CN115037904A - Converged cloud video conference management platform and conference access method - Google Patents

Abstract

The embodiment of the application belongs to the technical field of cloud, and relates to a converged cloud video conference management platform which comprises a display layer, a system application layer, a service layer and a storage layer, wherein the display layer is used for providing external docking and client processing of the converged cloud video conference management platform; the system application layer is used for respectively butting the display layer and the service layer to realize data interaction of the display layer and the service layer and is also used for connecting a third party application layer; the service layer is a Spring micro-service cluster layer and is used for responding to a cloud video conference service processing request initiated by the self-display layer so as to perform corresponding service processing and simultaneously accessing an external application; the storage layer is used for storing data of other layers of the converged cloud video conference management platform. A conference access method is also provided. According to the scheme, the third-party cloud video SDK is aggregated together in a micro-service mode through the Spring micro-service cluster, adaptation fusion of different cloud video SDKs is realized rapidly, the conference access process is simple, and the development cost is reduced.

Description

Converged cloud video conference management platform and conference access method

Technical Field

The application relates to the technical field of cloud, in particular to a converged cloud video conference management platform and a conference access method.

Background

The remote office is a new working mode for modern enterprises, more traditional audio and video conferences are collected in conference rooms, the audio and video conferences extend to office desktops and mobile environments due to the appearance of the remote office, the video conferences serve as an indispensable ring of the remote office, and the application range of the video conferences is wide, for example, the video conferences cannot be separated from government online communication, school remote teaching, hospital online diagnosis and treatment, enterprise online discussion and the like.

The traditional audio and video conference can not meet the requirements of users for meeting and cooperation anytime and anywhere, the existing cloud video conference providers are more, for example, service providers such as ZOOM, Tencent, Welink, small fish easy connection and the like which currently support the capability of providing the cloud video conference SDK are available, the docking modes of each service provider are different from the standard, the unified industrial standard is lacked, the service providers belong to a single cloud video conference SDK provider, the docking cost is high, the technology is complex, the cost is high, and the like.

How to realize simple, intelligent, efficient, safe and reliable access of cloud video conference SDKs of different suppliers becomes a problem to be solved urgently.

Disclosure of Invention

The embodiment of the application aims to provide a converged cloud video conference management platform to solve the problem that the technology of a fusion cascade process is complex when different cloud video conference SDKs are accessed in the prior art. On the basis, a conference access method is also provided.

In order to solve the above technical problem, an embodiment of the present application provides a converged cloud video conference management platform, which adopts the following technical solutions:

the utility model provides a management platform of aggregate cloud video conference, management platform of aggregate cloud video conference includes show layer, system application layer, service layer and storage layer, wherein:

the display layer is used for providing external docking and client processing of the converged cloud video conference management platform;

the system application layer is used for respectively butting the display layer and the service layer, realizing data interaction of the display layer and the service layer and simultaneously connecting a third party application layer;

the service layer is a Spring micro-service cluster layer and is used for responding to a cloud video conference service processing request initiated by the self-display layer so as to perform corresponding service processing and simultaneously accessing an external application; the Spring micro-service cluster layer at least comprises a first micro-service cluster formed by audio and video SDK micro-service, a plurality of third-party cloud video SDK micro-service, voice recognition micro-service and face recognition micro-service and a second micro-service cluster formed by conference reservation micro-service, conference management micro-service and conference resource micro-service;

the storage layer is used for storing data of other layers of the converged cloud video conference management platform.

Further, the Spring micro-service cluster layer further includes:

a third microservice cluster for providing conference collaboration, which at least comprises a conference collaboration microservice, a conference president microservice, a conference examination and approval microservice and a conference supervision microservice;

the fourth micro-service cluster is used for providing conference management and at least comprises report/statistical management micro-service, historical conference management micro-service, conference schedule management micro-service and charging management micro-service;

a fifth micro-service cluster for providing management of the converged cloud video conference management platform, wherein the fifth micro-service cluster at least comprises a tenant management micro-service, a permission management micro-service and a user management micro-service; and

and the sixth micro-service cluster is used for providing public services of the converged cloud video conference management platform and at least comprises a monitoring alarm micro-service, a log management micro-service, a timing task management micro-service, a message queue micro-service and a single sign-on micro-service.

Further, the display layer comprises a Web end, a computer client, a mobile client and a mobile end H5 page, and provides a functional operation interface for a user, wherein the computer client is one or more of Windows, MAC and Linux, and the mobile client is one or more of IOS and Android.

Further, when the computer client is any one of Windows, MAC and Linux, the display layer is embedded in the Web by using Elctron + VUE technology, and the provided functional services are consistent with the Web, wherein the provided functional services at least include conference appointment, conference management, conference schedule management, conference collaboration, report/statistics management, tenant management, user management and authority management;

the functional service provided by the mobile terminal H5 page at least comprises a conference reservation and is used for integrating applications accessing to a third-party application layer.

Further, the system application layer comprises an API gateway, a Web BFF, a mobile BFF and a client BFF;

wherein, the AIP gateway processes uniform access, protocol adaptation, flow management and fault tolerance and safety protection;

the Web BFF provides corresponding API interface processing for the Web end, realizes front-end and back-end separation, and renders an interface display style aiming at the Web end;

the mobile BFF provides corresponding API interface processing for the mobile terminal, realizes front-end and back-end separation, and renders an interface display style aiming at the mobile terminal;

and the client BFF provides corresponding API interface processing for the client, realizes front-end and back-end separation, and renders an interface style for the client.

Further, a database adopted by the storage layer is MySQL, and Mycat is adopted for read-write separation switching.

Further, the external application is provided in an external service mode and at least comprises short message authentication service, mail service and OA system service.

Further, the third-party application provides an API and SDK access interface and provides component services of the converged cloud video conference management platform;

and the system application layer is connected with the API and the SDK access interface.

Further, the converged cloud video conference management platform is deployed in at least one server and performs polling and fragmentation through a Dubbo, so that load balancing is achieved.

Based on the converged cloud video conference management platform, the embodiment of the application further provides a conference access method, which adopts the following technical scheme:

a conference access method, comprising:

receiving a deployment request of a converged cloud video conference management platform, and deploying the converged cloud video conference management platform to at least one server;

receiving conference access requests and asynchronous notification addresses initiated by a plurality of users of a display layer, and uploading the conference access requests and the asynchronous notification addresses to a service layer through a system application layer;

the method comprises the steps that a service layer carries out matching calling on third-party cloud video SDK micro-services in a Spring micro-service cluster layer according to a conference access request and an asynchronous notification address, and service configuration of the third-party cloud video SDK micro-services which are matched and called is inquired in a redis cache;

and if the service configuration is inquired, the service configuration is distributed to at least one third-party cloud video server, the return parameters are obtained from the third-party cloud video server, the conference is accessed according to the return parameters, and otherwise, the conference access failure is prompted.

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

according to the scheme, the third-party cloud video SDK is aggregated together in a micro service mode through the Spring micro service cluster, adaptation fusion of different cloud video SDKs can be rapidly achieved, a conference access process is simple, maintenance is convenient, and development cost can be reduced.

Drawings

In order to more clearly illustrate the solution of the present application, the drawings needed for describing the embodiments of the present application will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and that other drawings can be obtained by those skilled in the art without inventive effort.

Fig. 1 is an architecture diagram of one embodiment of a converged cloud video conference management platform of the present application;

fig. 2 is a specific architecture diagram of an embodiment of an aggregation cloud video conference management platform according to the present application;

fig. 3 is a flowchart of an embodiment of a conference access method of the present application.

Detailed Description

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used in the description of the application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application; the terms "including" and "having," and any variations thereof, in the description and claims of this application and the description of the above figures are intended to cover non-exclusive inclusions. The terms "first," "second," and the like in the description and claims of this application or in the above-described drawings are used for distinguishing between different objects and not for describing a particular order.

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

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings.

Referring to fig. 1, an architecture diagram of one embodiment of an aggregated cloud video conference management platform including a presentation layer, a system application layer, a service layer, and a storage layer according to the present application is shown, wherein: the display layer is used for providing external docking and client processing of the converged cloud video conference management platform; the system application layer is used for respectively butting the display layer and the service layer, realizing data interaction of the display layer and the service layer and simultaneously connecting a third party application layer; the service layer is a Spring micro-service cluster layer and is used for responding to a cloud video conference service processing request initiated by the self-display layer so as to perform corresponding service processing and simultaneously accessing an external application; the Spring micro-service cluster layer at least comprises a first micro-service cluster formed by audio and video SDK micro-service, a plurality of third-party cloud video SDK micro-service, voice recognition micro-service and face recognition micro-service and a second micro-service cluster formed by conference reservation micro-service, conference management micro-service and conference resource micro-service; the storage layer is used for storing data of other layers of the aggregation cloud video conference management platform.

Each layer of the converged cloud video conference management platform is described with reference to a specific embodiment of the converged cloud video conference management platform shown in fig. 2. The converged cloud video conference management platform is implemented based on Spring boots, which are brand new frameworks provided by Pivotal teams, and the design purpose of the converged cloud video conference management platform is to simplify the initial construction and development processes of new Spring applications. The framework uses a specific way to configure, thereby eliminating the need for developers to define a templated configuration. Spring Boot advocates to agree on a greater than configuration concept, so that many configurations can be used by default or directly used in zero configuration, and development efficiency is greatly improved. The converged cloud video conference management platform comprises four core layers and two non-core layers, wherein the four core layers are the display layer, the system application layer, the service layer and the storage layer, and the non-core layers are the third-party application layer and the external application layer.

In this embodiment, the display layer is an auxiliary part outside the platform and also belongs to a first layer of the core of the converged cloud video conference management platform, and provides external docking and client processing of the converged cloud video conference management platform. The display layer comprises a Web end, a computer client, a mobile client and a mobile end H5 page and provides a functional operation interface for a user, wherein the computer client is one or more of Windows, MAC and Linux, and the mobile client is one or more of IOS and Android.

When the computer client is any one of Windows, MAC and Linux, the display layer is embedded into the Web end by adopting an Elctron + VUE (Elctron is a node js-based cross-platform desktop application which can use JavaScript and HTML to construct the cross-platform desktop application; VUE is a set of front-end development framework) technology, and the provided functional service is consistent with the Web end, wherein the provided functional service at least comprises conference reservation, conference management, conference schedule management, conference cooperation, report/statistical management, tenant management, user management and authority management; the functional service provided by the mobile terminal H5 page at least comprises a conference reservation and is used for integrating applications accessing to a third-party application layer.

Specifically, the display layer mainly comprises the following parts:

A. web: the conference scheduling management system is a Web end of a converged cloud video conference management platform, provides functions of conference appointment, conference management, conference schedule management, conference cooperation, report/statistic management, tenant management, user management, authority management and the like, and helps users to form a standard conference management system.

B. Windows/MAC: the cloud video conference system is a client package of a Windows/MAC/Linux computer operating system, a converged cloud video conference management platform is used by a user of the Windows system, the MAC system or the Linux system, an Elctron + VUE technology is embedded into a Web end, the user is helped to form a standard conference management system, and functional services are consistent with those of the Web end.

C. IOS/Android: the IOS system is a client package of an IOS/Android operating system of mobile equipment such as a mobile phone or a tablet, partial functions of a converged cloud video conference management platform are provided for IOS system users, the functions comprise functions of reserving a local conference room before meeting, a network conference, meeting participation and the like, and functions of awakening a cloud video third-party client and the like are provided for the Android system.

D. And a mobile terminal H5 page, wherein the mobile terminal H5 page provides local conference reservation service for the light application and supports deep integration of third-party application.

In this embodiment, the system application layer is a second layer of the core of the converged cloud video conference management platform, and the display layer of the external docking first layer and the internal calling service layer are connected. The system application layer comprises an API gateway, a Web BFF, a mobile BFF and a client BFF, wherein the BFF is an abbreviation of backups For Frontends, the BFF is the requirement of different devices which can be considered when the server designs the API, different API interfaces are provided For different devices, and although the devices can realize the same function, the devices have the characteristics of API access to the server due to the particularity of the different devices.

Wherein, the AIP gateway processes uniform access, protocol adaptation, flow management and fault tolerance and safety protection; the Web BFF provides corresponding API interface processing for the Web end, realizes front-end and back-end separation, and renders an interface display style aiming at the Web end; the mobile BFF provides corresponding API interface processing for the mobile terminal, realizes front-end and back-end separation, and renders an interface display style aiming at the mobile terminal; the client BFF provides corresponding API interface processing for the client, realizes front-end and back-end separation, and renders an interface style for the client.

In this embodiment, the service layer is a third layer of the core of the converged cloud video conference management platform, specifically, a Spring micro service cluster layer, and provides processing for different core micro services for a user to operate and use. The service layer of this embodiment is divided into six parts, except for the first micro service cluster (providing basic conference services, such as conference reservation, conference room management, conference resources, and the like) and the second micro service cluster (providing audio/video SDK and third SDK services, including various brands of cloud video SDK, voice recognition, face recognition, and the like for centralized management and service, and flexible platform adaptation and switching), the Spring micro service cluster layer further includes: the third micro-service cluster is used for providing conference cooperation and at least comprises conference cooperation micro-services, conference president micro-services, conference examination and approval micro-services, conference supervision micro-services and the like; a fourth microservice cluster for providing meeting management, which at least comprises report/statistics management microservice, historical meeting management microservice, meeting schedule management microservice, billing management microservice, etc.; a fifth micro-service cluster for providing management of the converged cloud video conference management platform, wherein the fifth micro-service cluster at least comprises tenant management micro-services, authority management micro-services, user management micro-services and the like; and the sixth micro-service cluster is used for providing public services of the converged cloud video conference management platform and at least comprises a monitoring alarm micro-service, a log management micro-service, a timing task management micro-service, a message queue micro-service, a single sign-on micro-service and the like.

In this embodiment, the storage layer is a fourth layer of the core of the converged cloud video conference management platform, the database adopted by the storage layer is MySQL, and Mycat is adopted to perform read-write separation switching. MySQL is a relational database management system developed by MySQL AB, Sweden, and belongs to the product under Oracle flag. Mycat is an open-source distributed database system, is a server which realizes MySQL protocol, a front-end user can regard the MySQL as a database agent and access the MySQL client tool and a command line, the back end of the MySQL server can communicate with a plurality of MySQL servers by using MySQL native protocol and can also communicate with most of main-flow database servers by using JDBC protocol, and the core function of the Mycat is table splitting, namely, a large table is horizontally split into N small tables which are stored in a back-end MySQL server or other databases.

In this embodiment, the external application layer and the third-party application layer are non-core layers, wherein external applications of the external application layer are all provided in an external service manner, and provide deep integration of a mobile terminal H5 page, and the external applications are all provided in an external service manner, including a short message authentication service, a mail service, an OA system service, a supervision service, and the like; and the third-party application of the third-party application layer is a platform access part, provides an API (application programming interface) and an SDK (software development kit) access interface, comprises a cache, a log, a queue, an encryption and distributed coordinator and the like, and provides component services of the converged cloud video conference management platform.

The converged cloud video conference management platform constructed based on the Spring boot micro-service supports deployment of one to multiple machines, can be deployed on one to multiple servers according to service requirements, can realize load balance of the multiple machines by providing multiple load modes such as polling and fragmentation through Dubbo, is a technical framework for open-source SOA service management provided by Alibba, has good expansibility, is stable and reliable, manages configuration and examples in a Spring bean mode, realizes zero intrusion of a micro-service scheme through Dubbo, and is independent of codes. The converged cloud video conference management platform constructed based on the Spring boot micro-service can provide fusion matching of a plurality of third-party cloud videos, is stable in online environment and strong in compatibility, and has a certain use value.

According to the scheme, the third-party cloud video SDK is gathered together in a micro service mode through the Spring micro service cluster, the adaptation integration of different cloud video SDKs can be rapidly achieved, the conference access process is simple, the maintenance is convenient, and the development cost can be reduced.

Based on the above aggregated cloud video conference management platform, an embodiment of the present application further provides a conference access method, and referring to fig. 3, a flowchart of an embodiment of the conference access method according to the present application is shown. The conference access method comprises the following steps:

step S101, receiving a deployment request of a converged cloud video conference management platform, and deploying the converged cloud video conference management platform to at least one server;

step S102, receiving conference access requests and asynchronous notification addresses initiated by a plurality of users on a display layer, and uploading the conference access requests and the asynchronous notification addresses to a service layer through a system application layer;

step S103, carrying out matching calling on the third-party cloud video SDK micro-service in the Spring micro-service cluster layer through the service layer according to the conference access request and the asynchronous notification address, and inquiring service configuration of the third-party cloud video SDK micro-service matched and called in a redis cache; redis (remote Dictionary Server), a remote Dictionary service, is an open source log-type and Key-Value database written in ANSI C language, supporting network, based on memory and persistent, and provides API of multiple languages.

And step S104, if the service configuration is inquired, the service configuration is distributed to at least one third-party cloud video server, the return parameters are obtained from the third-party cloud video server, the conference is accessed according to the return parameters, and otherwise, the conference access failure is prompted.

The method of the embodiment is implemented based on the converged cloud video conference management platform, and specific implementation details can refer to the device embodiment described above, which is not expanded herein.

According to the scheme, the third-party cloud video SDK is aggregated together in a micro service mode through the Spring micro service cluster, adaptation fusion of different cloud video SDKs can be rapidly achieved, a conference access process is simple, maintenance is convenient, and development cost can be reduced.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware associated with computer readable instructions, which can be stored in a computer readable storage medium, and when executed, the processes of the embodiments of the methods described above can be included. The storage medium may be a non-volatile storage medium such as a magnetic disk, an optical disk, a Read-Only Memory (ROM), or a Random Access Memory (RAM).

It should be understood that, although the steps in the flowcharts of the figures are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and may be performed in other orders unless explicitly stated herein. Moreover, at least a portion of the steps in the flow chart of the figure may include multiple sub-steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed alternately or alternately with other steps or at least a portion of the sub-steps or stages of other steps.

It should be understood that the above-described embodiments are merely exemplary of some, and not all, embodiments of the present application, and that the drawings illustrate preferred embodiments of the present application without limiting the scope of the claims appended hereto. This application is capable of embodiments in many different forms and is provided for the purpose of enabling a thorough understanding of the disclosure of the application. Although the present application has been described in detail with reference to the foregoing embodiments, it will be apparent to one skilled in the art that the present application may be practiced without modification or with equivalents of some of the features described in the foregoing embodiments. All equivalent structures made by using the contents of the specification and the drawings of the present application are directly or indirectly applied to other related technical fields and are within the protection scope of the present application.

Claims (10)

1. The utility model provides a management platform of aggregate cloud video conference which characterized in that, management platform of aggregate cloud video conference includes show layer, system application layer, service layer and storage layer, wherein:

the display layer is used for providing external docking and client processing of the converged cloud video conference management platform;

the system application layer is used for respectively butting the display layer and the service layer, realizing data interaction of the display layer and the service layer and simultaneously connecting a third party application layer;

the service layer is a Spring micro-service cluster layer and is used for responding to a cloud video conference service processing request initiated by the self-display layer so as to perform corresponding service processing and simultaneously accessing an external application; the Spring micro-service cluster layer at least comprises a first micro-service cluster formed by audio and video SDK micro-services, a plurality of third-party cloud video SDK micro-services, voice recognition micro-services and face recognition micro-services and a second micro-service cluster formed by conference reservation micro-services, conference management micro-services and conference resource micro-services;

the storage layer is used for storing data of other layers of the converged cloud video conference management platform.

2. The converged cloud video conference management platform of claim 1, wherein the Spring micro-service cluster layer further comprises:

a third microservice cluster for providing conference collaboration, comprising at least a conference collaboration microservice, a conference president microservice, a conference approval microservice, and a conference supervision microservice;

the fourth micro-service cluster is used for providing conference management and at least comprises report/statistic management micro-service, historical conference management micro-service, conference schedule management micro-service and charging management micro-service;

a fifth micro-service cluster for providing management of the converged cloud video conference management platform, wherein the fifth micro-service cluster at least comprises a tenant management micro-service, a permission management micro-service and a user management micro-service; and

and the sixth micro-service cluster is used for providing public services of the converged cloud video conference management platform and at least comprises a monitoring alarm micro-service, a log management micro-service, a timing task management micro-service, a message queue micro-service and a single sign-on micro-service.

3. The converged cloud video conference management platform of claim 2, wherein the presentation layer comprises a Web end, a computer client, a mobile client and a mobile end H5 page, and provides a functional operation interface for a user, wherein the computer client is one or more of Windows, MAC and Linux, and the mobile client is one or more of IOS and Android.

4. The converged cloud video conference management platform of claim 3, wherein when the computer client is any one of Windows, MAC and Linux, the presentation layer is embedded in the Web end by using Elctron + VUE technology, and the provided functional services are consistent with the Web end, wherein the provided functional services at least include conference appointment, conference management, conference schedule management, conference collaboration, report/statistics management, tenant management, user management and rights management;

the functional service provided by the mobile terminal H5 page at least comprises a conference reservation and is used for integrating applications accessing to a third-party application layer.

5. The converged cloud video conference management platform of claim 3 or 4, wherein the system application layer comprises an API gateway, a Web BFF, a mobile BFF and a client BFF;

wherein, the AIP gateway processes uniform access, protocol adaptation, flow management and fault tolerance and safety protection;

the Web BFF provides corresponding API interface processing for the Web end, realizes front-end and back-end separation, and renders an interface display style aiming at the Web end;

the mobile BFF provides corresponding API interface processing for the mobile terminal, realizes front-end and back-end separation, and renders an interface display style aiming at the mobile terminal;

and the client BFF provides corresponding API interface processing for the client, realizes front-end and back-end separation, and renders an interface style for the client.

6. The converged cloud video conference management platform of claim 5, wherein the database adopted by the storage layer is MySQL, and Mycat is adopted for read-write separation switching.

7. The converged cloud video conference management platform of claim 6, wherein the external applications are provided as external services, including at least SMS authentication services, email services and OA system services.

8. The converged cloud video conference management platform of claim 6, wherein the third party application provides API and SDK access interfaces and provides component services of the converged cloud video conference management platform;

and the system application layer is connected with the API and the SDK access interface.

9. The converged cloud video conference management platform of claim 6, wherein the converged cloud video conference management platform is deployed in at least one server, and the load balancing is achieved through polling and fragmentation by Dubbo.

10. The conference access method based on the converged cloud video conference management platform of any one of claims 1 to 9, characterized by comprising:

receiving a deployment request of a converged cloud video conference management platform, and deploying the converged cloud video conference management platform to at least one server;

receiving conference access requests and asynchronous notification addresses initiated by a plurality of users of a display layer, and uploading the conference access requests and the asynchronous notification addresses to a service layer through a system application layer;

the method comprises the steps that a service layer carries out matching calling on third-party cloud video SDK micro-services in a Spring micro-service cluster layer according to a conference access request and an asynchronous notification address, and service configuration of the third-party cloud video SDK micro-services which are matched and called is inquired in a redis cache;

and if the service configuration is inquired, the service configuration is distributed to at least one third-party cloud video server, the return parameters are obtained from the third-party cloud video server, the conference is accessed according to the return parameters, and otherwise, the conference access failure is prompted.

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