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Interface generation system, drilling service layer device, data sending method

An interface generation and interface layer technology, applied in transmission systems, electrical components, etc., can solve the problem of not being able to quickly locate the source of the alarm, and achieve the effect of improving efficiency

Active Publication Date: 2022-04-29
ZTE CORP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] The embodiment of the present invention provides an interface generation system, a drilling service layer device, and a data sending method, so as to at least solve the problem in the related art that the source location of the alarm cannot be quickly located

Method used

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  • Interface generation system, drilling service layer device, data sending method
  • Interface generation system, drilling service layer device, data sending method
  • Interface generation system, drilling service layer device, data sending method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0045] An embodiment of the present invention provides an interface generation system, figure 1 is a schematic structural diagram of an interface generation system provided according to an embodiment of the present invention, such as figure 1 As shown, the system includes: database 10, UI interface layer device 12 and drilling service layer device 14;

[0046] The UI interface layer device 12 is used for sending the resource identification ID of the resource node clicked by the user to the drilling service layer device 14, and receiving the data corresponding to the resource ID returned by the drilling service layer device 14, and according to the returned resource ID The UI interface of the corresponding data generation resource node;

[0047] Drilling service layer device 14, for receiving the resource ID that UI interface layer device 12 sends, obtains the data corresponding with resource ID from database 10; And the data corresponding with resource ID that will obtain is ...

Embodiment 2

[0137] The process of locating the root cause of the alarm when the user finds that the VNF sends an alarm of service processing capacity decline, such as Figure 8 , Figure 7 .

[0138] Step 1: The user checks the NS-VNF node relationship diagram and finds that the VNF1 node has an alarm rendering

[0139] Step 2: The user clicks the VNF1 node icon to enter the detailed information page of VNF1, checks the alarm statistics of the node, and finds that VNF1 has issued an alarm of service processing capability degradation. Check the NS-VNF-VDU node relationship diagram, and find that the VUD1 node also has an alarm rendering.

[0140] Step 3: Click the VDU1 node icon to enter the detailed information page of VDU1, check the alarm statistics and find that VDU1 has issued alarms about high CPU and memory usage. Therefore, it can be located that the service processing capability decline of VNF1 is caused by the high memory and CPU usage of one of the virtual machine VDUs runnin...

Embodiment 3

[0142] The user finds that the HOST issues an alarm of high CPU usage, and locates the process of locating the scope of the alarm's impact on the upper-layer business, such as Figure 9 , Figure 7 .

[0143] Step 1: The user checks the alarm statistics of the HOST1 node, and finds that the HOST1 node has issued an alarm of high CPU usage, and checks the VDU-HOST node relationship diagram, and finds that the VDU1 node has an alarm rendering.

[0144] Step 2: The user clicks the VDU1 node icon to enter the detailed information page of the VDU1 node, checks the alarm statistics of the node, and finds that VDU1 also sends an alarm of high CPU usage. Check the VNF-VDU-HOST, VNF-VDU-VNFC node relationship diagram to locate the VDU supporting the operation of those service nodes VNF and VNFC.

[0145] Step 3: Click the VNFC1, VNF1 node icon to enter its detailed information page, and view the performance statistics to analyze whether the VNFC and VNF are due to the increase in bus...

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PUM

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Abstract

The present invention provides an interface generation system, a drilling service layer device, and a data sending method; wherein, the interface generation system includes: a database, a UI interface layer device, and a drilling service layer device; wherein, the UI interface layer device uses To send the resource identification ID of the resource node clicked by the user to the drilling service layer device, and receive the data corresponding to the resource ID returned by the drilling service layer device, and generate the UI interface of the resource node according to the returned data corresponding to the resource ID ; The drill service layer device is used to receive the resource ID sent by the UI interface layer device, and obtain the data corresponding to the resource ID from the database; and send the obtained data corresponding to the resource ID to the UI interface layer device; wherein, with The data corresponding to the resource ID includes: node topology relationship data of resource nodes. The invention solves the problem in the related art that the source location of the alarm cannot be quickly located.

Description

technical field [0001] The invention relates to the field of network function virtualization, in particular to an interface generating system, a drilling service layer device, and a data sending method. Background technique [0002] In recent years, the rapid development of cloud computing and virtualization technology has brought a lot of innovations, but also brought great pressure to operators. Operators are faced with finding new revenue growth points to offset the impact of OTT services. At the same time In order to reduce the operating cost OPEX, through software and hardware decoupling and functional abstraction, the functions of network equipment are no longer dependent on dedicated hardware, and resources can be fully and flexibly shared to achieve rapid development and deployment of new services, and automatic deployment based on actual business needs. Fast business development such as elastic scaling, fault isolation, and self-healing, so it is necessary to solve ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04L41/22H04L41/0677H04L41/0631H04L41/40H04L41/12
CPCH04L41/065H04L41/0677H04L41/22H04L41/12
Inventor 黄健徐代刚刘学生王淼
Owner ZTE CORP