiontTypes = "1,3" (sharing pduSessiontType information in VnGroupData)

5G LCS location service:

AMF (Access and mobility management function network element) network element configuration:

LCS-supported = "1" (LCS enables switch)

LMF-service-ip =' (LMF network element service address)

LMF-service-port = (LMF network element service port)

LMF-client-ip =' (LMF network element as client address)

LMF-client-port =' (LMF network element as client port)

GMLC-service-ip =' (GMLC network element as server address)

GMLC-service-port =' (GMLC network element as server address)

GMLC-client-ip =' (GMLC network element as server address)

GMLC-client-port =' (GMLC network element as server address)

5G TSN (time sensitive network function network element) network element related parameters:

SMF (Session management function network element) network element configuration:

TSN-supported = "1" (TSN Enable switch)

PCF (policy control function network element) network element configuration:

n5-switch = "1" (N5 enable switch)

N5-local-client-ip =' (PCF as client address)

N5-local-client-port =' (PCF as client port)

N5-local-server-ip =' (PCF as server address)

N5-local-server-port =' (PCF as service port)

tsn-to-5gs-qos-map = ". Xml/tsn _ to _5gs _qs _ map. Xml" (tsn qs to 5gs qs mapping configuration file)

Hot main standby parameters:

AMF\SMF\AUSF\PCF\UDM:

ha-enable = "1" (ha hot active/standby enable switch)

redis-server-ip = "127.0.0.1" (redis database address)

redis-server-port = "26379" (redis database address port)

In another embodiment, when The target core Network service template is a park service template, the Network elements corresponding to The park service template at least include an Access and Mobility Management Function Network element (referred to as Access and Mobility Management Function, AMF for short), a Session Management Function Network element (referred to as Session Management Function, SMF for short), a User plane Function Network element (referred to as User plane Function, UPF for short), an Authentication service Function Network element (referred to as Authentication service Function, AUSF for short), a Unified Data Management Function Network element (referred to as UDM for short), a Policy Control Function Network element (referred to as Policy Control Function, PCF for short), a Network Slice Selection Function Network element (referred to as Network Slice Selection Function, NSSF for short), a Trusted wireless local area Network Function Network element (referred to as Trusted wireless local area Network Function, WLAN for short), and a Location Management Function (referred to as WLAN if for short); the characteristic functions corresponding to the park service template at least comprise network slicing capability, 5G + WiFi fusion communication capability and positioning capability.

Specifically, in an embodiment, the network element configuration and parameters for deploying the core network based on the campus service template are as follows:

5G LCS location services

AMF (Access and mobility management function network element) network element configuration:

LCS-supported = "1" (LCS enables switch)

LMF-service-ip =' (LMF network element service address)

LMF-service-port =' (LMF network element service port)

LMF-client-ip =' (LMF network element as client address)

LMF-client-port =' (LMF network element as client terminal)

GMLC-service-ip =' (GMLC network element as server address)

GMLC-service-port = (GMLC network element as server address)

GMLC-client-ip =' (GMLC network element as server address)

GMLC-client-port = (GMLC network element as server address)

Network slicing capability:

AMF (Access and mobility management function network element) network element configuration:

n22-http2-client-ip = "173.19.16.12" (N22 interface as client ip address)

N22-http2-client-port = "8009" (N22 interface as client port)

local-NSSF-enabled = "0" (NSSF network element enabled switch)

nssf-http2-server-ip = '173.19.16.12' (nssf server address)

nssf-http2-server-port = "8012" (nssf service port)

In another embodiment, when The target core Network service template is an education service template, the Network elements corresponding to The education service template at least include an Access and Mobility Management Function Network element (full Access and Mobility Management Function, AMF), a Session Management Function Network element (full Session Management Function, SMF), a User plane Function Network element (full User plane Function, UPF), an Authentication service Function Network element (full Authentication Server Function, AUSF), a Unified Data Management Function Network element (full UDM), a Policy Control Function Network element (full Policy Control Function, PCF), a Network Repository Function Network element (full service Function, NRF), a Network Slice Selection Function Network element (full Network Function, NSSF), and a Network development Function Network element (full Network Function, network development Function, network Function); the characteristic functions corresponding to the education service template at least comprise network capacity opening capacity.

Specifically, in one embodiment, the configuration and parameters of the network elements for deploying the core network based on the education service template are as follows:

network slicing capability:

AMF (Access and mobility management function network element) network element configuration:

n22-http2-client-ip = "173.19.16.12" (N22 interface as client ip address)

N22-http2-client-port = "8009" (N22 interface as client port)

local-NSSF-enabled = "0" (NSSF network element enabled switch)

nssf-http2-server-ip = "173.19.16.12" (nssf server address)

nssf-http2-server-port = "8012" (nssf service port)

NRF (network repository function network element) related service configuration

AMF \ SMF \ AUSF \ PCF \ UDM network element configuration:

nf-selection-mode = "1" (service NRF switch)

nf-NRF-ip = "173.19.16.17" (NRF network element ip address)

nf-NRF-port = "8088" (NRF network element port)

The embodiment of the invention aims at different business users with different requirements on the business capability of the private network core network, and determines the network elements and the characteristic functions of the core network based on the target core network business template selected by the specific business user; and determining the network element configuration and parameters and the configuration relation between the network elements based on the characteristic function. The deployment efficiency of the core networks of users in different industries is improved, unnecessary network elements and redundant use of capacity are reduced, and a very simple core network system meeting requirements is provided for the users.

The core network provisioning apparatus provided in the present invention is described below, and the core network provisioning apparatus described below and the core network provisioning method described above may be referred to in correspondence with each other.

Referring to fig. 4, the present invention further provides a core network provisioning apparatus, including:

a target core network service template selection module 201, configured to determine a target core network service template from multiple core network service templates in response to a service template selection instruction; the different core network service templates correspond to network elements and characteristic functions of different industries;

a network element configuration and parameter deployment module 202, configured to deploy network element configuration and parameters of a core network based on the target core network service template;

the detection module 203 is configured to detect a service adaptation state based on the deployed core network, and determine that the service adaptation state is an adaptation success state, and then the core network is successfully opened.

Setting a plurality of core network service templates aiming at different industries, wherein different core network service templates correspond to network elements and characteristic functions of different industries; and then deploying the network element configuration and parameters of the core network based on the target core network service template determined from the plurality of core network service templates. The embodiment of the invention solves the problem that users in different industries have different requirements on the service capacity of the private network core network, realizes the rapid deployment and the opening of the core network, and provides light-weight core network equipment and 5G network capacity for the users in different industries, thereby realizing the improvement of the deployment efficiency of the core network, the simplification of the service opening process, and the reduction of unnecessary network elements and capacity redundancy.

In one embodiment, the network element configuration and parameter deployment module includes:

a network element and characteristic function determining module, configured to determine a network element and a characteristic function of a core network based on the target core network service template;

and the network element configuration module is used for determining the network element configuration and parameters and the configuration relationship among the network elements based on the characteristic function.

In one embodiment, the core network service template includes a mine service template, and the network elements corresponding to the mine service template at least include an access and mobility management function network element, a session management function network element, a user plane function network element, an authentication service function network element, a unified data management function network element, a policy control function network element, and an IP multimedia subsystem network element; the corresponding characteristic functions of the mine service template at least comprise 4G capability, 5G capability, 4G and 5G interoperation capability, 5G voice capability and dual-machine hot standby capability.

In one embodiment, the core network service template includes a factory service template, and the network elements corresponding to the factory service template at least include an access and mobility management function network element, a session management function network element, a user plane function network element, an authentication service function network element, a unified data management function network element, a policy control function network element, and a location management function network element; the characteristic functions corresponding to the factory service template at least comprise a 5G local area network function, a time sensitive network function, a positioning function and a dual-computer hot standby capability.

In one embodiment, the core network service template includes a campus service template, and the network elements corresponding to the campus service template at least include an access and mobility management function network element, a session management function network element, a user plane function network element, an authentication service function network element, a unified data management function network element, a policy control function network element, a network slice selection function network element, a trusted wireless local area network interworking function network element, and a location management function network element; the characteristic functions corresponding to the park service template at least comprise network slicing capability, 5G + WiFi fusion communication capability and positioning capability.

In one embodiment, the core network service template includes an education service template, and the network elements corresponding to the education service template at least include an access and mobility management function network element, a session management function network element, a user plane function network element, an authentication service function network element, a unified data management function network element, a policy control function network element, a network repository function network element, a network slice selection function network element, and a network development function network element; the characteristic functions corresponding to the education service template at least comprise network capacity opening capacity.

Fig. 4 illustrates a physical structure diagram of an electronic device, which may include, as shown in fig. 4: a processor (processor) 410, a communication Interface (Communications Interface) 420, a memory (memory) 430 and a communication bus 440, wherein the processor 410, the communication Interface 420 and the memory 430 are in communication with each other via the communication bus 440. The processor 410 may invoke logic instructions in the memory 430 to perform a core network provisioning method comprising: responding to a service template selection instruction, and determining a target core network service template from a plurality of core network service templates; the different core network service templates correspond to network elements and characteristic functions of different industries; deploying network element configuration and parameters of a core network based on the target core network service template; and detecting the service adaptation state based on the deployed core network, and if the service adaptation state is determined to be the successful adaptation state, the core network is successfully opened.

In addition, the logic instructions in the memory 430 may be implemented in the form of software functional units and stored in a computer readable storage medium when the software functional units are sold or used as independent products. Based on such understanding, the technical solution of the present invention or a part thereof which substantially contributes to the prior art may be embodied in the form of a software product, which is stored in a storage medium and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk, and various media capable of storing program codes.

In another aspect, the present invention also provides a computer program product, where the computer program product includes a computer program, where the computer program is storable on a non-transitory computer readable storage medium, and when the computer program is executed by a processor, a computer can execute the core network provisioning method provided by the foregoing methods, where the method includes: responding to a service template selection instruction, and determining a target core network service template from a plurality of core network service templates; the different core network service templates correspond to network elements and characteristic functions of different industries; deploying network element configuration and parameters of a core network based on the target core network service template; and detecting the service adaptation state based on the deployed core network, and if the service adaptation state is determined to be the successful adaptation state, the core network is successfully opened.

In another aspect, the present invention also provides a non-transitory computer-readable storage medium, on which a computer program is stored, where the computer program is implemented to perform the core network provisioning method provided by the foregoing methods when executed by a processor, and the method includes: responding to a service template selection instruction, and determining a target core network service template from a plurality of core network service templates; the different core network service templates correspond to network elements and characteristic functions of different industries; deploying network element configuration and parameters of a core network based on the target core network service template; and detecting the service adaptation state based on the deployed core network, and if the service adaptation state is determined to be the successful adaptation state, the core network is successfully opened.

The above-described embodiments of the apparatus are merely illustrative, and the units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. 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 description of the embodiments, those skilled in the art will clearly understand that each embodiment can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware. With this understanding in mind, the above-described technical solutions may be embodied in the form of a software product, which can be stored in a computer-readable storage medium such as ROM/RAM, magnetic disk, optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the methods described in the embodiments or some parts of the embodiments.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A core network opening method is characterized by comprising the following steps:

responding to a service template selection instruction, and determining a target core network service template from a plurality of core network service templates; the different core network service templates correspond to network elements and characteristic functions of different industries;

deploying network element configuration and parameters of a core network based on the target core network service template;

and detecting the service adaptation state based on the deployed core network, and if the service adaptation state is determined to be the successful adaptation state, the core network is successfully opened.

2. The core network provisioning method according to claim 1, wherein the deploying of the network element configuration and parameters of the core network based on the target core network service template includes:

determining network elements and characteristic functions of a core network based on the target core network service template;

and determining the configuration and parameters of the network elements and the configuration relation among the network elements based on the characteristic function.

3. The core network opening method according to claim 1, wherein the core network service template comprises a mine service template, and the network elements corresponding to the mine service template at least comprise an access and mobility management function network element, a session management function network element, a user plane function network element, an authentication service function network element, a unified data management function network element, a policy control function network element, and an IP multimedia subsystem network element; the corresponding characteristic functions of the mine service template at least comprise 4G capability, 5G capability, 4G and 5G interoperation capability, 5G voice capability and dual-machine hot standby capability.

4. The core network provisioning method according to claim 1, wherein the core network service template comprises a factory service template, and the network elements corresponding to the factory service template at least comprise an access and mobility management function network element, a session management function network element, a user plane function network element, an authentication service function network element, a unified data management function network element, a policy control function network element, and a location management function network element; the characteristic functions corresponding to the factory service template at least comprise a 5G local area network function, a time sensitive network function, a positioning function and a dual-computer hot standby capability.

5. The core network provisioning method according to claim 1, wherein the core network service template comprises a campus service template, and the network elements corresponding to the campus service template at least include an access and mobility management function network element, a session management function network element, a user plane function network element, an authentication service function network element, a unified data management function network element, a policy control function network element, a network slice selection function network element, a trusted wireless local area network interworking function network element, and a location management function network element; the characteristic functions corresponding to the park service template at least comprise network slicing capability, 5G + WiFi fusion communication capability and positioning capability.

6. The core network provisioning method according to claim 1, wherein the core network service template comprises an education service template, and the network elements corresponding to the education service template at least include an access and mobility management function network element, a session management function network element, a user plane function network element, an authentication service function network element, a unified data management function network element, a policy control function network element, a network repository function network element, a network slice selection function network element, and a network development function network element; the characteristic functions corresponding to the education service template at least comprise network capacity opening capacity.

7. A core network provisioning apparatus, comprising:

the target core network service template selection module is used for responding to a service template selection instruction and determining a target core network service template from a plurality of core network service templates; the different core network service templates correspond to network elements and characteristic functions of different industries;

a network element configuration and parameter deployment module, configured to deploy network element configuration and parameters of a core network based on the target core network service template;

and the detection module is used for detecting the service adaptation state based on the deployed core network, and if the service adaptation state is determined to be the successful adaptation state, the core network is successfully opened.

8. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the core network provisioning method according to any of claims 1 to 6 when executing the program.

9. A non-transitory computer-readable storage medium, having stored thereon a computer program, wherein the computer program, when executed by a processor, implements the core network provisioning method according to any of claims 1 to 6.

10. A computer program product comprising a computer program, wherein the computer program when executed by a processor implements the core network provisioning method as claimed in any of claims 1 to 6.

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