CN113973047B - Information display method, device, equipment and storage medium - Google Patents

Abstract

The application discloses an information display method, which comprises the following steps: acquiring service information of a network slice corresponding to a 5G Network Function Virtualization (NFV) architecture of a fifth generation mobile communication technology and guarantee information in a communication network process realized by the NFV architecture; determining information to be displayed based on the service information and the guarantee information; wherein the information to be displayed comprises the service information and the guarantee information; and determining a target association relation based on the service information and the guarantee information, and displaying the information to be displayed based on the target association relation, so that cross-layer related information in the network slice, such as the service information and the guarantee information, are associated, and the associated related information is displayed, and the operation process of fault positioning based on the service information and the guarantee information is simplified. The application also provides an information display device, equipment and a storage medium.

Description

Information display method, device, equipment and storage medium

Technical Field

The present disclosure relates to the field of communications technologies, and in particular, to an information display method, an apparatus, a device, and a storage medium.

Background

Currently, as the fifth Generation mobile communication technology (5 th Generation mobile networks, or 5th Generation wireless systems, or 5th-Generation,5G, or 5G technology) moves from the verification phase towards commercial deployment applications, 5G communication networks are favored by users with their strong advantages such as high data transfer rates, low response delays, etc. In existing 5G communication networks, network slicing is an important core capability for its implementation. The operators construct special, virtualized and isolated logic networks on a general physical platform according to the requirements of different clients on the network through network slicing.

However, with the explosive growth of data and the introduction of functions such as network function virtualization (Network Functions Virtualization, NFV)/software defined network (Software Defined Network, SDN), a 5G network has a brand new design in architecture, function, deployment platform and operation and maintenance modes, and in particular, a three-layer decoupling-based service network architecture provides higher requirements for the reliability of the whole system. Based on the reliability of the whole system, the network slice can be divided into 6 layers in the longitudinal direction, and the network slice comprises the following components in sequence from top to bottom: the business client layer, the client application layer (also called as a slicing business layer), the slicing instance layer, the network element layer, the virtual layer and the physical layer, and the 6 layers have no correlation relationship between related information such as business information and guarantee information, so that the cross-layer fault positioning process is complex. Therefore, how to correlate the cross-layer related information, such as service information and guarantee information, in the network slice and present the service information and the guarantee information to the user becomes an urgent problem to be solved.

Content of the application

In order to solve the technical problems, the application expects to provide an information display method, device, equipment and storage medium, solves the problem that no effective correlation is currently performed on cross-layer related information such as service information and guarantee information in a network slice, realizes the correlation of the cross-layer related information such as the service information and the guarantee information in the network slice, displays the correlated related information, and simplifies the operation process of fault location based on the service information and the guarantee information.

The technical scheme of the application is realized as follows:

in a first aspect, a method for displaying information, the method comprising:

acquiring service information of a network slice corresponding to a 5G Network Function Virtualization (NFV) architecture of a fifth generation mobile communication technology and guarantee information in the process of realizing a communication network by the 5G NFV architecture;

determining information to be displayed based on the service information and the guarantee information; wherein the information to be displayed comprises the service information and the guarantee information;

and determining a target association relation based on the service information and the guarantee information, and displaying the information to be displayed based on the target association relation.

Optionally, the obtaining the service information of the network slice corresponding to the 5G network function virtualization NFV architecture of the fifth generation mobile communication technology and the guarantee information in the process of implementing the communication network by the 5G NFV architecture includes:

acquiring the service information through a first management module of the 5G NFV architecture; the first management module is used for managing the network slice corresponding to the 5G NFV architecture;

acquiring the guarantee information through a second management module of the 5G NFV architecture; the second management module is configured to manage a device that implements a communication network process in the 5G NFV architecture, where the device that implements a communication network process in the 5G NFV architecture includes a network element, a virtual machine, and a physical machine in the 5G NFV architecture.

Optionally, the determining, based on the service information and the guarantee information, information to be displayed includes:

classifying the service information to obtain a classified service information set;

classifying the guarantee information to obtain a classified guarantee information set; the information to be displayed comprises the service information set and the guarantee information set;

Correspondingly, determining a target association relationship based on the service information and the guarantee information, and displaying the information to be displayed based on the target association relationship, including:

the business information set and the guarantee information set are associated to obtain the target association relation;

and displaying the service information set and the guarantee information set based on the target association relation.

Optionally, the service information includes first service client identification information, first slice service identification information and first slice instance identification information of the target network slice, and the classifying the service information to obtain a classified service information set includes:

counting industry client information corresponding to the first industry client identification information to obtain an industry client set;

classifying slicing services corresponding to the first slicing service identification information based on second industry customer identification information included in the first slicing service identification information to obtain a slicing service set; wherein the first industry customer identification information includes the second industry customer identification information;

classifying the first slicing instance identification information based on second slicing service identification information included in the first slicing instance identification information to obtain a slicing instance set; the first slice service identification information comprises the second slice service identification information, and the service information set comprises the industry client set, the slice service set and the slice instance set.

Optionally, the guarantee information includes: the method for classifying the guarantee information to obtain a classified guarantee information set includes the steps of:

classifying the network elements corresponding to the first network element identification information based on second slice instance identification information included in the first network element identification information, and determining a network element set; wherein the first slice instance identification information includes the second slice instance identification information;

classifying the first alarm information based on second network element identification information included in the first alarm information to obtain a first alarm set; wherein the first network element identification information includes the second network element identification information;

classifying the second alarm information based on third network element identification information included in the second alarm information to obtain a second alarm set; wherein the first network element identification information includes the third network element identification information;

classifying the third alarm information based on fourth network element identification information included in the third alarm information to obtain a third alarm set; the first network element identification information comprises the fourth network element identification information, and the guarantee information set comprises the network element set, the first alarm set, the first identification information, the second alarm set and the third alarm set.

Optionally, the associating the service information set with the guarantee information set to obtain the target association relationship includes:

determining a first correspondence between industry clients in the industry client set and slicing services in the slicing service set based on the second industry client identification information;

determining a second corresponding relation between the slice service in the slice service set and the slice instance in the slice instance set based on the second slice service identification information;

determining a third correspondence between a slice instance in the set of slice instances and a network element in the set of network elements based on the second slice instance identification information;

determining a fourth corresponding relation between the network elements in the network element set and the alarm information in the first alarm set based on the second network element identification information;

determining a fifth corresponding relation between network elements in the network element set and virtual machines corresponding to the first identification information based on the third network element identification information;

based on the fourth network element identification information, determining a sixth corresponding relation between the network elements in the network element set and the physical machines corresponding to the second identification information;

Determining a seventh corresponding relation between the virtual machine corresponding to the first identification information and the alarm information in the second alarm set;

determining an eighth corresponding relation between the physical machine corresponding to the second identification information and the alarm information in the third alarm set; the target association relationship includes the first correspondence, a second correspondence, a third correspondence, a fourth correspondence, a fifth correspondence, a sixth correspondence, a seventh correspondence, and an eighth correspondence.

Optionally, the displaying the service information set and the guarantee information set based on the target association relationship includes:

displaying the industry client set;

if a first operation aiming at a target industry client in the industry client set is received, determining a slicing service corresponding to the identification information of the target industry client from the slicing service set based on the first corresponding relation, obtaining a target slicing service set, and displaying the target slicing service set;

if a second operation aiming at a target slice service in the target slice service set is received, determining a slice instance corresponding to the identification information of the target slice service from the slice instance set based on the second corresponding relation, obtaining a target slice instance set, and displaying the target slice instance set;

If a third operation aiming at the target instance in the target slice instance set is received, acquiring at least one target network element corresponding to the identification information of the target instance from the network element set based on the third corresponding relation;

based on a network element preset communication link relation and the at least one target network element, generating a network element topological graph corresponding to the target instance, and displaying the network element topological graph;

determining first target alarm information corresponding to the network element identification information of the at least one target network element from the first alarm set based on the fourth corresponding relation, and displaying the first target alarm information;

and if a fourth operation aiming at the first target sub-network element in the network element topological graph is received, determining sub-alarm information corresponding to the network element identification information of the first target sub-network element from the first alarm set based on the fourth corresponding relation, and displaying the sub-alarm information.

Optionally, after determining, based on the fourth correspondence, first target alarm information corresponding to the network element identification information of the at least one target network element from the first alarm set and displaying the first target alarm information, the method further includes:

If a fifth operation aiming at a second target sub-network element in the network element topological graph is received, determining target virtual machine identification information from the first identification information based on the fifth corresponding relation, and determining target physical machine identification information from the second identification information based on the sixth corresponding relation; the fourth operation is different from the fifth operation, the target virtual machine identification information includes network element identification information of the second target subnet element, and the target physical machine identification information includes network element identification information of the second target subnet element;

generating a target relation graph based on the identification information of the second target sub-network element, the target virtual machine identification information and the target physical machine identification information, and displaying the target relation graph; the target relation diagram comprises the second target subnet element, a virtual machine corresponding to the target virtual machine identification information and a physical machine corresponding to the target physical machine identification information;

determining second target alarm information corresponding to the target virtual machine identification information from the second alarm set based on the seventh corresponding relation, and displaying the second target alarm information;

And determining third target alarm information corresponding to the target physical machine identification information from the third alarm set based on the eighth corresponding relation, and displaying the third target alarm information.

Optionally, after determining, based on the eighth correspondence, third target alarm information corresponding to the target physical machine identification information from the third alarm set and displaying the third target alarm information, the method further includes:

if a sixth operation aiming at the target virtual machine in the target relation diagram is received, acquiring the alarm information of the target virtual machine from the second target alarm information, displaying the target virtual machine in a first display mode, and displaying the alarm information of the target virtual machine in a second display mode;

and/or if a seventh operation for the target physical machine in the target relation diagram is received, acquiring the alarm information of the target physical machine from the third target alarm information, displaying the target physical machine in a third display mode, and displaying the alarm information of the target physical machine in a fourth display mode.

In a second aspect, an information display apparatus, the apparatus comprising: an acquisition unit and a determination unit; wherein:

The acquiring unit is used for acquiring service information of a network slice corresponding to a 5G Network Function Virtualization (NFV) architecture of a fifth generation mobile communication technology and guarantee information in the process of realizing a communication network by the 5G NFV architecture;

the determining unit is used for determining information to be displayed based on the service information and the guarantee information; wherein the information to be displayed comprises the service information and the guarantee information;

the determining unit is used for determining a target association relation based on the service information and the guarantee information and displaying the information to be displayed based on the target association relation.

In a third aspect, an information display device includes a memory, a processor, and a communication bus; wherein:

the communication bus is used for realizing communication connection between the processor and the memory;

the processor is configured to perform the steps of the information display method according to any one of the above.

In a third aspect, a storage medium stores one or more programs executable by one or more processors to implement the steps of the information display method as set forth in any one of the preceding claims.

According to the information display method, device, equipment and storage medium, after the service information of the network corresponding to the 5G NFV architecture and the guarantee information of the network element included in the 5G NFV architecture are obtained, the service information and the guarantee information are counted and correlated, the information to be displayed including the service information and the guarantee information is obtained, and the information to be displayed is displayed. In this way, the acquired two independent and uncorrelated business information and guarantee information are counted and correlated, and the corresponding business information and guarantee information are displayed based on the determined target association relationship, so that the problem that cross-layer related information such as business information and guarantee information in a network slice is not effectively correlated at present is solved, the cross-layer related information such as business information and guarantee information in the network slice is correlated, the correlated related information is displayed, and the operation process of fault location based on the business information and the guarantee information is simplified.

Drawings

Fig. 1 is a schematic structural diagram of a 5G NFV architecture according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a network slice management architecture according to an embodiment of the present application;

Fig. 3 is a flow chart of an information display method according to an embodiment of the present application;

fig. 4 is a flow chart of another information display method according to an embodiment of the present application;

fig. 5 is an application scenario schematic diagram of an information display method provided in an embodiment of the present application;

fig. 6 is an application scenario schematic diagram of another information display method provided in the embodiment of the present application;

fig. 7 is a schematic structural diagram of an information display device according to an embodiment of the present application;

fig. 8 is a schematic structural diagram of an information display device according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

For a better understanding of the embodiments of the present application, first, related art will be described.

The 5G NFV architecture may be as shown in fig. 1, including: an operation support system (Operation Support Systems, OSS), an operation maintenance center (Operation and Maintenance Center, OMC), a virtualized network element (Virtualised Network Fuction, VNF), a virtualized platform (Hypervisor), a hardware system, an NFV Orchestrator (NFVO), a virtualized network element Management (VNF Management, VNFM), and a virtual resource Management (Virtualized Infrastructure Manager, VIM), wherein the hardware system includes a switch/firewall, a memory, a server, and the like, and the VIM further includes physical resource Management (Physical Infrastructure Manager, PIM). In some application scenarios, NFVO, VNFM, and VIM may be combined into a MANO system, not shown in fig. 1. Wherein:

The OSS is used for being responsible for the communication quality and the inspection and management of the operation of the whole network, recording and collecting various data in the operation of the whole network, connecting wires are arranged between the OSS and all devices in the whole network, and monitoring and controlling are carried out on all the devices.

OMC, which is used to realize the management functions of fault, performance and configuration of physical network element and virtual network element application layer, report the alarm, configuration and performance data of VNF application layer to the present network OSS and the operation and maintenance system NFVO+ through the northbound interface, and can cooperate with VNM to realize the life cycle management of virtual network element.

NFVO for implementing management of network services, and implementing management of virtual network function lifecycle and uniform scheduling of resources across resource pools through VNFM and VIM.

The VNFM is configured to implement life cycle management of a VNF, including management and processing of a VNF Description (VNFD), initialization of a VNF instance, expansion/contraction of the VNF, and termination of the VNF instance. And supporting an elastic expansion strategy for receiving the NFVO+ issue, and realizing the elastic expansion of the VNF.

And the VIM is used for being responsible for management, monitoring and fault reporting of infrastructure layer hardware resources and providing a virtualized resource pool for the upper layer VNM and NFVO+, and can also provide a virtual machine mirror image management function.

The network slice management architecture may be as shown in fig. 2, including: NSMF, network slice subnet management function (Network Slice Subnet Management Function, NSSMF), NFVO, OMC, and core network elements. Wherein:

an interface between NSSMF and OMC for NSSMF to issue network slice related service configuration to network functions (Network Functions, NF) contained in the slice subnetwork. NSSMF completes the NF configuration function through OMC. Meanwhile, the interface is also used for reporting performance, alarm and resource data to NSSMF through OMC by NF contained in the slicing subnet.

The interface between NSSMF and NFVO is used for calling the management capability of the network service of NFVO and realizing the life cycle management and FCAPS monitoring of the resource part of the slicing subnet. The interface supports uploading, enabling, disabling, updating, querying and deleting of network shared disks (Network Sharing Disk, NSD), instantiation of a Name Server (NS), capacity expansion, updating, querying and terminating, NS alarm management and performance management and the like by adopting the definition of an OS_Ma_nvfo interface of the NFVO in the ETSI NFV SOL005 standard.

An embodiment of the present application provides an information display method, referring to fig. 3, the method being applied to an information display apparatus, the method including the steps of:

Step 101, acquiring service information of a network slice corresponding to a 5G network function virtualization NFV system architecture of a fifth generation mobile communication technology and guarantee information in a communication network process of the 5G NFV system architecture.

In the embodiment of the application, the network slicing is an on-demand networking implementation manner, so that operators can separate a plurality of virtual end-to-end networks on a unified infrastructure, and each network slicing is logically isolated from a wireless access network, a bearing network and a core network to adapt to various types of applications. In one network slice, the method can be divided into at least three parts of a wireless network sub-slice, a bearing network sub-slice and a core network sub-slice. The service information mainly comprises related information of the service provided by the network slice, including objects using the service, service contents and the like. The guarantee information refers to some guarantee data of the network when providing the service, and can be resource data, alarm data, performance data and the like.

Since the network slice can be divided into 6 layers of a physical layer, a virtual layer, a VNF layer, a slice instance, a slice service and an industry client in the longitudinal direction, wherein the physical layer, the virtual layer and the VNF layer can be divided into a lower network structure, and the slice instance, the slice service and the industry client are divided into an upper network structure; the corresponding service information mainly belongs to the data information of the upper layer, and the guarantee information mainly belongs to the data information of the lower layer.

Step 102, determining information to be displayed based on the service information and the guarantee information.

The information to be displayed comprises service information and guarantee information.

In the embodiment of the application, the information display device analyzes and processes the acquired service information and the acquired guarantee information to obtain the information to be displayed. For example, the service information and the guarantee information are statistically classified, so that information to be displayed which can be displayed to a user is obtained.

And step 103, determining a target association relation based on the service information and the guarantee information, and displaying the information to be displayed based on the target association relation.

In the embodiment of the application, the information display device analyzes the interrelation between the service information and the guarantee information to determine the target association relationship, and then associates the service information and the guarantee information based on the target association relationship so as to realize the display process of the information to be displayed. Therefore, the information between the upper layer and the lower layer is associated, the information to be displayed is displayed based on the target association relation, and a user can intuitively analyze the information to be displayed according to the displayed information to determine the fault position.

According to the information display method, after the service information of the network corresponding to the 5G NFV architecture and the guarantee information of the network element included in the 5G NFV architecture are obtained, statistics and association are carried out on the service information and the guarantee information, information to be displayed including the service information and the guarantee information is obtained, and the information to be displayed is displayed. In this way, the acquired two independent and uncorrelated business information and guarantee information are counted and correlated, and the corresponding business information and guarantee information are displayed based on the determined target association relationship, so that the problem that cross-layer related information such as business information and guarantee information in a network slice is not effectively correlated at present is solved, the cross-layer related information such as business information and guarantee information in the network slice is correlated, the correlated related information is displayed, and the operation process of fault location based on the business information and the guarantee information is simplified.

Based on the foregoing embodiments, embodiments of the present application provide an information display method, as shown in fig. 4, to which the method is applied, the method including the steps of:

step 201, acquiring service information of a network slice corresponding to a 5G network function virtualization NFV architecture of a fifth generation mobile communication technology and guarantee information in a communication network process of the 5G NFV architecture.

In other embodiments of the present application, step 201 may be implemented by steps 201 a-201 b:

step 201a, obtaining service information through a first management module of a 5G NFV architecture.

The first management module is used for managing the network slices corresponding to the 5G NFV architecture.

In an embodiment of the application, the first management module comprises at least one network slice management function (Network Slice Management Function, NSMF). In the 5G NFV architecture, service information may be obtained from NSMF of each vendor. The service information may include at least the following: at least one industry customer identification information, at least one Single network slice selection assistance information (Single-Network Slice Selection Assistance Information, S-nsai) identification, and at least one network slice instance (Network Slice Instance, NSI) identification, wherein the S-nsai identification may also be referred to as slice service identification information, and the NSI identification may also be referred to as slice instance identification information.

Step 201b, acquiring the guarantee information through a second management module of the 5G NFV architecture.

The second management module is used for managing equipment of the 5G NFV system architecture for realizing the communication network process, and the equipment of the 5G NFV system architecture for realizing the communication network process comprises network elements, virtual machines and physical machines in the 5G NFV system architecture.

In an embodiment of the present application, the second management module includes at least one of the following modules: virtual resource management system VIM, operation maintenance center OMC, network function virtualization orchestrator NFVO. The information display device may obtain the guarantee information for guaranteeing the operation of the communication network from at least any one of the modules of the virtual resource management system VIM, the operation maintenance center OMC, and the network function virtualization orchestrator NFVO. In some application scenarios, the information display device may obtain the provisioning information from OMC and NFVO, and in some application scenarios, the information display device may obtain the provisioning information from OMC and VIM. The security information mainly related to the network element is obtained from the OMC, and the security information mainly related to the virtual layer and the physical layer is obtained from the VIM or the NFVO. The provisioning data includes at least the following: resource data and alert data.

Step 202, determining information to be displayed based on the service information and the guarantee information.

The information to be displayed comprises service information and guarantee information.

In other embodiments of the present application, step 202 may be implemented by steps 202 a-202 b:

and 202a, classifying the service information to obtain a classified service information set.

In the embodiment of the application, the business information is classified, and the classification of the at least one industry client identification information is not needed; for the S-NSSAI identification, classifying the at least one S-NSSAI identification according to at least one industry customer identification information; for the NSI identifier, the at least one NSI identifier may be categorized according to the at least one S-nsai identifier, thereby obtaining a service information set. Wherein, the service information set at least comprises one of the following subsets: a subset of identification information for industry customers, a subset of identification classifications for S-nsai, and a subset of identification classifications for NSI. For example, the service information set may be denoted as a= { A1, A2, A3}, where A1 represents a subset corresponding to industry customer identification information, A2 represents a subset corresponding to S-nsai identification classification, and A3 represents a subset corresponding to NSI identification classification. Wherein subsets may also be included in A2 and A3. It should be noted that, in some application scenarios, A2 and A3 may both be empty sets, or A3 is an empty set.

And 202b, classifying the guarantee information to obtain a classified guarantee information set.

The information to be displayed comprises a service information set and a guarantee information set.

In the embodiment of the application, all collected guarantee information can be classified according to the relation between each network element identification information and sub-slice instance identification, the relation between each network element identification information and virtual machine related information, and the relation between each network element identification information and physical machine related information, so as to obtain a guarantee information set. For example, the set of security information may be denoted as b= { B1, B2, B3}, where B1 represents a subset corresponding to the network element, B2 represents a subset corresponding to the related information of the virtual machine, and B3 represents a subset corresponding to the related information of the physical machine. Wherein, B1, B2 and B3 can also comprise subsets. It should be noted that, in some application scenarios, B1, B2, and B3 may all be empty sets, or B2 and B3 may be empty sets, or B3 may be empty sets.

And 203, determining a target association relation based on the service information and the guarantee information, and displaying the information to be displayed based on the target association relation.

In other embodiments of the present application, step 203 may be implemented by steps 203 a-203 b:

And 203a, associating the service information set and the guarantee information set to obtain a target association relation.

In the embodiment of the application, the business information set A and the guarantee information set B are associated according to corresponding association points to obtain a target association relationship.

And 203b, displaying the service information set and the guarantee information set based on the target association relation.

The information to be displayed comprises a service information set and a guarantee information combination.

In the embodiment of the application, the aggregate content with the association relationship in the service information aggregate and the guarantee information aggregate is displayed according to the obtained target association relationship, so that the upper-layer data information and the lower-layer data information can be intuitively displayed to a user, the user can be, for example, a network management technician, and the network management technician can quickly find out the problem of the fault position and solve the problem of the fault.

It should be noted that, in this embodiment, the descriptions of the same steps and the same content as those in other embodiments may refer to the descriptions in other embodiments, and are not repeated here.

According to the information display method, after the service information of the network corresponding to the 5G NFV architecture and the guarantee information of the network element included in the 5G NFV architecture are obtained, statistics and association are carried out on the service information and the guarantee information, information to be displayed including the service information and the guarantee information is obtained, and the information to be displayed is displayed. In this way, the acquired two independent and uncorrelated business information and guarantee information are counted and correlated, and the corresponding business information and guarantee information are displayed based on the determined target association relationship, so that the problem that cross-layer related information such as business information and guarantee information in a network slice is not effectively correlated at present is solved, the cross-layer related information such as business information and guarantee information in the network slice is correlated, the correlated related information is displayed, and the operation process of fault location based on the business information and the guarantee information is simplified.

Based on the foregoing embodiments, embodiments of the present application provide an information display method, which is applied to an information display apparatus, the method including the steps of:

step 301, obtaining service information through a first management module of the 5G NFV architecture.

The first management module is used for managing the network slices corresponding to the 5G NFV architecture.

In the embodiment of the present application, it is assumed that the information display apparatus acquires service information from different NSMF provided by each manufacturer: industry customer identification information, slice service identification information, and slice instance identification information. The NSMF is used for managing the network in the network slice, and can acquire industry customer identification information, slice service identification information and slice instance identification information from the corresponding network element. These information may be stored in the NSMF from which it was obtained when the information display device needed the information; or when the NSMF collects the information, the NSMF directly sends the information to the information display device.

And 302, acquiring the guarantee information through a second management module of the 5G NFV architecture.

The second management module is used for managing equipment of the 5G NFV system architecture for realizing the communication network process, and the equipment of the 5G NFV system architecture for realizing the communication network process comprises network elements, virtual machines and physical machines in the 5G NFV system architecture.

In the embodiment of the present application, it is assumed that the 5G NFV architecture acquires the guarantee information from OMC and NFVO, where the guarantee information includes: the method comprises the steps of identifying information and first alarm information of a network element included in a target network slice, identifying information and second alarm information of a virtual machine included in the target network slice, and identifying information and third alarm information of a physical machine included in the target network slice.

And 303, classifying the service information to obtain a classified service information set.

The service information comprises first service client identification information, first slice service identification information and first slice instance identification information of the target network slice.

In other embodiments of the present application, step 303 may be implemented by steps 303 a-303 c:

step 303a, counting the industry client information corresponding to the first industry client identification information to obtain an industry client set.

In this embodiment of the present application, the first industry client identification information refers to a set of identification information of industry clients using a communication network in the target network slice, and an industry client may refer to, for example, a client in a company or a certain industry unit, and the corresponding first industry client identification information is identification information for identifying each industry client. For example, assuming that the target network slice currently includes 3 industry clients, namely, a power grid industry, a postal industry and a common industry, the corresponding obtained first industry client identification information includes C, D and E, wherein C is industry client identification information corresponding to the power grid industry, D is industry client identification information corresponding to the postal industry, and E is industry client identification information corresponding to the common industry. When the industry client opens the sub-slice in the target network slice, the industry client identification information of the industry client is reported on the OMC side. Thus, the resulting industry customer set may be denoted { grid industry, postal industry, common industry }.

Step 303b, classifying the slicing service corresponding to the first slicing service identification information based on the second industry customer identification information included in the first slicing service identification information, so as to obtain a slicing service set.

Wherein the first industry customer identification information includes second industry customer identification information.

In the embodiment of the application, the first slicing service identification information refers to specific service information identification information, and different service information can be opened for different industry clients. Classifying the slicing service corresponding to the first slicing service identification information according to each industry client identification information in the second industry client identification information to obtain a slicing service set, namely classifying the slicing service identification information with the same industry client identification information into one type, so as to obtain the slicing service set.

For example, two services are opened for the power grid industry, for example, smart meter guarantee and smart electric charge payment, and the first slice service identification information of the two corresponding services can be marked as C-B1 and C-B2, wherein C-B1 is slice service identification information of the smart meter guarantee, and C-B2 is slice service identification information of the smart electric charge payment. When the first slicing service identification information C-B1 and C-B2 are classified, the first slicing service identification information is provided with the industry customer identification information C, so that the C-B1 and the C-B2 can be classified into one type, and the intelligent ammeter guarantee and the intelligent electric charge payment are classified into one type. The slice service set may be denoted as { (smart meter guarantee, smart electric charge payment), (D1, D2, D3), (E1, E2, E3) }. Wherein, (smart meter guarantee, smart electric charge payment) is a sub-set of slice services corresponding to the power grid industry, (D1, D2, D3) is a sub-set of slice services corresponding to the postal industry, and (E1, E2, E3) is a sub-set of slice services corresponding to the common industry, and the number of set elements in each sub-set is determined by the actual application scenario, which is only exemplified here.

Step 303c, classifying the first slice instance identification information based on the second slice service identification information included in the first slice instance identification information, so as to obtain a slice instance set.

The first slice service identification information comprises second slice service identification information, and the service information set comprises an industry client set, a slice service set and a slice instance set.

In the embodiment of the present application, the first slice instance identification information is identification information of a slice instance corresponding to each slice service, and the first slice instance identification information is classified according to each slice identification information in the second slice service identification information, that is, the first slice instance identification information with the same slice identification information is classified into one type, so as to obtain a slice instance set.

For example, two slicing examples are included in the smart meter guarantee service, for example, the smart meter guarantee for the north power grid and the smart meter guarantee for the south power grid, and the corresponding first slicing example identification information can be marked as B1-m1 and B1-m2, wherein B1-m1 is the slicing example identification information for the smart meter guarantee for the north power grid, and B1-m2 is the slicing example identification information for the smart meter guarantee for the south power grid. When B1-m1 and B1-m2 are classified, as the B1 identification information is provided, the B1-m1 and the B1-m2 can be classified, and thus, the security of the intelligent electric meter of the northern power grid and the security of the intelligent electric meter of the southern power grid can be classified. The corresponding set of slice instances may be denoted as { { { (north grid smart meter guarantee, (B21, B22, B23) }, { (D11, D12, D13), (D21 ), (D31, D32) }, { (E11, E12), (E21, E23), (E31, E32) }. The (northern electric network smart meter guarantee, southern electric network smart meter guarantee) is a real example set of slices corresponding to the smart electric meter guarantee, (B21, B22, B23) is a real example set of slices corresponding to the smart electric charge payment, (D11, D12, D13) is a real example set of slices corresponding to D1, (D21 ) is a real example set of slices corresponding to D2, (D31, D32) is a real example set of slices corresponding to D3, (E11, E12) is a real example set of slices corresponding to E1, (E21, E23) is a real example set of slices corresponding to E2, (E31, E32) is a real example set of slices corresponding to E3, and the number of set elements in each subset is determined by the actual application scenario, which is only exemplified here.

And step 304, classifying the guarantee information to obtain a classified guarantee information set.

The information to be displayed comprises a service information set and a guarantee information set.

Wherein, the guarantee information includes: the target network slice comprises first network element identification information and first alarm information of a network element, first identification information and second alarm information of a virtual machine, and second identification information and third alarm information of a physical machine.

In other embodiments of the present application, step 304 may be implemented by the following steps 304 a-304 d:

step 304a, classifying the network elements corresponding to the first network element identification information based on the second slice instance identification information included in the first network element identification information, and determining a network element set.

Wherein the first slice instance identification information comprises second slice instance identification information.

In the embodiment of the present application, since different network elements are used to carry different slice instances, the network element information having the same slice instance identification information in the first network element identification information may be categorized, so as to obtain a network element set.

Step 304b, classifying the first alarm information based on the second network element identification information included in the first alarm information, so as to obtain a first alarm set.

Wherein the first network element identification information comprises second network element identification information.

In the embodiment of the application, the first alarm information is classified based on the second network element identification information, so that all alarm information corresponding to each network element can be determined.

Step 304c, classifying the second alarm information based on the third network element identification information included in the second alarm information, so as to obtain a second alarm set.

Wherein the first network element identification information comprises third network element identification information.

In the embodiment of the application, the second alarm information is classified based on the third network element identification information included in the second alarm information, and the alarm information of the corresponding virtual machine under each network element is determined, wherein each alarm information in the second alarm information has a one-to-one correspondence with each virtual machine. Each virtual machine may include a plurality of pieces of alert information.

And step 304d, classifying the third alarm information based on the fourth network element identification information included in the third alarm information to obtain a third alarm set.

The first network element identification information comprises fourth network element identification information, and the guarantee information set comprises a network element set, a first alarm set, first identification information, second identification information, a second alarm set and a third alarm set.

In the embodiment of the application, the third alarm information is classified based on the fourth network element identification information included in the third alarm information, and the alarm information of the corresponding physical machine under each network element is determined, wherein each alarm information in the third alarm information has a one-to-one correspondence with each physical machine. Each physical machine may include a plurality of pieces of alert information.

It should be noted that, the sets included in the service information set and the guarantee information set may be stored and represented in a list or the like, in addition to being stored in a set form.

And step 305, associating the business information set and the guarantee information set to obtain a target association relation.

In other embodiments of the present application, step 305 may be implemented by steps 305 a-305 h:

step 305a, determining a first correspondence between an industry client in the industry client set and a sliced service in the sliced service set based on the second industry client identification information.

In the embodiment of the present application, since the second industry client identification information belongs to the first industry client identification information, the industry clients in the slicing service set and the industry clients in the industry client set having the same industry client identification information may be associated, so as to obtain the first correspondence. Wherein the set of sliced services comprises at least a subset of the set of sliced services and the set of industry clients comprises at least one industry client.

Step 305b, determining a second correspondence between the slice service in the slice service set and the slice instance in the slice instance set based on the second slice service identification information.

In the embodiment of the present application, since the second slice service identification information belongs to the first slice service identification information, slice services having the same slice service identification information in the slice service set in the slice instance set may be associated, so as to obtain the second correspondence. Wherein the set of slice services comprises at least one subset of the set of slice services and the set of slice instances comprises at least one set of slice instances.

Step 305c, determining a third correspondence between the slice instance in the set of slice instances and the network element in the set of network elements based on the second slice instance identification information.

In the embodiment of the present application, since the second slice instance identification information belongs to the first slice instance identification information, slice instances in the network element set, which have the same slice instance identification information as the slice instance set, may be associated, so as to obtain the third correspondence. Wherein the set of slice instances comprises at least one set of slice instances, and the set of network elements comprises at least one network element.

Step 305d, determining a fourth correspondence between the network elements in the network element set and the alarm information in the first alarm set based on the second network element identification information.

In the embodiment of the application, the network elements with the same network element identification information in the first alarm set and the network element set are associated, so that a fourth corresponding relation is obtained. The first alarm set comprises at least one alarm information subset corresponding to the network element.

Step 305e, determining a fifth correspondence between the network elements in the network element set and the virtual machines corresponding to the first identification information based on the third network element identification information.

In the embodiment of the present application, from the first identification information, the network element identification information included in the identification information of each virtual machine is determined to be the same as the network element identification information of the network elements in the network element set, so as to obtain a fifth corresponding relationship.

Step 305f, determining a sixth correspondence between the network elements in the network element set and the physical machines corresponding to the second identification information based on the fourth network element identification information.

In the embodiment of the present application, from the second identification information, the network element identification information included in the identification information of each physical machine is determined to be the same as the network element identification information of the network elements in the network element set, so as to obtain a sixth corresponding relationship.

Step 305g, determining a seventh correspondence between the virtual machine corresponding to the first identification information and the alarm information in the second alarm set.

In the embodiment of the present application, since each alarm information in the second alarm set includes the identification information of the virtual machine, the virtual machine corresponding to the same virtual machine identification information may be determined from the first identification information, so as to obtain the seventh corresponding relationship.

Step 305h, determining an eighth correspondence between the physical machine corresponding to the second identification information and the alarm information in the third alarm set.

In the embodiment of the present application, since the identification information of the physical machine included in each alarm information in the third alarm set, the physical machine corresponding to the identification information having the same physical machine may be determined from the second identification information, so as to obtain the eighth corresponding relationship.

The target association relationship includes a first correspondence relationship, a second correspondence relationship, a third correspondence relationship, a fourth correspondence relationship, a fifth correspondence relationship, a sixth correspondence relationship, a seventh correspondence relationship, and an eighth correspondence relationship.

And 306, displaying the business information set and the guarantee information set based on the target association relation.

The information to be displayed comprises a service information set and a guarantee information combination.

In other embodiments of the present application, step 306 may be implemented by steps 306 a-306 g:

step 306a, displaying the industry client set.

In the embodiment of the application, when the information to be displayed is displayed, all industry client sets are directly displayed on a display screen of the information display device, and particularly can be displayed in a list mode.

Step 306b, if a first operation for the target industry client in the industry client set is received, determining a slice service corresponding to the identification information of the target industry client from the slice service set based on the first correspondence, obtaining a target slice service set, and displaying the target slice service set.

In the embodiment of the application, the target industry client is an industry client object for a user to perform a first operation. If the information display device receives a first operation, such as a single click or double click, of a certain industry client in the currently displayed industry client set by a user, the information display device obtains all slice service set information corresponding to the identification information of the target industry client based on the first corresponding relation, and displays the target slice service set in a display area where the information display device displays the slice service information. When the target cut service set is displayed, the target cut service set can be displayed in a list mode.

If the information display device does not receive the first operation of the user on any industry client in the currently displayed industry client set, the information display device does not execute the subsequent related operation.

Step 306c, if a second operation for the target slice service in the target slice service set is received, determining a slice instance corresponding to the identification information of the target slice service from the slice instance set based on the second correspondence, obtaining the target slice instance set, and displaying the target slice instance set.

In the embodiment of the present application, the target slice service is a slice service object for performing the second operation on the target slice service set by the user. And if the information display equipment receives a second operation which is sent by the user and aims at the target slicing service in the currently displayed target slicing service set, the information display equipment determines a real slicing example set corresponding to the target slicing service based on a second corresponding relation to obtain a target slicing example set, and the information display equipment displays the target slicing example set in a display area of the target slicing example set. The second operation is a single click or double click operation.

If the user does not perform the second operation on the currently displayed target slice service set, the information display device does not perform subsequent related operations.

Step 306d, if a third operation for the target instance in the target slice instance set is received, at least one target network element corresponding to the identification information of the target instance is obtained from the network element set based on the third correspondence.

In the embodiment of the application, the target instance is a slice instance object of the third operation performed by the user on the target slice instance set. If the information display device receives a third operation aiming at the target instance in the target slice instance set, the information display device acquires at least one target network element corresponding to the identification information of the target instance from the network element set based on the third corresponding relation.

If the information display device does not receive the third operation of the user on the target instance in the target slice instance set, the subsequent operation is not executed.

Step 306e, generating a network element topological graph corresponding to the target instance based on the network element preset communication link relation and at least one target network element, and displaying the network element topological graph.

In this embodiment of the present application, the preset communication link relationship of the network elements is a network element link topology diagram about mutual communication links between network elements, or a relationship table about mutual link relationships between network elements, which is stored in the information display device in advance. Therefore, based on the determined at least one target network element, the network element topological graph corresponding to the target instance can be obtained according to the preset communication link relation of the network element, and the information display device can display the network element topological graph in the network element topological graph display area.

Illustratively, the obtaining, based on the third correspondence, at least one target network element corresponding to the identification information of the target instance from the network element set includes: policy control functions (Policy Control function, PCF), unified data management functions (Unified Data Management, UDM), network element data warehouse functions (NF Repository Function, NRF), user plane functions (User plane Function, UPF), network slice selection functions (Network SliceSelection Function, NSSF), process management functions (Session Management Function, SMF) and access and mobility management functions (Access and Mobility Management Function, AMF), the corresponding resulting network element topology map may be as shown in fig. 5.

Step 306f, determining first target alarm information corresponding to the network element identification information of at least one target network element from the first alarm set based on the fourth correspondence, and displaying the first target alarm information.

In the embodiment of the application, the information display device determines, based on the fourth correspondence, first target alarm information corresponding to the network element identification information of at least one target network element from the first alarm set, and displays the first target alarm information in a display area of the alarm information corresponding to the network element displayed by the information display device. The display area of the alarm information corresponding to the network element displayed by the information display device and the display area of the network element topological graph displayed by the information display device can be the same area, so that in order to facilitate a user to view the information of the corresponding network element, the network element topological graph can be displayed in a first area of the display area, the first target alarm information can be displayed in a second area of the display area, and the first area and the second area are not overlapped. Specifically, as shown in fig. 5, F1 is a first area for displaying a network element topology map, F2 is a second area for displaying first target alarm information, and the sizes of the corresponding first area and second area may be automatically adjusted according to the content of the display, or may be a fixed size.

Step 306g, if a fourth operation for the first target sub-network element in the network element topology graph is received, determining sub-alarm information corresponding to the network element identification information of the first target sub-network element from the first alarm set based on the fourth corresponding relation, and displaying the sub-alarm information.

In the embodiment of the present application, the first target subnet element is a network element object for performing the fourth operation on the network element topology map by the user. If the information display device does not receive the fourth operation for the first target subnet element in the network element topology map, the information display device does not execute step 306g.

In other embodiments of the present application, after the information display apparatus performs step 306f, steps 306h to 306k may also be performed:

step 306h, if a fifth operation for the second target subnet element in the network element topology graph is received, determining the target virtual machine identification information from the first identification information based on the fifth corresponding relationship, and determining the target physical machine identification information from the second identification information based on the sixth corresponding relationship.

The fourth operation is different from the fifth operation, the target virtual machine identification information includes network element identification information of the second target subnet element, and the target physical machine identification information includes network element identification information of the second target subnet element.

In the embodiment of the present application, for example, if the fourth operation is a click operation, the fifth operation is an operation other than the click operation. If the information display device does not receive the fifth operation for the second target subnet element, the subsequent related operation is not executed.

Step 306i, generating a target relationship graph and displaying the target relationship graph based on the identification information of the second target subnet element, the identification information of the target virtual machine and the identification information of the target physical machine.

The target relation diagram comprises a second target subnet element, a virtual machine corresponding to the target virtual machine identification information and a physical machine corresponding to the target physical machine identification information.

In this embodiment of the present invention, since the connection relationship among the network element, the virtual machine, and the physical machine is generally fixed, the identification information of the second target subnet element, the identification information of the target virtual machine, and the identification information of the target physical machine are generated based on the identification information of the second target subnet element, the identification information of the target virtual machine, and the identification information of the target physical machine, and then the network element icon, the virtual machine icon, and the physical machine icon are connected according to the default communication connection relationship among the three, so as to obtain the target relationship graph, and the target relationship graph is displayed in the display area corresponding to the information display device.

And 306j, determining second target alarm information corresponding to the target virtual machine identification information from the second alarm set based on the seventh corresponding relation, and displaying the second target alarm information.

And 306k, determining third target alarm information corresponding to the target physical machine identification information from the third alarm set based on the eighth corresponding relation, and displaying the third target alarm information.

In the embodiment of the present application, the second target alert information and the third target alert information may be displayed on the same display page as the target relationship diagram. Exemplary, as shown in fig. 6, a target relationship diagram is shown, where G1 is a first target subnet element icon, G2 is a virtual machine icon, G3 is a physical machine icon, and G4 is a second target alarm information and a third target alarm information display area.

It should be noted that the execution sequence between the step 306g and the steps 306i to 306k, or whether to execute the step 306g and the steps 306i to 306k is specifically determined by the actual application scenario, i.e. the operation of the user, and is not limited in any way.

In other embodiments of the present application, after the information display apparatus performs step 306k, steps 306l to 306m may also be performed:

step 306l, if a sixth operation for the target virtual machine in the target relationship diagram is received, acquiring the alarm information of the target virtual machine from the second target alarm information, displaying the target virtual machine in the first display mode, and displaying the alarm information of the target virtual machine in the second display mode.

And 306m, if a seventh operation aiming at the target physical machine in the target relation diagram is received, acquiring the alarm information of the target physical machine from the third target alarm information, displaying the target physical machine in a third display mode, and displaying the alarm information of the target physical machine in a fourth display mode.

In this embodiment of the present application, the first display mode and the third display mode include a highlighting display mode and/or an amplifying display mode, and the second display mode and the fourth display mode include one of the following display modes: highlighting mode, enlarging mode and newly created window mode.

It should be noted that, in this embodiment, the descriptions of the same steps and the same content as those in other embodiments may refer to the descriptions in other embodiments, and are not repeated here.

According to the information display method, after the service information of the network corresponding to the 5G NFV architecture and the guarantee information of the network element included in the 5G NFV architecture are obtained, statistics and association are carried out on the service information and the guarantee information, information to be displayed including the service information and the guarantee information is obtained, and the information to be displayed is displayed. In this way, the acquired two independent and uncorrelated business information and guarantee information are counted and correlated, and the corresponding business information and guarantee information are displayed based on the determined target association relationship, so that the problem that cross-layer related information such as business information and guarantee information in a network slice is not effectively correlated at present is solved, the cross-layer related information such as business information and guarantee information in the network slice is correlated, the correlated related information is displayed, and the operation process of fault location based on the business information and the guarantee information is simplified.

Based on the foregoing embodiments, embodiments of the present application provide an information display device that may be applied to the information display methods provided in fig. 3 to 4 and the foregoing embodiments, and referring to fig. 7, the information display device 4 may include: an acquisition unit 41 and a determination unit 42; wherein:

an obtaining unit 41, configured to obtain service information of a network slice corresponding to a 5G network function virtualization NFV architecture of a fifth generation mobile communication technology and guarantee information in a process of implementing a communication network by using the 5G NFV architecture;

a determining unit 42 for determining information to be displayed based on the service information and the guarantee information; the information to be displayed comprises service information and guarantee information;

and a determining unit 42 for determining a target association relationship based on the service information and the guarantee information, and displaying the information to be displayed based on the target association relationship.

In other embodiments of the present application, the acquiring unit includes: the device comprises a first acquisition module and a second acquisition module; wherein:

the first acquisition module is used for acquiring service information through a first management module of the 5G NFV system architecture; the first management module is used for managing the network slices corresponding to the 5G NFV architecture;

The second acquisition module is used for acquiring the guarantee information through a second management module of the 5G NFV system architecture; the second management module is used for managing equipment of the 5G NFV system architecture for realizing the communication network process, and the equipment of the 5G NFV system architecture for realizing the communication network process comprises network elements, virtual machines and physical machines in the 5G NFV system architecture.

In other embodiments of the present application, the determining unit includes: a classifying module; wherein:

the classifying module is used for classifying the service information to obtain a classified service information set;

the classifying module is also used for classifying the guarantee information to obtain a classified guarantee information set; the information to be displayed comprises a service information set and a guarantee information set;

in other embodiments of the present application, the determining unit further includes: the system comprises an association module and a display module; wherein:

the association module is used for associating the service information set and the guarantee information set to obtain a target association relation;

and the display module is used for displaying the business information set and the guarantee information set based on the target association relation.

In other embodiments of the present application, the service information includes first service client identification information, first slice service identification information, and first slice instance identification information of the target network slice, and the classification module is specifically configured to:

Counting industry client information corresponding to the first industry client identification information to obtain an industry client set;

classifying slicing services corresponding to the first slicing service identification information based on second industry customer identification information included in the first slicing service identification information to obtain a slicing service set; wherein the first industry customer identification information includes second industry customer identification information;

classifying the first slicing instance identification information based on second slicing service identification information included in the first slicing instance identification information to obtain a slicing instance set; the first slice service identification information comprises second slice service identification information, and the service information set comprises an industry client set, a slice service set and a slice instance set.

In other embodiments of the present application, the provisioning information includes: the classifying module is further specifically configured to:

classifying the network elements corresponding to the first network element identification information based on second slice instance identification information included in the first network element identification information, and determining a network element set; wherein the first slice instance identification information comprises second slice instance identification information;

Classifying the first alarm information based on second network element identification information included in the first alarm information to obtain a first alarm set; wherein the first network element identification information comprises second network element identification information;

classifying the second alarm information based on third network element identification information included in the second alarm information to obtain a second alarm set; wherein the first network element identification information comprises third network element identification information;

classifying the third alarm information based on fourth network element identification information included in the third alarm information to obtain a third alarm set; the first network element identification information comprises fourth network element identification information, and the guarantee information set comprises a network element set, a first alarm set, first identification information, second identification information, a second alarm set and a third alarm set.

In other embodiments of the present application, the association module is specifically configured to:

determining a first correspondence between an industry client in the industry client set and a slicing service in the slicing service set based on the second industry client identification information;

determining a second corresponding relation between the slice service in the slice service set and the slice instance in the slice instance set based on the second slice service identification information;

Determining a third corresponding relation between the slice instance in the slice instance set and the network element in the network element set based on the second slice instance identification information;

determining a fourth corresponding relation between the network elements in the network element set and the alarm information in the first alarm set based on the second network element identification information;

determining a fifth corresponding relation between the network elements in the network element set and the virtual machines corresponding to the first identification information based on the third network element identification information;

based on the fourth network element identification information, determining a sixth corresponding relation between the network elements in the network element set and the physical machines corresponding to the second identification information;

determining a seventh corresponding relation between the virtual machine corresponding to the first identification information and the alarm information in the second alarm set;

determining an eighth corresponding relation between the physical machine corresponding to the second identification information and the alarm information in the third alarm set; the target association relationship includes a first correspondence relationship, a second correspondence relationship, a third correspondence relationship, a fourth correspondence relationship, a fifth correspondence relationship, a sixth correspondence relationship, a seventh correspondence relationship, and an eighth correspondence relationship.

In other embodiments of the present application, the display module is specifically configured to:

displaying an industry client set;

If a first operation aiming at a target industry client in the industry client set is received, determining a slice service corresponding to the identification information of the target industry client from the slice service set based on a first corresponding relation, obtaining a target slice service set, and displaying the target slice service set;

if a second operation aiming at the target slicing service in the target slicing service set is received, determining a slicing instance corresponding to the identification information of the target slicing service from the slicing instance set based on a second corresponding relation, obtaining the target slicing instance set, and displaying the target slicing instance set;

if a third operation aiming at the target instance in the target slice instance set is received, acquiring at least one target network element corresponding to the identification information of the target instance from the network element set based on a third corresponding relation;

based on a network element preset communication link relation and at least one target network element, generating a network element topological graph corresponding to the target instance, and displaying the network element topological graph;

determining first target alarm information corresponding to the network element identification information of at least one target network element from the first alarm set based on the fourth corresponding relation, and displaying the first target alarm information;

If a fourth operation aiming at the first target sub-network element in the network element topological graph is received, sub-alarm information corresponding to the network element identification information of the first target sub-network element is determined from the first alarm set based on the fourth corresponding relation, and the sub-alarm information is displayed.

In other embodiments of the present application, the display module is configured to determine, based on the fourth correspondence, first target alert information corresponding to the network element identification information of at least one target network element from the first alert set, and after displaying the first target alert information, further is configured to:

if a fifth operation aiming at a second target sub-network element in the network element topological graph is received, determining target virtual machine identification information from the first identification information based on a fifth corresponding relation, and determining target physical machine identification information from the second identification information based on a sixth corresponding relation; the fourth operation is different from the fifth operation, the target virtual machine identification information comprises network element identification information of a second target sub-network element, and the target physical machine identification information comprises network element identification information of the second target sub-network element;

generating a target relation graph and displaying the target relation graph based on the second target subnet element identification information, the target virtual machine identification information and the target physical machine identification information; the target relation diagram comprises a second target subnet element, a virtual machine corresponding to the target virtual machine identification information and a physical machine corresponding to the target physical machine identification information;

Determining second target alarm information corresponding to the target virtual machine identification information from the second alarm set based on the seventh corresponding relation, and displaying the second target alarm information;

and determining third target alarm information corresponding to the target physical machine identification information from the third alarm set based on the eighth corresponding relation, and displaying the third target alarm information.

In other embodiments of the present application, the display module is configured to determine, based on the eighth correspondence, third target alert information corresponding to the target physical machine identification information from the third alert set, and after displaying the third target alert information, further is configured to:

if a sixth operation aiming at the target virtual machine in the target relation diagram is received, acquiring the alarm information of the target virtual machine from the second target alarm information, displaying the target virtual machine in a first display mode, and displaying the alarm information of the target virtual machine in a second display mode;

and/or if a seventh operation aiming at the target physical machine in the target relation diagram is received, acquiring the alarm information of the target physical machine from the third target alarm information, displaying the target physical machine in a third display mode, and displaying the alarm information of the target physical machine in a fourth display mode.

It should be noted that, in the specific implementation process of information interaction between units and modules in the information display device in this embodiment, reference may be made to fig. 3 to 4 and the implementation process in the information display method provided in the foregoing embodiment, which is not repeated here.

According to the information display device provided by the embodiment of the application, after the service information of the network corresponding to the 5G NFV architecture and the guarantee information of the network element included in the 5G NFV architecture are obtained, the service information and the guarantee information are counted and correlated, the information to be displayed including the service information and the guarantee information is obtained, and the information to be displayed is displayed. In this way, the acquired two independent and uncorrelated business information and guarantee information are counted and correlated, and the corresponding business information and guarantee information are displayed based on the determined target association relationship, so that the problem that cross-layer related information such as business information and guarantee information in a network slice is not effectively correlated at present is solved, the cross-layer related information such as business information and guarantee information in the network slice is correlated, the correlated related information is displayed, and the operation process of fault location based on the business information and the guarantee information is simplified.

Based on the foregoing embodiments, embodiments of the present application provide an information display apparatus that may be applied to fig. 3 to 4 and the information display method provided by the foregoing embodiments, and referring to fig. 8, the information display apparatus 5 may include: a processor 51, a memory 52 and a communication bus 53, wherein:

a communication bus 53 for implementing a communication connection between the processor 51 and the memory 52;

a processor 51 for executing an information display program stored in the memory 52 to realize the steps of:

acquiring service information of a network slice corresponding to a 5G Network Function Virtualization (NFV) architecture of a fifth generation mobile communication technology and guarantee information in a process of realizing a communication network by the 5G NFV architecture;

determining information to be displayed based on the service information and the guarantee information; the information to be displayed comprises service information and guarantee information;

and determining a target association relation based on the service information and the guarantee information, and displaying the information to be displayed based on the target association relation.

In other embodiments of the present application, the processor executes the steps of obtaining service information of a network slice corresponding to the 5G network function virtualization NFV architecture of the fifth generation mobile communication technology and guarantee information in a process of implementing a communication network by using the 5G NFV architecture, and specifically includes the following steps:

Acquiring service information through a first management module of a 5G NFV system architecture; the first management module is used for managing the network slices corresponding to the 5G NFV architecture;

acquiring guarantee information through a second management module of the 5G NFV system architecture; the second management module is used for managing equipment of the 5G NFV system architecture for realizing the communication network process, and the equipment of the 5G NFV system architecture for realizing the communication network process comprises network elements, virtual machines and physical machines in the 5G NFV system architecture.

In other embodiments of the present application, the processor executing steps determine information to be displayed based on the service information and the guarantee information, and specifically are implemented by the following steps:

classifying the service information to obtain a classified service information set;

classifying the guarantee information to obtain a classified guarantee information set; the information to be displayed comprises a service information set and a guarantee information set;

in other embodiments of the present application, the processor executes the steps of determining a target association relationship based on the service information and the guarantee information, and displaying information to be displayed based on the target association relationship, specifically by the following steps:

associating the business information set and the guarantee information set to obtain a target association relationship;

And displaying the business information set and the guarantee information set based on the target association relation.

In other embodiments of the present application, the service information includes first service client identification information, first slice service identification information, and first slice instance identification information of the target network slice, and the processor performs the steps of classifying the service information to obtain a classified service information set, which is specifically implemented by the following steps:

counting industry client information corresponding to the first industry client identification information to obtain an industry client set;

classifying slicing services corresponding to the first slicing service identification information based on second industry customer identification information included in the first slicing service identification information to obtain a slicing service set; wherein the first industry customer identification information includes second industry customer identification information;

classifying the first slicing instance identification information based on second slicing service identification information included in the first slicing instance identification information to obtain a slicing instance set; the first slice service identification information comprises second slice service identification information, and the service information set comprises an industry client set, a slice service set and a slice instance set.

In other embodiments of the present application, the provisioning information includes: the method comprises the steps that a processor executes steps to classify guarantee information to obtain a classified guarantee information set, wherein the first network element identification information and first alarm information of a network element, the first identification information and second alarm information of a virtual machine, and the second identification information and third alarm information of a physical machine are included in a target network slice, and the method is realized through the following steps:

classifying the network elements corresponding to the first network element identification information based on second slice instance identification information included in the first network element identification information, and determining a network element set; wherein the first slice instance identification information comprises second slice instance identification information;

classifying the first alarm information based on second network element identification information included in the first alarm information to obtain a first alarm set; wherein the first network element identification information comprises second network element identification information;

classifying the second alarm information based on third network element identification information included in the second alarm information to obtain a second alarm set; wherein the first network element identification information comprises third network element identification information;

classifying the third alarm information based on fourth network element identification information included in the third alarm information to obtain a third alarm set; the first network element identification information comprises fourth network element identification information, and the guarantee information set comprises a network element set, a first alarm set, first identification information, second identification information, a second alarm set and a third alarm set.

In other embodiments of the present application, the processor executes the steps of associating the service information set with the guarantee information set to obtain a target association relationship, and specifically implements the following steps:

determining a first correspondence between an industry client in the industry client set and a slicing service in the slicing service set based on the second industry client identification information;

determining a second corresponding relation between the slice service in the slice service set and the slice instance in the slice instance set based on the second slice service identification information;

determining a third corresponding relation between the slice instance in the slice instance set and the network element in the network element set based on the second slice instance identification information;

determining a fourth corresponding relation between the network elements in the network element set and the alarm information in the first alarm set based on the second network element identification information;

determining a fifth corresponding relation between the network elements in the network element set and the virtual machines corresponding to the first identification information based on the third network element identification information;

based on the fourth network element identification information, determining a sixth corresponding relation between the network elements in the network element set and the physical machines corresponding to the second identification information;

determining a seventh corresponding relation between the virtual machine corresponding to the first identification information and the alarm information in the second alarm set;

Determining an eighth corresponding relation between the physical machine corresponding to the second identification information and the alarm information in the third alarm set; the target association relationship includes a first correspondence relationship, a second correspondence relationship, a third correspondence relationship, a fourth correspondence relationship, a fifth correspondence relationship, a sixth correspondence relationship, a seventh correspondence relationship, and an eighth correspondence relationship.

In other embodiments of the present application, the processor executing step displays the service information set and the guarantee information set based on the target association relationship, specifically implemented by the following steps:

displaying an industry client set;

if a first operation aiming at a target industry client in the industry client set is received, determining a slice service corresponding to the identification information of the target industry client from the slice service set based on a first corresponding relation, obtaining a target slice service set, and displaying the target slice service set;

if a second operation aiming at the target slicing service in the target slicing service set is received, determining a slicing instance corresponding to the identification information of the target slicing service from the slicing instance set based on a second corresponding relation, obtaining the target slicing instance set, and displaying the target slicing instance set;

If a third operation aiming at the target instance in the target slice instance set is received, acquiring at least one target network element corresponding to the identification information of the target instance from the network element set based on a third corresponding relation;

based on a network element preset communication link relation and at least one target network element, generating a network element topological graph corresponding to the target instance, and displaying the network element topological graph;

determining first target alarm information corresponding to the network element identification information of at least one target network element from the first alarm set based on the fourth corresponding relation, and displaying the first target alarm information;

if a fourth operation aiming at the first target sub-network element in the network element topological graph is received, sub-alarm information corresponding to the network element identification information of the first target sub-network element is determined from the first alarm set based on the fourth corresponding relation, and the sub-alarm information is displayed.

In other embodiments of the present application, the processor performs the steps of determining, from the first alert set, first target alert information corresponding to the network element identification information of the at least one target network element based on the fourth correspondence, and after displaying the first target alert information, further performing the steps of:

if a fifth operation aiming at a second target sub-network element in the network element topological graph is received, determining target virtual machine identification information from the first identification information based on a fifth corresponding relation, and determining target physical machine identification information from the second identification information based on a sixth corresponding relation; the fourth operation is different from the fifth operation, the target virtual machine identification information comprises network element identification information of a second target sub-network element, and the target physical machine identification information comprises network element identification information of the second target sub-network element;

Generating a target relation graph and displaying the target relation graph based on the identification information of the second target sub-network element, the identification information of the target virtual machine and the identification information of the target physical machine; the target relation diagram comprises a second target subnet element, a virtual machine corresponding to the target virtual machine identification information and a physical machine corresponding to the target physical machine identification information;

determining second target alarm information corresponding to the target virtual machine identification information from the second alarm set based on the seventh corresponding relation, and displaying the second target alarm information;

and determining third target alarm information corresponding to the target physical machine identification information from the third alarm set based on the eighth corresponding relation, and displaying the third target alarm information.

In other embodiments of the present application, the processor executes the steps of determining, from the third alert set, third target alert information corresponding to the target physical machine identification information based on the eighth correspondence, and after displaying the third target alert information, executing the steps of:

if a sixth operation aiming at the target virtual machine in the target relation diagram is received, acquiring the alarm information of the target virtual machine from the second target alarm information, displaying the target virtual machine in a first display mode, and displaying the alarm information of the target virtual machine in a second display mode;

And/or if a seventh operation aiming at the target physical machine in the target relation diagram is received, acquiring the alarm information of the target physical machine from the third target alarm information, displaying the target physical machine in a third display mode, and displaying the alarm information of the target physical machine in a fourth display mode.

It should be noted that, in the specific implementation process of information interaction between components in the information display device in this embodiment, reference may be made to fig. 3 to 4 and the implementation process of the information display method provided in the foregoing embodiment, which is not described herein again.

The information display device provided by the embodiment of the application performs statistics and association on the acquired two independent and unassociated business information and guarantee information, and displays the corresponding business information and guarantee information based on the determined target association relationship, so that the problem that cross-layer related information such as business information and guarantee information in a network slice is not effectively associated at present is solved, the cross-layer related information such as business information and guarantee information in the network slice is associated, the associated related information is displayed, and the operation process of fault location based on the business information and the guarantee information is simplified.

Based on the foregoing embodiments, embodiments of the present application provide a computer-readable storage medium, simply referred to as a storage medium, which stores one or more programs that may be executed by one or more processors to implement the implementation procedures in the information display methods provided with reference to fig. 3 to 4 and the foregoing embodiments, which are not described herein again.

It will be appreciated by those skilled in the art that embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of a hardware embodiment, a software embodiment, or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, magnetic disk storage, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable information display device to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable information display device, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable information display device to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable information display device to cause a series of operational steps to be performed on the computer or other programmable device to produce a computer implemented process such that the instructions which execute on the computer or other programmable device provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The foregoing description is only of the preferred embodiments of the present application and is not intended to limit the scope of the present application.

Claims (11)

1. An information display method, characterized in that the method comprises:

acquiring service information of a network slice corresponding to a 5G Network Function Virtualization (NFV) architecture of a fifth generation mobile communication technology and guarantee information in the process of realizing a communication network by the 5G NFV architecture;

Classifying the service information to obtain a classified service information set;

classifying the guarantee information to obtain a classified guarantee information set;

determining information to be displayed based on the service information set and the guarantee information set; the information to be displayed comprises the service information set and the guarantee information set;

determining a target association relationship based on the service information set and the guarantee information set, and displaying the information to be displayed based on the target association relationship; the service information comprises first service client identification information, first slice service identification information and first slice instance identification information of a target network slice; the service information belongs to the data information of the upper layer of the 5G NFV architecture, and the guarantee information belongs to the data information of the lower layer of the 5G NFV architecture;

the classifying the service information to obtain a classified service information set includes:

counting industry client information corresponding to the first industry client identification information to obtain an industry client set;

classifying slicing services corresponding to the first slicing service identification information based on second industry customer identification information included in the first slicing service identification information to obtain a slicing service set; wherein the first industry customer identification information includes the second industry customer identification information;

Classifying the first slicing instance identification information based on second slicing service identification information included in the first slicing instance identification information to obtain a slicing instance set; the first slice service identification information comprises the second slice service identification information, and the service information set comprises the industry client set, the slice service set and the slice instance set.

2. The method according to claim 1, wherein the obtaining service information of a network slice corresponding to the fifth generation mobile communication technology 5G network function virtualization NFV architecture and guarantee information in the process of implementing a communication network by the NFV architecture includes:

acquiring the service information through a first management module of the 5G NFV architecture; the first management module is used for managing the network slice corresponding to the 5G NFV architecture;

acquiring the guarantee information through a second management module of the 5G NFV architecture; the second management module is configured to manage a device that implements a communication network process in the 5G NFV architecture, where the device that implements a communication network process in the 5G NFV architecture includes a network element, a virtual machine, and a physical machine in the 5G NFV architecture.

3. The method of claim 1, wherein the determining a target association based on the set of business information and the set of provisioning information and displaying the information to be displayed based on the target association comprises:

the business information set and the guarantee information set are associated to obtain the target association relation;

and displaying the service information set and the guarantee information set based on the target association relation.

4. The method of claim 1, wherein the provisioning information comprises: the method for classifying the guarantee information to obtain a classified guarantee information set includes the steps of:

classifying the network elements corresponding to the first network element identification information based on second slice instance identification information included in the first network element identification information, and determining a network element set; wherein the first slice instance identification information includes the second slice instance identification information;

Classifying the first alarm information based on second network element identification information included in the first alarm information to obtain a first alarm set; wherein the first network element identification information includes the second network element identification information;

classifying the second alarm information based on third network element identification information included in the second alarm information to obtain a second alarm set; wherein the first network element identification information includes the third network element identification information;

classifying the third alarm information based on fourth network element identification information included in the third alarm information to obtain a third alarm set; the first network element identification information comprises the fourth network element identification information, and the guarantee information set comprises the network element set, the first alarm set, the first identification information, the second alarm set and the third alarm set.

5. The method of claim 4, wherein associating the set of business information and the set of security information to obtain the target association relationship comprises:

determining a first correspondence between industry clients in the industry client set and slicing services in the slicing service set based on the second industry client identification information;

Determining a second corresponding relation between the slice service in the slice service set and the slice instance in the slice instance set based on the second slice service identification information;

determining a third correspondence between a slice instance in the set of slice instances and a network element in the set of network elements based on the second slice instance identification information;

determining a fourth corresponding relation between the network elements in the network element set and the alarm information in the first alarm set based on the second network element identification information;

determining a fifth corresponding relation between network elements in the network element set and virtual machines corresponding to the first identification information based on the third network element identification information;

based on the fourth network element identification information, determining a sixth corresponding relation between the network elements in the network element set and the physical machines corresponding to the second identification information;

determining a seventh corresponding relation between the virtual machine corresponding to the first identification information and the alarm information in the second alarm set;

determining an eighth corresponding relation between the physical machine corresponding to the second identification information and the alarm information in the third alarm set; the target association relationship includes the first correspondence, a second correspondence, a third correspondence, a fourth correspondence, a fifth correspondence, a sixth correspondence, a seventh correspondence, and an eighth correspondence.

6. The method of claim 5, wherein displaying the set of business information and the set of provisioning information based on the target association relationship comprises:

displaying the industry client set;

if a first operation aiming at a target industry client in the industry client set is received, determining a slicing service corresponding to the identification information of the target industry client from the slicing service set based on the first corresponding relation, obtaining a target slicing service set, and displaying the target slicing service set;

if a second operation aiming at a target slice service in the target slice service set is received, determining a slice instance corresponding to the identification information of the target slice service from the slice instance set based on the second corresponding relation, obtaining a target slice instance set, and displaying the target slice instance set;

if a third operation aiming at the target instance in the target slice instance set is received, acquiring at least one target network element corresponding to the identification information of the target instance from the network element set based on the third corresponding relation;

based on a network element preset communication link relation and the at least one target network element, generating a network element topological graph corresponding to the target instance, and displaying the network element topological graph;

Determining first target alarm information corresponding to the network element identification information of the at least one target network element from the first alarm set based on the fourth corresponding relation, and displaying the first target alarm information;

and if a fourth operation aiming at the first target sub-network element in the network element topological graph is received, determining sub-alarm information corresponding to the network element identification information of the first target sub-network element from the first alarm set based on the fourth corresponding relation, and displaying the sub-alarm information.

7. The method of claim 6, wherein the determining, based on the fourth correspondence, first target alert information corresponding to network element identification information of the at least one target network element from the first alert set, and displaying the first target alert information, the method further comprises:

if a fifth operation aiming at a second target sub-network element in the network element topological graph is received, determining target virtual machine identification information from the first identification information based on the fifth corresponding relation, and determining target physical machine identification information from the second identification information based on the sixth corresponding relation; the fourth operation is different from the fifth operation, the target virtual machine identification information includes network element identification information of the second target subnet element, and the target physical machine identification information includes network element identification information of the second target subnet element;

Generating a target relation graph based on the identification information of the second target sub-network element, the target virtual machine identification information and the target physical machine identification information, and displaying the target relation graph; the target relation diagram comprises the second target subnet element, a virtual machine corresponding to the target virtual machine identification information and a physical machine corresponding to the target physical machine identification information;

determining second target alarm information corresponding to the target virtual machine identification information from the second alarm set based on the seventh corresponding relation, and displaying the second target alarm information;

and determining third target alarm information corresponding to the target physical machine identification information from the third alarm set based on the eighth corresponding relation, and displaying the third target alarm information.

8. The method of claim 7, wherein after determining third target alert information corresponding to the target physical machine identification information from the third alert set based on the eighth correspondence, and displaying the third target alert information, the method further comprises:

if a sixth operation aiming at the target virtual machine in the target relation diagram is received, acquiring the alarm information of the target virtual machine from the second target alarm information, displaying the target virtual machine in a first display mode, and displaying the alarm information of the target virtual machine in a second display mode;

And/or if a seventh operation for the target physical machine in the target relation diagram is received, acquiring the alarm information of the target physical machine from the third target alarm information, displaying the target physical machine in a third display mode, and displaying the alarm information of the target physical machine in a fourth display mode.

9. An information display device, characterized in that the device comprises: an acquisition unit and a determination unit; wherein:

the acquiring unit is used for acquiring service information of a network slice corresponding to a 5G Network Function Virtualization (NFV) architecture of a fifth generation mobile communication technology and guarantee information in the process of realizing a communication network by the 5G NFV architecture;

the determining unit is used for classifying the service information to obtain a classified service information set; classifying the guarantee information to obtain a classified guarantee information set; determining information to be displayed based on the service information set and the guarantee information set; the information to be displayed comprises the service information set and the guarantee information set;

the determining unit is used for determining a target association relation based on the service information set and the guarantee information set and displaying the information to be displayed based on the target association relation; the service information comprises first service client identification information, first slice service identification information and first slice instance identification information of a target network slice; the service information belongs to the data information of the upper layer of the 5G NFV architecture, and the guarantee information belongs to the data information of the lower layer of the 5G NFV architecture;

The determining unit is specifically configured to count industry client information corresponding to the first industry client identification information, so as to obtain an industry client set; classifying slicing services corresponding to the first slicing service identification information based on second industry customer identification information included in the first slicing service identification information to obtain a slicing service set; wherein the first industry customer identification information includes the second industry customer identification information; classifying the first slicing instance identification information based on second slicing service identification information included in the first slicing instance identification information to obtain a slicing instance set; the first slice service identification information comprises the second slice service identification information, and the service information set comprises the industry client set, the slice service set and the slice instance set.

10. An information display device, the device comprising a memory, a processor, and a communication bus; wherein:

the communication bus is used for realizing communication connection between the processor and the memory;

the processor is configured to perform the steps of the information display method according to any one of claims 1 to 8.

11. A storage medium storing one or more programs executable by one or more processors to implement the steps of the information display method of any one of claims 1 to 8.