CN110912772A

CN110912772A - Cloud federal resource geographic visualization method

Info

Publication number: CN110912772A
Application number: CN201911150604.3A
Authority: CN
Inventors: 程家明; 孔繁东; 陈升亮; 曾瑜琪
Original assignee: WUHAN XINGTU XINKE ELECTRONIC CO Ltd
Current assignee: WUHAN XINGTU XINKE ELECTRONIC CO Ltd
Priority date: 2019-11-21
Filing date: 2019-11-21
Publication date: 2020-03-24

Abstract

The invention provides a geographical visualization method of cloud federal resources, which comprises the following steps: marking the geographic position of each cloud node of the cloud federal audio and video fusion platform and the cascade relation among the cloud nodes; constructing a geographical visual image of a cloud federal audio and video fusion platform, and displaying a global operation situation on a map; clicking a certain cloud node icon based on the established geographic visual global operation situation, and checking the comprehensive condition of the cloud nodes; clicking a cascading connection line between cloud nodes, and checking the link details of the two nodes; and directly penetrating the comprehensive situation panel of the cloud node to the specific resource operation details to complete the interactive operation related to the operation and maintenance service. The invention has the beneficial effects that: a large amount of system resources of the cloud federal audio and video platform are displayed in a geographical visualization mode, and a map-based interaction mode is provided, so that operation and maintenance operations for the cloud federal audio and video fusion platform are clearer, simpler and more convenient.

Description

Cloud federal resource geographic visualization method

Technical Field

The invention relates to the technical field of information visualization, in particular to a cloud federal resource geographic visualization method.

Background

With the landing and development of cloud computing and distributed type, more and more servers are transferred to the cloud, the landing of a micro-service architecture also makes the existing IT system architecture more and more complex, and the scale of services and applications is larger and larger. The audio and video fusion platform based on the cloud federation connects and intercommunicates services with single independent audio and video cloud service nodes, so that the service and application scale of the multi-cloud-combined audio and video fusion platform based on the cloud federation are larger, hundreds of cloud nodes are connected in the cloud federation, different cloud nodes are distributed in different regions of the whole country, various resources such as services and equipment in each cloud node need operation and maintenance management and correspond to different management data, the large number of resources and abstract data cannot be clearly, intuitively and completely displayed through a traditional list or tree structure, the data is multiple and complicated, and the interactive operation of the operation and maintenance management process is complicated.

Disclosure of Invention

In view of the above, the invention provides a cloud federation resource geographical visualization method, which is based on the geographical position attribute of each cloud node of an audio and video fusion platform of a cloud federation, constructs the operation and maintenance monitoring information geographical visualization of each resource of the cloud federation, and provides a visual operation and maintenance service exchange mode and entry.

The invention provides a geographical visualization method of cloud federal resources, which utilizes system resources of a cloud federal audio and video fusion platform and comprises the following steps:

marking the geographic position of each cloud node of the cloud federal audio and video fusion platform and the cascade relation among the cloud nodes;

according to the marked geographic position information of each cloud node and the cascade relation information among the cloud nodes, constructing a geographic visual image of the cloud federal audio and video fusion platform, and displaying a global operation situation on a map;

clicking a certain cloud node icon based on the established geographic visual global operation situation, and checking the comprehensive condition of the cloud nodes; clicking a cascading connection line between cloud nodes, and checking the link details of the two nodes; and directly penetrating the comprehensive situation panel of the cloud node to the specific resource operation details to complete the interactive operation related to the operation and maintenance service.

Further, the displaying of the global operation situation comprises: using a multicolor connecting line to represent the network state among all nodes, wherein the network state comprises normal, abnormal and disconnected states; displaying the running health scores of all resources in each node and marking the health state of the node by using different colors; and counting and displaying the running state data of the whole network.

Further, the operation state data includes: node status data, on-demand status data, encoding status data, decoding status data, user status data, and server status data.

Further, the node state data comprises the total number of nodes, the number of nodes working normally and the total number of faults; the on-demand state data comprises an on-demand total number, an on-demand success number and an on-demand failure number; the coding state data comprises the total number of encoders, the online number of the encoders and the offline number of the encoders; the decoding state data comprises the total number of decoders, the online number of decoders and the offline number of decoders; the user state data comprises the total number of terminal users, the online number of the users and the offline number of the users; the server state data includes a total number of servers and a number of server failures.

Further, the total number of faults is counted according to the health degree level of the nodes, the health degree level is 'urgent' when the health state score of the nodes is less than 60 minutes, the health degree level is 'severe' when the health state score of the nodes is 60-80 minutes, the health degree level is 'normal' when the health state score of the nodes is 80-100 minutes, and the total number of the faults in the three health degree levels is counted respectively.

Further, the comprehensive conditions of the cloud nodes comprise node health values, the total number of terminals in the nodes and the online number, the total number of encoders in the nodes and the online number, the total number of decoders in the nodes and the online number, the number of alarms in the nodes, the total number of servers and the number of faults, and the number of on-demand nodes.

Further, the details of the link between the two nodes include current uplink and downlink bandwidths, a packet loss rate, a jitter rate, a service occupation bandwidth, a total bandwidth, an on-demand service occupation bandwidth, a call service occupation bandwidth, and a conference service occupation bandwidth.

Furthermore, based on the established geographic visualization global operation situation, the cloud nodes are arbitrarily dragged on the map, and the purpose of retrieving the corresponding cloud nodes according to the geographic positions of the cloud nodes is achieved.

The technical scheme provided by the invention has the beneficial effects that: a large amount of system resources of the cloud federal audio and video platform are displayed in a geographical visualization mode, and a map-based interaction mode is provided, so that operation and maintenance operations for the cloud federal audio and video fusion platform are clearer, simpler and more convenient.

Drawings

FIG. 1 is a schematic diagram of a cloud federation architecture provided by an embodiment of the present invention;

FIG. 2 is a flow chart of a cloud federated resource geographic visualization method provided by an embodiment of the present invention;

fig. 3 is a schematic diagram of cloud node information obtained by labeling according to an embodiment of the present invention;

fig. 4 is a schematic diagram of geographical visualization of a cloud federal audio/video fusion platform provided in an embodiment of the present invention;

fig. 5 is a schematic diagram of the operation status data information provided by the embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be further described with reference to the accompanying drawings.

Referring to fig. 1, the cloud federation refers to a process of connecting hundreds of distributed cloud nodes to implement data sharing and collaboration among distributed clouds in different domains; different cloud nodes are distributed in different regions throughout the country, and each cloud node and a plurality of service and equipment components form a cloud computing-based business system.

Referring to fig. 2, an embodiment of the present invention provides a cloud federal resource geographic visualization method, which constructs a geographic visualization operation and maintenance platform by using a large amount of system resources of a cloud federal audio/video fusion platform, and includes the following steps:

s1, marking the geographic position and the cascade relation of the cloud nodes: and marking the geographic position of each cloud node of the cloud federal audio and video fusion platform and the cascade relation among the cloud nodes. Specifically, referring to fig. 3, the cloud node information obtained after labeling includes a node identifier, a node name, a node health score, a higher node identifier, and a cascade state between nodes, where the node identifier is a unique identifier of a cloud node and is used as a primary key when visualization is performed; the node name is a cloud node name; the node health score is calculated according to a set health score rule to obtain a health score of the cloud node; the upper node identification represents the upper node identification of the cascade connection of a plurality of cloud nodes; the cascade state among the nodes comprises normal, abnormal and disconnected.

S2, constructing a cloud federal global operation situation based on geographic visualization: and constructing a geographical visual image of the cloud federal audio/video fusion platform according to the geographical position information of each cloud node and the cascade relation information of each cloud node marked in the step S1, and displaying the global operation situation on a map.

Specifically, please refer to fig. 4, which is a geographical visualization image of the cloud federal audio/video fusion platform, where the displaying of the global operation situation includes:

a. the network state (normal/abnormal/disconnected) among the nodes is represented by a multicolor connecting line;

b. displaying the running health scores of all resources in each node and marking the health state of the node by using different colors,

c. referring to fig. 4 and 5, the operation status data of the whole network is counted and displayed, where the operation status data includes: node status data c1, on-demand status data c2, encoded status data c3, decoded status data c4, user status data c5, and server status data c6, wherein:

the node state data c1 includes a node total number, a node number in normal operation, and a fault total number, where the node total number represents a total number of cloud nodes in the whole network, the node number in normal operation represents a number of cloud nodes in the whole network that do not have faults, and the fault total number is counted according to a health level of the node, and preferably, in this embodiment, when the health state score of the node is less than 60 minutes, the health level is "emergency", the health level is "serious" at 60-80 minutes, and the health level is "general" at 80-100 minutes, and the fault total number respectively counts a total number of nodes in the three health levels;

the on-demand state data c2 comprises an on-demand total number, an on-demand success number and an on-demand failure number, wherein the on-demand total number represents the total number of on-demand services initiated in the network, the on-demand success number represents the number of successful on-demand services in the network, and the on-demand failure number represents the number of failed on-demand services in the network;

the encoding state data c3 comprises the total number of encoders, the online number of encoders and the offline number of encoders, wherein the total number of encoders represents the total number of encoders in the whole network, the online number of encoders represents the number of encoders normally connected online in the whole network, and the offline number of encoders represents the number of encoders abnormally disconnected in the whole network;

the decoding state data c4 comprises the total number of decoders, the online number of decoders and the offline number of decoders, wherein the total number of decoders represents the total number of decoders in the whole network, the online number of decoders represents the number of decoders normally connected online in the whole network, and the offline number of decoders represents the number of decoders abnormally disconnected in the whole network;

the user state data c5 includes total number of end users, online number of users, and offline number of users, where the total number of end users represents total number of users in the whole network, the online number of users represents number of users online in the whole network, and the offline number of users represents number of users offline in the whole network;

the server status data c6 includes a total number of servers representing a total number of servers of the whole network and a number of server failures representing a number of servers not connected to the hub.

S3, carrying out operation and maintenance business operation based on the global operation situation of the geographical visualization: based on the global operation situation of the geographical visualization established in step S2, clicking an icon of a certain cloud node, and checking a comprehensive situation of the cloud node, as shown in d in fig. 4, where the comprehensive situation of the cloud node includes a node health value d1, a total number of terminals in the node and an online number d2, a total number of encoders in the node and an online number d3, a total number of decoders in the node and an online number d4, an alarm number d5 in the node, a total number of servers and a fault number d6, and an on-demand number d7 of the node; clicking a cascading connection line between cloud nodes, and checking details of a link between the two nodes, wherein the details comprise current uplink and downlink bandwidths, packet loss rate, jitter rate, service occupation bandwidth, total bandwidth, on-demand service occupation bandwidth, call service occupation bandwidth and conference service occupation bandwidth; through a comprehensive situation panel of the cloud node, please refer to e in fig. 4, the specific resource operation details can be directly penetrated, so as to complete the interactive operation related to the operation and maintenance service; in addition, the map can be dragged at will, so that the corresponding cloud nodes can be conveniently retrieved according to the geographic positions of the cloud nodes.

In this document, the terms front, back, upper and lower are used to define the components in the drawings and the positions of the components relative to each other, and are used for clarity and convenience of the technical solution. It is to be understood that the use of the directional terms should not be taken to limit the scope of the claims.

The features of the embodiments and embodiments described herein above may be combined with each other without conflict.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. A cloud federal resource geographic visualization method utilizes system resources of a cloud federal audio and video fusion platform, and is characterized by comprising the following steps:

2. The cloud federated resource geographic visualization method of claim 1, wherein the display of the global operational situation includes: using a multicolor connecting line to represent the network state among all nodes, wherein the network state comprises normal, abnormal and disconnected states; displaying the running health scores of all resources in each node and marking the health state of the node by using different colors; and counting and displaying the running state data of the whole network.

3. The cloud federated resource geographic visualization method of claim 2, wherein the operational state data includes: node status data, on-demand status data, encoding status data, decoding status data, user status data, and server status data.

4. The cloud federated resource geographic visualization method according to claim 3, wherein the node state data includes a total number of nodes, a number of nodes working normally, a total number of faults; the on-demand state data comprises an on-demand total number, an on-demand success number and an on-demand failure number; the coding state data comprises the total number of encoders, the online number of the encoders and the offline number of the encoders; the decoding state data comprises the total number of decoders, the online number of decoders and the offline number of decoders; the user state data comprises the total number of terminal users, the online number of the users and the offline number of the users; the server state data includes a total number of servers and a number of server failures.

5. The cloud federal resource geographical visualization method as claimed in claim 4, wherein the total number of faults is counted according to the health level of the node, the health level is "urgent" when the health status score of the node is less than 60 minutes, the health level is "severe" when the health status score of the node is 60-80 minutes, the health level is "general" when the health status score of the node is 80-100 minutes, and the total number of faults in the three health levels is counted respectively.

6. The cloud federated resource geographic visualization method according to claim 1, wherein the comprehensive conditions of the cloud nodes include node health values, total number of terminals and online number in the nodes, total number of encoders and online number in the nodes, total number of decoders and online number in the nodes, number of alarms in the nodes, total number of servers and failures, and number of on-demand nodes.

7. The geographical visualization method of cloud federation resources of claim 1, wherein the details of the link between two nodes include current uplink and downlink bandwidth, packet loss rate, jitter rate, traffic occupancy bandwidth, total bandwidth, on-demand traffic occupancy bandwidth, call traffic occupancy bandwidth, and conference traffic occupancy bandwidth.

8. The cloud federal resource geographic visualization method as claimed in claim 1, wherein the cloud node is arbitrarily dragged on the map based on the established global operation situation of the geographic visualization, so as to achieve the purpose of retrieving the corresponding cloud node according to the geographic position of each cloud node.