CN112187867A - Virtual desktop processing method and system combined with edge cloud - Google Patents

Abstract

The application discloses a virtual desktop processing method and a virtual desktop processing system combining edge cloud, wherein the method comprises the following steps: s1, deploying the server cluster: presetting a machine room deployment range, and deploying a server cluster in the preset range; s2, deploying the virtual desktop: deploying a cloud desktop virtual platform on a server cluster; s3, deploying UPF for signal splitting: and shunting and connecting a communication signal of a client side where the cloud desktop virtual platform is located into a machine room through the UPF equipment, and accessing the cloud desktop virtual platform. According to the invention, a server cluster is deployed in an access machine room/convergence machine room in a certain area range, and 5G signals of a Yulongyun desktop client are distributed to the access machine room/convergence machine room through UPF equipment. The optimization and the reduction of the configuration of the cloud computing equipment are realized, and the broadband operation load is reduced; shunting the passing channels to reduce delay; according to the technology, a server and the like do not need to be purchased on a large scale, virtual desktop carrying is carried out by using the cloud, and the operation cost is greatly reduced.

Description

Virtual desktop processing method and system combined with edge cloud

Technical Field

The application relates to the technical field of intelligent cloud computing application, in particular to a virtual desktop processing method and system combining edge cloud.

Background

Computers currently used by people can be divided into two categories:

the first virtual desktop processing method and system combined with the edge cloud are a desktop computer and a notebook computer, which are mainstream modes at present, the desktop computer and the notebook computer are not greatly different in nature, only the desktop computer has higher performance, the notebook computer is more convenient to carry, the desktop computer and the notebook computer can be used for office, household, entertainment and the like, and the notebook computer can be carried about and used outdoors.

The second is a cloud desktop mode which is popular in recent years, and is mainly applied to school rooms, enterprise offices and the like and mainly used for office purposes. With the mature technology of the cloud desktop, a trend of replacing desktop computers gradually exists, particularly in the office field, however, the cloud desktop needs to use a cloud terminal device like a television set-top box to connect a server, and peripheral devices such as a display and a keyboard and a mouse are also needed, so that the cost is lower than that of a desktop computer under large-scale purchase, the maintenance is simpler, and the data is safer.

On one hand, the notebook computer is expensive to purchase, on the other hand, the notebook computer uses local computing and storage resources like a desktop computer, the notebook computer has the limitation of service life, and after 3 to 5 years, the desktop computer or the notebook computer can face the need that new energy cannot be used by software, and face the elimination. Although the existing cloud desktop mode uses resources of the cloud, the problem of local hardware upgrading cannot be faced, and the defect that a desktop is not easy to carry is also overcome.

In the prior art, the cloud desktop deployed in the cloud computing center has the following disadvantages:

1. the cloud desktop connected with the cloud computing center is high in delay due to the fact that the cloud desktop is cross-regional and cross-network;

2. as the number of connected network access devices increases, the amount of data generated by these devices is also increasing, resulting in the network bandwidth becoming a bottleneck in cloud computing.

Disclosure of Invention

The present application mainly aims to provide a virtual desktop processing method and system thereof in combination with an edge cloud to solve the current problems.

In order to achieve the above object, the present application provides the following techniques:

the invention provides a virtual desktop processing method combined with edge cloud, comprising the following steps:

s1, deploying the server cluster: presetting a machine room deployment range, and deploying a server cluster in the preset range;

s2, deploying the virtual desktop: deploying a cloud desktop virtual platform on a server cluster;

s3, deploying UPF for signal splitting: and shunting and connecting a communication signal of a client side where the cloud desktop virtual platform is located into a machine room through the UPF equipment, and accessing the cloud desktop virtual platform.

Preferably, the deploying range of the preset machine room, where the server cluster is deployed in the preset range, includes:

searching an access machine room and/or a convergence machine room in a target area, and building a hardware bottom server in the access machine room/the convergence machine room;

and deploying hyper-fusion software on a hardware bottom layer server, and making calculation, storage and a network into a distributed resource pool cluster to form an edge cloud MEC platform.

Preferably, the preset machine room deployment range deploys the server cluster in the preset range, and further includes:

and deploying UPF in the access machine room and/or the convergence machine room, and networking the UPF and the edge cloud MEC platform in the access machine room and/or the convergence machine room to form the UPF & MEC edge cloud platform.

Preferably, the shunting and accessing the communication signal of the client where the cloud desktop virtual platform is located to the machine room through the UPF device to access the cloud desktop virtual platform includes:

creating a plurality of virtual machines on an edge cloud MEC platform;

and allocating an account for each virtual machine, binding the address of the edge cloud MEC platform server, and configuring the address to an intelligent cloud computer terminal device.

Preferably, the shunting and accessing the communication signal of the client where the cloud desktop virtual platform is located to the machine room through the UPF device to access the cloud desktop virtual platform further includes:

and the virtual machine account is connected with an operator through the UPF and achieves a 5G distribution protocol, and 5G open UPF distribution authorization permission is obtained.

Preferably, the shunting and accessing the communication signal of the client where the cloud desktop virtual platform is located to the machine room through the UPF device to access the cloud desktop virtual platform further includes:

the intelligent cloud computer terminal equipment logs in to obtain a virtual machine account permitted by 5G open UPF distribution authorization, distributes the virtual machine account to the UPF & MEC edge cloud platform through a network communication channel, and accesses the virtual machine of the account corresponding to the edge cloud platform.

Preferably, the network communication channel is a convergence network, and is distributed to the UPF & MEC edge cloud platform through the convergence network to access the virtual machine of the account corresponding to the edge cloud platform.

Preferably, the network communication channel is one of a 5G signal base station, a wired or WIFI communication module.

The invention provides a virtual desktop processing system combined with edge cloud, comprising:

server clustering: the method comprises the steps that a deployment edge cloud MEC platform, a UPF and a deployment cloud desktop virtual platform are built to form a UPF & MEC edge cloud platform, and the edge cloud MEC platform is used for building a virtual machine;

virtual machine: the system is used for allocating an account for each virtual machine, connecting the virtual machine account to an operator through the UPF, achieving a 5G distribution protocol and obtaining a 5G open UPF distribution authorization permission; binding the address of the edge cloud MEC platform server and configuring the address to an intelligent cloud computer terminal device;

intelligent cloud computer terminal: the method is used for logging in a virtual machine account for obtaining 5G open UPF distribution authorization permission, distributing the virtual machine account to the UPF & MEC edge cloud platform through a network communication channel, and accessing the virtual machine of the account corresponding to the edge cloud platform.

Preferably, the network communication channel is one of a convergence network, a 5G signal base station, and a wired, wireless or WIFI communication module.

Compared with the prior art, this application can bring following technological effect:

1. firstly, deploying a server cluster in an access machine room/convergence machine room within a certain area range, and deploying a Yulongyun desktop software platform on the server cluster; distributing 5G signals of the Yulongyun desktop client deployed in a certain area range to an access machine room/convergence machine room through UPF equipment, and accessing the Yulongyun desktop software platform deployed in the access machine room/convergence machine room; the optimization and the reduction of the configuration of the cloud computing equipment are realized, and the broadband operation load is reduced;

2. the virtual machine account is connected with an operator through UPF (unified power flow) and achieves a 5G shunt protocol, a 5G open UPF shunt authorization permission is taken, the intelligent cloud computer terminal equipment logs in the virtual machine account which is taken to the 5G open UPF shunt authorization permission, the intelligent cloud computer terminal equipment can shunt to the UPF & MEC edge cloud platform through the 5G signal base station without a convergence network, a Yulong network transmission protocol is adopted, the virtual machine of the account corresponding to the edge cloud platform can be accessed, a traffic channel is shunted, and delay is reduced; according to the technology, a server and the like do not need to be purchased on a large scale, virtual desktop carrying is carried out by using the cloud, and the operation cost is greatly reduced.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, serve to provide a further understanding of the application and to enable other features, objects, and advantages of the application to be more apparent. The drawings and their description illustrate the embodiments of the invention and do not limit it. In the drawings:

FIG. 1 is a schematic flow chart of a virtual desktop processing method incorporating an edge cloud according to the present invention;

FIG. 2 is a schematic diagram of the UPF and edge cloud MEC platform networking in the access computer room/convergence computer room of the present invention;

FIG. 3 is a schematic representation of the capability characteristics of the UPF of the present invention;

FIG. 4 is a schematic diagram of the composition structure of the virtual desktop processing system incorporating the edge cloud according to the present invention.

Detailed Description

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 drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In this application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the present application and its embodiments, and are not used to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in this application will be understood by those of ordinary skill in the art as appropriate.

In addition, the term "plurality" shall mean two as well as more than two.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Example 1

Firstly, deploying a server cluster in an access machine room/convergence machine room within a certain area range, and deploying a Yulongyun desktop software platform on the server cluster; distributing 5G signals of the Yulongyun desktop client deployed in a certain area range to an access machine room/convergence machine room through UPF equipment, and accessing the Yulongyun desktop software platform deployed in the access machine room/convergence machine room; the optimization and the reduction of the configuration of the cloud computing equipment are realized, and the broadband operation load is reduced.

According to the cloud desktop software carrying method and device, cloud virtual desktop carrying is completed through facilities such as the server cluster, the UPF & MEC edge cloud platform, the convergence network and the base station, and the intelligent cloud computer terminal equipment is connected with cloud virtual through the 5G base station with the nearest 5G signal range, so that operation and use of the cloud desktop software are performed through edge cloud.

The application of this embodiment is an implementation scheme in which a limonado desktop software platform is established and deployed in a cloud, and the following will take the limonado desktop software platform as an example.

The invention provides a virtual desktop processing method combined with edge cloud, comprising the following steps:

fig. 1 is a schematic flow chart of a virtual desktop processing method incorporating an edge cloud.

S1, deploying the server cluster: presetting a machine room deployment range, and deploying a server cluster in the preset range;

firstly, deploying a server cluster in an access machine room/convergence machine room in a certain area range, and deploying a Lilong cloud desktop software platform on the server cluster.

The preset machine room deployment range is deployed according to an appropriate principle to define an area, so that the preset machine room deployment range is not limited.

The object of the machine room can be an access machine room and/or a convergence machine room, UPF is deployed in the access machine room/the convergence machine room, and functions of network channel distribution, data distribution, 5G network capacity configuration and the like are performed through the UPF.

And finding a proper access machine room/convergence machine room in the target area as an edge cloud MEC platform, wherein the intelligent cloud computer terminal equipment is connected with the edge cloud MEC platform through a 5G base station with the nearest 5G signal range.

And (3) building a hardware bottom layer server in the access machine room/convergence machine room, deploying Yulong super fusion software on the hardware bottom layer server, making calculation, storage and network into a distributed resource pool cluster to form an edge cloud MEC platform, and networking the UPF and the edge cloud MEC platform in the access machine room/convergence machine room.

S2, deploying the virtual desktop: deploying a cloud desktop virtual platform on a server cluster;

and deploying the Yulongyun desktop software platform on the server cluster.

S3, deploying UPF for signal splitting: and shunting and connecting a communication signal of a client side where the cloud desktop virtual platform is located into a machine room through the UPF equipment, and accessing the cloud desktop virtual platform.

And connecting the terminal equipment to the Internet through wired or wireless/5G connection. And connecting the limonado desktop software platform of the server side through a proprietary communication protocol. The server connected with the terminal equipment is deployed in the edge cloud data center, and the Yulongyun desktop is operated and stored through the internet cloud server or the edge cloud data center.

Before accessing a cloud desktop virtual platform, namely a limonado desktop software platform deployed on a server cluster, a plurality of virtual machines need to be created on an edge cloud MEC platform, each virtual machine is allocated with an account, an edge cloud MEC platform server address is bound, and the account is configured to an intelligent cloud computer terminal device.

The virtual machine account is connected with an operator through UPF and achieves a 5G distribution protocol, and 5G open UPF distribution authorization permission is obtained.

As shown in fig. 2, it is a schematic diagram of an access computer room/convergence computer room networking of a UPF and an edge cloud MEC platform. The intelligent cloud computer terminal equipment logs in the virtual machine account permitted by the 5G open UPF distribution authorization, can be distributed to the UPF & MEC edge cloud platform through the 5G signal base station without a convergence network, and can access the virtual machine of the account corresponding to the edge cloud platform by adopting a Yulong network transmission protocol.

Fig. 3 is a schematic diagram of the capability characteristics of the UPF.

The system comprises the capabilities of positioning, network state, data capability, distribution, safety capability and the like, and also comprises the value-added capability of the 5G network and the basic capability of the 5G network. The remaining capabilities are shown in the figure.

5G signals of the Yulongyun desktop client deployed in a certain area range are distributed to the access machine room/convergence machine room through the UPF equipment, and the Yulongyun desktop software platform deployed in the access machine room/convergence machine room is accessed. The range size is determined according to the communication area to be established, and the like, and the range size is not limited herein.

Preferably, the deploying range of the preset machine room, where the server cluster is deployed in the preset range, includes:

searching an access machine room and/or a convergence machine room in a target area, and building a hardware bottom server in the access machine room/the convergence machine room;

and deploying hyper-fusion software on a hardware bottom layer server, and making calculation, storage and a network into a distributed resource pool cluster to form an edge cloud MEC platform.

Preferably, the preset machine room deployment range deploys the server cluster in the preset range, and further includes:

and deploying UPF in the access machine room and/or the convergence machine room, and networking the UPF and the edge cloud MEC platform in the access machine room and/or the convergence machine room to form the UPF & MEC edge cloud platform.

Preferably, the shunting and accessing the communication signal of the client where the cloud desktop virtual platform is located to the machine room through the UPF device to access the cloud desktop virtual platform includes:

creating a plurality of virtual machines on an edge cloud MEC platform;

and allocating an account for each virtual machine, binding the address of the edge cloud MEC platform server, and configuring the address to an intelligent cloud computer terminal device.

Preferably, the shunting and accessing the communication signal of the client where the cloud desktop virtual platform is located to the machine room through the UPF device to access the cloud desktop virtual platform further includes:

and the virtual machine account is connected with an operator through the UPF and achieves a 5G distribution protocol, and 5G open UPF distribution authorization permission is obtained.

Preferably, the shunting and accessing the communication signal of the client where the cloud desktop virtual platform is located to the machine room through the UPF device to access the cloud desktop virtual platform further includes:

the intelligent cloud computer terminal equipment logs in to obtain a virtual machine account permitted by 5G open UPF distribution authorization, distributes the virtual machine account to the UPF & MEC edge cloud platform through a network communication channel, and accesses the virtual machine of the account corresponding to the edge cloud platform.

Preferably, the network communication channel is a convergence network, and is distributed to the UPF & MEC edge cloud platform through the convergence network to access the virtual machine of the account corresponding to the edge cloud platform.

The aggregation network is preferentially used as a distribution communication channel, the network of the access terminal equipment is distributed to the UPF & MEC edge cloud platform by adopting a Yulong network transmission protocol through the aggregation network, and the virtual machine of the account corresponding to the edge cloud platform is accessed.

Preferably, the network communication channel is one of a 5G signal base station, a wired or WIFI communication module.

In the second offloading scheme of the present technology, instead of using the aggregation network as an offloading communication channel, a wired or wireless or mobile network is selected as an offloading communication channel, and here, the aggregation network is removed and a 5G signal base station is preferentially used as an offloading channel. The method can be distributed to the UPF & MEC edge cloud platform without a convergence network, and the virtual machine of the account corresponding to the edge cloud platform can be accessed by adopting a Yulong network transmission protocol.

The invention provides a virtual desktop processing system combined with edge cloud, comprising:

server clustering: the method comprises the steps that a deployment edge cloud MEC platform, a UPF and a deployment cloud desktop virtual platform are built to form a UPF & MEC edge cloud platform, and the edge cloud MEC platform is used for building a virtual machine;

virtual machine: the system is used for allocating an account for each virtual machine, connecting the virtual machine account to an operator through the UPF, achieving a 5G distribution protocol and obtaining a 5G open UPF distribution authorization permission; binding the address of the edge cloud MEC platform server and configuring the address to an intelligent cloud computer terminal device;

intelligent cloud computer terminal: the method is used for logging in a virtual machine account for obtaining 5G open UPF distribution authorization permission, distributing the virtual machine account to the UPF & MEC edge cloud platform through a network communication channel, and accessing the virtual machine of the account corresponding to the edge cloud platform.

The platform terminal can be matched with an account number and a password, each account number and the password correspond to a VM virtual machine in a server side, and the cloud computer terminal needs to be connected to the VM virtual machine in the cloud server side to work.

And connecting the terminal equipment to the Internet through wired or wireless/5G connection. And connecting the virtual operating system of the server side through a proprietary communication protocol. The server connected with the terminal equipment needs to be deployed in the edge cloud data center. The cloud desktop is operated and stored through an internet cloud server or through an edge cloud data center.

Preferably, the network communication channel is one of a convergence network, a 5G signal base station, and a wired, wireless or WIFI communication module.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. A virtual desktop processing method combined with edge cloud is characterized by comprising the following steps:

s1, deploying the server cluster: presetting a machine room deployment range, and deploying a server cluster in the preset range;

s2, deploying the virtual desktop: deploying a cloud desktop virtual platform on a server cluster;

s3, deploying UPF for signal splitting: and shunting and connecting a communication signal of a client side where the cloud desktop virtual platform is located into a machine room through the UPF equipment, and accessing the cloud desktop virtual platform.

2. The virtual desktop processing method combined with the edge cloud according to claim 1, wherein the pre-set computer room deployment scope deploys the server cluster within the pre-set scope, and includes:

searching an access machine room and/or a convergence machine room in a target area, and building a hardware bottom server in the access machine room and/or the convergence machine room;

and deploying hyper-fusion software on a hardware bottom layer server, and making calculation, storage and a network into a distributed resource pool cluster to form an edge cloud MEC platform.

3. The virtual desktop processing method combined with the edge cloud as claimed in claim 2, wherein the preset computer room deployment scope deploys the server cluster within the preset scope, further comprising:

and deploying UPF in the access machine room and/or the convergence machine room, and networking the UPF and the edge cloud MEC platform in the access machine room and/or the convergence machine room to form the UPF & MEC edge cloud platform.

4. The virtual desktop processing method combined with the edge cloud as claimed in claim 1 or 3, wherein the shunting and accessing the communication signal of the client where the cloud desktop virtual platform is located to the computer room through the UPF device includes:

creating a plurality of virtual machines on an edge cloud MEC platform;

and allocating an account for each virtual machine, binding the address of the edge cloud MEC platform server, and configuring the address to an intelligent cloud computer terminal device.

5. The virtual desktop processing method combined with the edge cloud as claimed in claim 4, wherein the communication signal of the client where the cloud desktop virtual platform is located is shunted and connected to a machine room through the UPF device, and the cloud desktop virtual platform is accessed, further comprising:

and the virtual machine account is connected with an operator through the UPF and achieves a 5G distribution protocol, and 5G open UPF distribution authorization permission is obtained.

6. The virtual desktop processing method combined with the edge cloud as claimed in claim 5, wherein the communication signal of the client where the cloud desktop virtual platform is located is shunted and connected to a machine room through the UPF device, and the cloud desktop virtual platform is accessed, further comprising:

the intelligent cloud computer terminal equipment logs in to obtain a virtual machine account permitted by 5G open UPF distribution authorization, distributes the virtual machine account to the UPF & MEC edge cloud platform through a network communication channel, and accesses the virtual machine of the account corresponding to the edge cloud platform.

7. The virtual desktop processing method combined with the edge cloud as claimed in claim 6, wherein the network communication channel is a convergence network, and is distributed to the UPF & MEC edge cloud platform through the convergence network to access the virtual machine of the account corresponding to the edge cloud platform.

8. The virtual desktop processing method combined with the edge cloud as claimed in claim 6, wherein the network communication channel is one of a 5G signal base station, a wired or WIFI communication module.

9. A virtual desktop processing system incorporating an edge cloud, comprising:

server clustering: the method comprises the steps that a deployment edge cloud MEC platform, a UPF and a deployment cloud desktop virtual platform are built to form a UPF & MEC edge cloud platform, and the edge cloud MEC platform is used for building a virtual machine;

virtual machine: the system is used for allocating an account for each virtual machine, connecting the virtual machine account to an operator through the UPF, achieving a 5G distribution protocol and obtaining a 5G open UPF distribution authorization permission; binding the address of the edge cloud MEC platform server and configuring the address to an intelligent cloud computer terminal device;

intelligent cloud computer terminal: the method is used for logging in a virtual machine account for obtaining 5G open UPF distribution authorization permission, distributing the virtual machine account to the UPF & MEC edge cloud platform through a network communication channel, and accessing the virtual machine of the account corresponding to the edge cloud platform.

10. The virtual desktop processing system in combination with an edge cloud of claim 9 wherein said network communication channel is one of a converged network, a 5G signal base station, a wired, wireless or WIFI communication module.

Images