CN111083237A - Cloud mobile phone distribution system and method - Google Patents

Abstract

The application discloses a cloud mobile phone distribution system and a method, wherein the system comprises: the system comprises a first client, a second client, a first cloud mobile phone server, a second cloud mobile phone server and a third cloud mobile phone server; the first client sends a first application request to a third cloud mobile phone server; the second client sends a second application request to a third cloud mobile phone server; the third cloud mobile phone server sends the first application request to the first cloud mobile phone server, and sends the second application request to the second cloud mobile phone server; the first cloud mobile phone server allocates a cloud mobile phone with a first application installed to the first client according to the first application request; and the second cloud mobile phone server allocates a cloud mobile phone with the second application installed to the second client according to the second application request. According to the invention, different cloud mobile phone servers are set for the new user and the old user, so that the new user does not need to queue with the old user for waiting distribution, the experience of the new user for the first time is smoother, and the experience of the old user is also improved.

Description

Cloud mobile phone distribution system and method

Technical Field

The invention relates to the technical field of networks, in particular to a cloud mobile phone distribution system and a cloud mobile phone distribution method.

Background

The cloud mobile phone is a smart phone application cloud platform based on cloud computing powerful virtual application and the mobile internet. Based on the outstanding advantages of cloud computing in large-scale computing, strong storage capacity, virtualization application and the like, the cloud platform provides diversified and omnibearing virtual mobile phone application and service for a smart mobile phone user, comprehensively supports display, downloading, application and management service of various mobile phone application programs, excellently realizes all-weather cloud intelligent hosting application, enables the user to be capable of hosting various application programs to a cloud under the state of being separated from a mobile terminal, keeps all-weather online state and comprehensively realizes smart mobile phone application virtualization.

When receiving an allocation application of a plurality of cloud mobile phones, the current cloud mobile phone background management system allocates the cloud mobile phones according to a first-come advanced principle, and needs to queue for entering when no cloud mobile phone is idle, so that the user experience is reduced.

Disclosure of Invention

The invention discloses a cloud mobile phone distribution system, which comprises: a first client, a second client, a first cloud cell phone server, a second cloud cell phone server, and a third cloud cell phone server, wherein,

the first client is coupled with the third cloud mobile phone server and used for sending a first application request to the third cloud mobile phone server; the first client is a new user;

the second client is coupled with the third cloud mobile phone server and used for sending a second application request to the third cloud mobile phone server; the second client is an old user;

the third cloud mobile phone server is respectively coupled with the first client, the second client, the first cloud mobile phone server and the second cloud mobile phone server, and is used for receiving the first application request sent by the first client and the second application request sent by the second client; sending the first application request to the first cloud mobile phone server, and sending the second application request to the second cloud mobile phone server;

the first cloud mobile phone server is respectively coupled with the third cloud mobile phone server and the first client, and comprises a plurality of cloud mobile phones; the first cloud mobile phone server is used for receiving the first application request sent by the third cloud mobile phone server and distributing a cloud mobile phone with a first application installed to the first client according to the first application request;

the second cloud mobile phone server is respectively coupled with the third cloud mobile phone server and the second client, and comprises a plurality of cloud mobile phones; the second cloud mobile phone server is used for receiving the second application request sent by the third cloud mobile phone server, and distributing a cloud mobile phone with a second application installed to the second client according to the second application request.

Preferably, the second client includes a second client a and a second client b, and when the level of the second client a is higher than that of the second client b, the third cloud mobile phone server preferentially sends the second application request of the second client a to the second cloud mobile phone server.

Preferably, the first client includes a first client a and a first client b, the first client a belongs to a first network operator, the first client b belongs to a second network operator, and the first network operator is different from the second network operator;

the first cloud mobile phone server comprises a first cloud mobile phone and a second cloud mobile phone, the first cloud mobile phone belongs to a first network operator, and the second cloud mobile phone belongs to a second network operator;

and the first cloud mobile phone server allocates the first cloud mobile phone to the first client A, and allocates the second cloud mobile phone to the first client B.

Preferably, the second client includes a second client a and a second client b, the second client a belongs to a first network operator, the second client b belongs to a second network operator, and the first network operator is different from the second network operator;

the second cloud mobile phone server comprises a third cloud mobile phone and a fourth cloud mobile phone, wherein the third cloud mobile phone belongs to a first network operator, and the fourth cloud mobile phone belongs to a second network operator;

and the second cloud mobile phone server allocates the third cloud mobile phone to the second client A and allocates the fourth cloud mobile phone to the second client B.

Preferably, the first cloud mobile phone server is further coupled to the second cloud mobile phone server, and when no distributable cloud mobile phone exists in the first cloud mobile phone server, the second cloud mobile phone server automatically supplements redundant cloud mobile phones to the first cloud mobile phone server.

Preferably, the new user is a client connected with the third cloud mobile phone server for the first time; the old user is a client which is connected with the third cloud mobile phone server at least twice.

The invention also discloses a cloud mobile phone distribution method, which comprises the following steps:

the first client sends a first application request to a third cloud mobile phone server; the first client is a new user;

the second client sends a second application request to the third cloud mobile phone server; the second client is an old user;

the third cloud mobile phone server sends the first application request to a first cloud mobile phone server, and the first cloud mobile phone server allocates a cloud mobile phone with a first application installed to the first client according to the first application request;

and the third cloud mobile phone server sends the second application request to a second cloud mobile phone server, and the second cloud mobile phone server allocates a cloud mobile phone with a second application installed to the second client according to the second application request.

Preferably, the second client includes a second client a and a second client b, and when the level of the second client a is higher than that of the second client b, the third cloud mobile phone server preferentially sends the second application request of the second client a to the second cloud mobile phone server.

Preferably, the first client includes a first client a and a first client b, the first client a belongs to a first network operator, the first client b belongs to a second network operator, and the first network operator is different from the second network operator; the first cloud mobile phone server comprises a first cloud mobile phone and a second cloud mobile phone, the first cloud mobile phone belongs to a first network operator, and the second cloud mobile phone belongs to a second network operator; the first cloud mobile phone server allocates the first cloud mobile phone to the first client A, and allocates the second cloud mobile phone to the first client B;

the second client comprises a first client and a second client, the first client belongs to a first network operator, and the second client belongs to a second network operator; the second cloud mobile phone server comprises a third cloud mobile phone and a fourth cloud mobile phone, wherein the third cloud mobile phone belongs to a first network operator, and the fourth cloud mobile phone belongs to a second network operator; and the second cloud mobile phone server allocates the third cloud mobile phone to the second client A and allocates the fourth cloud mobile phone to the second client B.

Preferably, when no distributable cloud mobile phone is available in the first cloud mobile phone server, the second cloud mobile phone server automatically supplements redundant cloud mobile phones to the first cloud mobile phone server.

Compared with the prior art, the cloud mobile phone distribution system and the cloud mobile phone distribution method provided by the invention have the following beneficial effects:

first, the method and the system set different cloud mobile phone servers for the new user and the old user, so that the new user does not need to queue with the old user for waiting distribution, the experience of the new user for the first time is smoother, and the experience degree of the old user is also improved.

Secondly, the third cloud mobile phone server preferentially allocates the cloud mobile phones to the old users with high levels according to the levels of the old users, so that the experience degree of the old users with high levels is improved.

Thirdly, the cloud mobile phones of corresponding network operators can be distributed to the client side according to the network operators to which the new and old users belong in the first cloud mobile phone server and the second cloud mobile phone server, so that the new and old users can experience better and more smoothly.

Fourthly, a certain number of cloud mobile phones are reserved in the second cloud mobile phone server, and when no distributable cloud mobile phone exists in the first cloud mobile phone server, the second cloud mobile phone server can automatically supplement the reserved cloud mobile phones to the first cloud mobile phone server, so that cloud mobile phone resources are utilized to the maximum extent.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a schematic structural diagram of a cloud mobile phone distribution system in embodiment 1 of the present invention;

fig. 2 is a schematic structural diagram of a cloud mobile phone distribution system in embodiment 2 of the present invention;

fig. 3 is a schematic structural diagram of a cloud mobile phone distribution system in embodiment 3 of the present invention;

fig. 4 is a flowchart of a cloud mobile phone allocation method in embodiment 4 of the present invention;

fig. 5 is a flowchart of a cloud mobile phone allocation method in embodiment 5 of the present invention;

fig. 6 is a flowchart of a cloud mobile phone allocation method in embodiment 6 of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It should be noted that the described embodiments are merely some embodiments, rather than all embodiments, of the invention and are merely illustrative in nature and in no way intended to limit the invention, its application, or uses. The protection scope of the present application shall be subject to the definitions of the appended claims.

Example 1:

referring to fig. 1, a specific embodiment of a cloud mobile phone distribution system according to the present application is shown, and the system includes: a first client 101, a second client 102, a first cloud handset server 103, a second cloud handset server 104, and a third cloud handset server 105, wherein,

the first client 101 is coupled to the third cloud handset server 105, and is configured to send a first application request to the third cloud handset server 105; the first client 101 is a new user; the new user is a client connected with the third cloud mobile phone server 105 for the first time; the first client 101 includes a plurality of clients 1011, 1012 … …, etc.;

the second client 102 is coupled to the third cloud handset server 105, and is configured to send a second application request to the third cloud handset server 105; the second client 102 is an old user; the old user is a client connected with the third cloud mobile phone server 105 at least twice; the second client 102 comprises a plurality of clients 1021, 1022 … … and the like;

the third cloud mobile phone server 105 is respectively coupled to the first client 101, the second client 102, the first cloud mobile phone server 103, and the second cloud mobile phone server 104, and is configured to receive a first application request sent by the first client 101 and a second application request sent by the second client 102; sending the first application request to the first cloud mobile phone server 103, and sending the second application request to the second cloud mobile phone server 104; the third cloud mobile phone server 105 can judge whether the first client 101 and the second client 102 are new users or old users, and allocate the new users and the old users to different cloud mobile phone servers, so that the new users do not need to queue with the old users to wait for the allocation of the cloud mobile phones, the experience of the new users for the first time is smoother, and the experience of the old users is also improved;

the first cloud mobile phone server 103 is respectively coupled with the third cloud mobile phone server 105 and the first client 101, and the first cloud mobile phone server 103 includes a plurality of cloud mobile phones 1031, 1032 … …, and the like; the first cloud mobile phone server 103 is configured to receive a first application request sent by the third cloud mobile phone server 105, and allocate a cloud mobile phone with a first application installed to the first client 101 according to the first application request; the first cloud mobile phone server 103 is equivalent to a cloud mobile phone pool, a plurality of cloud mobile phones are stored in the cloud mobile phone pool in advance, the cloud mobile phones are only used by a new user, when the new user sends a first application request, the first cloud mobile phone server 103 allocates one cloud mobile phone to the first client 101 for use, and a first application required by the first client 101 is installed on the cloud mobile phone; the first application may be a game application or other application;

the second cloud mobile phone server 104 is coupled to the third cloud mobile phone server 105 and the second client 102, respectively, and the second cloud mobile phone server 104 includes a plurality of cloud mobile phones 1041, 1042 … …, and the like; the second cloud mobile phone server 104 is configured to receive a second application request sent by the third cloud mobile phone server 105, and allocate a cloud mobile phone with a second application installed to the second client 102 according to the second application request; the second cloud mobile phone server 104 is equivalent to a cloud mobile phone pool, a plurality of cloud mobile phones are stored in the cloud mobile phone pool in advance, the cloud mobile phones are only used by the old user, when the old user sends a second application request, the second cloud mobile phone server 104 allocates one cloud mobile phone to the second client 102 for use, and a second application desired by the second client 102 is installed on the cloud mobile phone.

The second client 102 comprises a first client 1021 and a second client 1022, and when the level of the first client 1021 is higher than that of the second client 1022, the third cloud cellphone server 105 preferentially sends the second application request of the first client 1021 to the second cloud cellphone server 104. For example, where the second application is a gaming application, the second client 102 may be ranked by client top-up amount. The third cloud cell phone server 105 preferentially allocates the cloud cell phones to the old users of high rank according to the rank of the old users, so that the experience of the old users of high rank is improved.

According to the embodiment, the client is divided into the old and new users, the different cloud mobile phone servers are distributed to the old and new users, the old users are divided into different grades, the old users are reasonably distributed according to the different grades, the experience degree of the old and new users is improved, and the application of cloud mobile phone resources and the utilization rate of a system are also improved.

Example 2:

referring to fig. 2, a further embodiment of the cloud mobile phone distribution system according to the present application is shown, and the system includes: a first client 101, a second client 102, a first cloud handset server 103, a second cloud handset server 104, and a third cloud handset server 105, wherein,

the first client 101 is coupled to the third cloud handset server 105, and is configured to send a first application request to the third cloud handset server 105; the first client 101 is a new user; the new user is a client connected with the third cloud mobile phone server 105 for the first time; the first client 101 includes a plurality of clients 1011, 1012 … …, etc.;

the second client 102 is coupled to the third cloud handset server 105, and is configured to send a second application request to the third cloud handset server 105; the second client 102 is an old user; the old user is a client connected with the third cloud mobile phone server 105 at least twice; the second client 102 comprises a plurality of clients 1021, 1022 … … and the like;

the third cloud mobile phone server 105 is respectively coupled to the first client 101, the second client 102, the first cloud mobile phone server 103, and the second cloud mobile phone server 104, and is configured to receive a first application request sent by the first client 101 and a second application request sent by the second client 102; sending the first application request to the first cloud mobile phone server 103, and sending the second application request to the second cloud mobile phone server 104;

the first cloud mobile phone server 103 is respectively coupled with the third cloud mobile phone server 105, the first client 101 and the second cloud mobile phone server, and the first cloud mobile phone server 103 includes a plurality of cloud mobile phones 1031, 1032 … … and the like; the first cloud mobile phone server 103 is configured to receive a first application request sent by the third cloud mobile phone server 105, and allocate a cloud mobile phone with a first application installed to the first client 101 according to the first application request; the second cloud mobile phone server 104 is respectively coupled with the third cloud mobile phone server 105, the second client 102 and the first cloud mobile phone server 103, and the second cloud mobile phone server 104 includes a plurality of cloud mobile phones 1041, 1042 … … and the like; the second cloud mobile phone server 104 is configured to receive a second application request sent by the third cloud mobile phone server 105, and allocate a cloud mobile phone with a second application installed to the second client 102 according to the second application request; the second client 102 comprises a first client 1021 and a second client 1022, and when the level of the first client 1021 is higher than that of the second client 1022, the third cloud cellphone server 105 preferentially sends the second application request of the first client 1021 to the second cloud cellphone server 104.

A first number of redundant cloud mobile phones are reserved in the second cloud mobile phone server 104, so as to be used for standby when the number of applied cloud mobile phones is large; when the cloud mobile phone in the first cloud mobile phone server 103 is occupied by a certain threshold, the threshold can be set, that is, when the cloud mobile phone cannot be reallocated to a new user, the second cloud mobile phone server 104 can automatically send the redundant reserved cloud mobile phone to the first cloud mobile phone server 103, so that sufficient cloud mobile phones in the first cloud mobile phone server 103 are ensured to be used by the new user, the cloud mobile phone resources are maximally used, and the utilization rate of the cloud mobile phone is improved.

Example 3:

referring to fig. 3, a further embodiment of the cloud mobile phone distribution system according to the present application is shown, where the system includes: the system comprises: a first client 101, a second client 102, a first cloud handset server 103, a second cloud handset server 104, and a third cloud handset server 105, wherein,

the first client 101 is coupled to the third cloud handset server 105, and is configured to send a first application request to the third cloud handset server 105; the first client 101 is a new user; the new user is a client connected with the third cloud mobile phone server 105 for the first time; the first client 101 includes a plurality of clients 1011, 1012 … …, etc.;

the second client 102 is coupled to the third cloud handset server 105, and is configured to send a second application request to the third cloud handset server 105; the second client 102 is an old user; the old user is a client connected with the third cloud mobile phone server 105 at least twice; the second client 102 comprises a plurality of clients 1021, 1022 … … and the like;

the third cloud mobile phone server 105 is respectively coupled to the first client 101, the second client 102, the first cloud mobile phone server 103, and the second cloud mobile phone server 104, and is configured to receive a first application request sent by the first client 101 and a second application request sent by the second client 102; sending the first application request to the first cloud mobile phone server 103, and sending the second application request to the second cloud mobile phone server 104;

the first cloud mobile phone server 103 is respectively coupled with the third cloud mobile phone server 105, the first client 101 and the second cloud mobile phone server, and the first cloud mobile phone server 103 includes a plurality of cloud mobile phones 1031, 1032 … … and the like; the first cloud mobile phone server 103 is configured to receive a first application request sent by the third cloud mobile phone server 105, and allocate a cloud mobile phone with a first application installed to the first client 101 according to the first application request; the second cloud mobile phone server 104 is respectively coupled with the third cloud mobile phone server 105, the second client 102 and the first cloud mobile phone server 103, and the second cloud mobile phone server 104 includes a plurality of cloud mobile phones 1041, 1042 … … and the like; the second cloud mobile phone server 104 is configured to receive a second application request sent by the third cloud mobile phone server 105, and allocate a cloud mobile phone with a second application installed to the second client 102 according to the second application request; the second client 102 comprises a first client 1021 and a second client 1022, and when the level of the first client 1021 is higher than that of the second client 1022, the third cloud cellphone server 105 preferentially sends the second application request of the first client 1021 to the second cloud cellphone server 104.

A first number of redundant cloud mobile phones are reserved in the second cloud mobile phone server 104, so as to be used for standby when the number of applied cloud mobile phones is large; when the cloud mobile phone in the first cloud mobile phone server 103 is occupied by a certain threshold, the threshold can be set, that is, when the cloud mobile phone cannot be reallocated to a new user, the second cloud mobile phone server 104 can automatically send the redundant reserved cloud mobile phone to the first cloud mobile phone server 103, so that sufficient cloud mobile phones in the first cloud mobile phone server 103 are ensured to be used by the new user, the cloud mobile phone resources are maximally used, and the utilization rate of the cloud mobile phone is improved. The first client 101 comprises a first client A1011 and a first client B1012, wherein the first client A1011 belongs to a first network operator, the first client B1012 belongs to a second network operator, and the first network operator is different from the second network operator; the first cloud mobile phone server 103 comprises a first cloud mobile phone 1031 and a second cloud mobile phone 1032, the first cloud mobile phone 1031 belongs to a first network operator, and the second cloud mobile phone 1032 belongs to a second network operator; the first cloud phone server 103 allocates the first cloud phone 1031 to the first client a 1011, and allocates the second cloud phone 1032 to the first client b 1012.

The second client 102 comprises a first client 1021 and a second client 1022, wherein the first client 1021 belongs to a first network operator, and the second client 1022 belongs to a second network operator; the second cloud mobile phone server 104 includes a third cloud mobile phone 1041 and a fourth cloud mobile phone 1042, the third cloud mobile phone 1041 belongs to a first network operator, and the fourth cloud mobile phone 1042 belongs to a second network operator; the second cloud handset server 104 allocates a third cloud handset 1041 to the second client a 1021 and allocates a fourth cloud handset 1042 to the second client b 1022.

Because the network used by the user can be different networks such as mobile network, communication network and telecommunication network, the cloud mobile phone server can be divided into different machine rooms in the embodiment, each machine room belongs to different network operators, a certain amount of cloud mobile phones are prestored in each machine room, the cloud mobile phones in the machine rooms of the corresponding operators are distributed according to the operators to which the user belongs, and according to the principle that the network operators are distributed in the nearby machine rooms, the speed of the user entering the cloud mobile phones for application is higher, and the experience degree of the user is improved.

Example 4:

referring to fig. 4, a specific embodiment of the cloud mobile phone allocation method according to the present application is shown, and the method includes:

step 101, a first client sends a first application request to a third cloud mobile phone server; the first client is a new user; the new user is a client connected with the third cloud mobile phone server for the first time;

step 102, the second client sends a second application request to a third cloud mobile phone server; the second client is an old user; the old user is a client which is connected with the third cloud mobile phone server at least twice;

103, the third cloud mobile phone server sends a first application request to the first cloud mobile phone server, and the first cloud mobile phone server allocates a cloud mobile phone with a first application installed to the first client according to the first application request;

and step 104, the third cloud mobile phone server sends a second application request to the second cloud mobile phone server, and the second cloud mobile phone server distributes a cloud mobile phone with the second application installed to the second client according to the second application request. The second client can be divided into different grades, and the third cloud mobile phone server preferentially sends the second application request of the second client with the higher grade to the second cloud mobile phone server. For example, when the second application is a game application, the level of the second client can be divided by the level of the client top-up money amount.

The third cloud mobile phone server can judge whether the first client and the second client are new users or old users, and the new users and the old users are distributed to different cloud mobile phone servers, so that the new users do not need to queue with the old users to wait for the distribution of the cloud mobile phones, the experience of the new users for the first time is smoother, and the experience of the old users is improved.

The first cloud mobile phone server is equivalent to a cloud mobile phone pool, a plurality of cloud mobile phones are stored in the cloud mobile phone pool in advance, the cloud mobile phones are only used by a new user, when the new user sends a first application request, the first cloud mobile phone server distributes a cloud mobile phone to the first client for use, and a first application required by the first client is installed on the cloud mobile phone; the first application may be a gaming application or other application.

The second cloud mobile phone server is also equivalent to a cloud mobile phone pool, a plurality of cloud mobile phones are stored in the cloud mobile phone pool in advance, the cloud mobile phones are only used by the old user, when the old user sends a second application request, the second cloud mobile phone server distributes a cloud mobile phone to the second client for use, and the second application required by the second client is installed on the cloud mobile phone.

According to the embodiment, the client is divided into the old and new users, the different cloud mobile phone servers are distributed to the old and new users, the old users are divided into different grades, the old users are reasonably distributed according to the different grades, the experience degree of the old and new users is improved, and the application of cloud mobile phone resources and the utilization rate of a system are also improved.

Example 5:

referring to fig. 5, another specific embodiment of the cloud phone allocation method according to the present application is shown, where the method includes:

step 201, a first client sends a first application request to a third cloud mobile phone server; the first client is a new user; the new user is a client connected with the third cloud mobile phone server for the first time;

step 202, the second client sends a second application request to a third cloud mobile phone server; the second client is an old user; the old user is a client which is connected with the third cloud mobile phone server at least twice;

step 203, the third cloud mobile phone server sends a first application request to the first cloud mobile phone server, and the first cloud mobile phone server allocates a cloud mobile phone with the first application installed to the first client according to the first application request;

step 204, the third cloud mobile phone server sends a second application request to the second cloud mobile phone server, and the second cloud mobile phone server allocates a cloud mobile phone with a second application installed to the second client according to the second application request; the second client can be divided into different grades, and the third cloud mobile phone server preferentially sends a second application request of the second client with a high grade to the second cloud mobile phone server;

step 205, when the second cloud mobile phone server detects that no redundant cloud mobile phones in the first cloud mobile phone server are allocated to the new user, the second cloud mobile phone server automatically sends the redundant cloud mobile phones to the first cloud mobile phone server. Therefore, sufficient cloud mobile phones are ensured to be used by new users in the first cloud mobile phone server 103, cloud mobile phone resources are used to the maximum extent, and the utilization rate of the cloud mobile phones is improved.

Example 6:

referring to fig. 6, another specific embodiment of the cloud mobile phone allocation method according to the present application is shown, where the method includes:

step 301, the first client comprises a first client A and a first client B, the first client A belongs to a first network operator, the first client B belongs to a second network operator, and the first network operator is different from the second network operator; the first client side A sends a first application request to a third cloud mobile phone server, and the second client side B sends a second application request to the third cloud mobile phone server;

step 302, the second client includes a second client a and a second client b, the second client a belongs to a first network operator, and the second client b belongs to a second network operator; the second client A sends a third application request to a third cloud mobile phone server, and the second client B sends a fourth application request to the third cloud mobile phone server;

step 303, the third cloud mobile phone server sends the first application request and the second application request to the first cloud mobile phone server; the first cloud mobile phone server comprises a first cloud mobile phone and a second cloud mobile phone, the first cloud mobile phone belongs to a first network operator, and the second cloud mobile phone belongs to a second network operator; the first cloud mobile phone server allocates a first cloud mobile phone with a first application installed to a first client A according to the first application request; the first cloud mobile phone server distributes a second cloud mobile phone with a second application installed to the first client B according to the second application request;

step 304, the third cloud mobile phone server sends a third application request and a fourth application request to the second cloud mobile phone server; the second cloud mobile phone server comprises a third cloud mobile phone and a fourth cloud mobile phone, the third cloud mobile phone belongs to the first network operator, and the fourth cloud mobile phone belongs to the second network operator; the second cloud mobile phone server allocates a third cloud mobile phone with a third application installed to the second client A according to the third application request; the second cloud mobile phone server allocates a fourth cloud mobile phone with a fourth application installed to the second client B according to the fourth application request;

step 305, when the second cloud mobile phone server detects that no redundant cloud mobile phones in the first cloud mobile phone server are allocated to the new user, the second cloud mobile phone server automatically sends redundant cloud mobile phones corresponding to the network operator to the first cloud mobile phone server.

Because the network used by the client can be different networks such as mobile network, communication network and telecommunication network, the cloud mobile phone server can be divided into different machine rooms in the embodiment, each machine room belongs to different network operators, a certain amount of cloud mobile phones are prestored in each machine room, and the cloud mobile phones in the machine rooms of the corresponding operators are distributed according to the operators to which the client belongs.

According to the embodiments, the application has the following beneficial effects:

first, the method and the system set different cloud mobile phone servers for the new user and the old user, so that the new user does not need to queue with the old user for waiting distribution, the experience of the new user for the first time is smoother, and the experience degree of the old user is also improved.

Secondly, the third cloud mobile phone server preferentially allocates the cloud mobile phones to the old users with high levels according to the levels of the old users, so that the experience degree of the old users with high levels is improved.

Thirdly, the cloud mobile phones of corresponding network operators can be distributed to the client side according to the network operators to which the new and old users belong in the first cloud mobile phone server and the second cloud mobile phone server, so that the new and old users can experience better and more smoothly.

Fourthly, a certain number of cloud mobile phones are reserved in the second cloud mobile phone server, and when no distributable cloud mobile phone exists in the first cloud mobile phone server, the second cloud mobile phone server can automatically supplement the reserved cloud mobile phones to the first cloud mobile phone server, so that cloud mobile phone resources are utilized to the maximum extent.

While the invention has been described in detail and with reference to specific embodiments thereof by way of example, it will be understood by those skilled in the art that the foregoing examples are illustrative only and are not intended to limit the scope of the invention. Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention. The scope of the invention is defined by the appended claims.

Claims (10)

1. A cloud-enabled handset distribution system, comprising: a first client, a second client, a first cloud cell phone server, a second cloud cell phone server, and a third cloud cell phone server, wherein,

the first client is coupled with the third cloud mobile phone server and used for sending a first application request to the third cloud mobile phone server; the first client is a new user;

the second client is coupled with the third cloud mobile phone server and used for sending a second application request to the third cloud mobile phone server; the second client is an old user;

the third cloud mobile phone server is respectively coupled with the first client, the second client, the first cloud mobile phone server and the second cloud mobile phone server, and is used for receiving the first application request sent by the first client and the second application request sent by the second client; sending the first application request to the first cloud mobile phone server, and sending the second application request to the second cloud mobile phone server;

the first cloud mobile phone server is respectively coupled with the third cloud mobile phone server and the first client, and comprises a plurality of cloud mobile phones; the first cloud mobile phone server is used for receiving the first application request sent by the third cloud mobile phone server and distributing a cloud mobile phone with a first application installed to the first client according to the first application request;

the second cloud mobile phone server is respectively coupled with the third cloud mobile phone server and the second client, and comprises a plurality of cloud mobile phones; the second cloud mobile phone server is used for receiving the second application request sent by the third cloud mobile phone server, and distributing a cloud mobile phone with a second application installed to the second client according to the second application request.

2. The cloud phone distribution system of claim 1, wherein the second client comprises a first client and a second client, and when the level of the first client is higher than that of the second client, the third cloud phone server preferentially sends the second application request of the first client to the second cloud phone server.

3. The cloud phone distribution system of claim 1, wherein the first client comprises a first client A and a first client B, the first client A belongs to a first network operator, the first client B belongs to a second network operator, and the first network operator is different from the second network operator;

the first cloud mobile phone server comprises a first cloud mobile phone and a second cloud mobile phone, the first cloud mobile phone belongs to a first network operator, and the second cloud mobile phone belongs to a second network operator;

and the first cloud mobile phone server allocates the first cloud mobile phone to the first client A, and allocates the second cloud mobile phone to the first client B.

4. The cloud phone distribution system of claim 1, wherein the second client comprises a first client and a second client, the first client belongs to a first network operator, the second client belongs to a second network operator, and the first network operator is different from the second network operator;

the second cloud mobile phone server comprises a third cloud mobile phone and a fourth cloud mobile phone, wherein the third cloud mobile phone belongs to a first network operator, and the fourth cloud mobile phone belongs to a second network operator;

and the second cloud mobile phone server allocates the third cloud mobile phone to the second client A and allocates the fourth cloud mobile phone to the second client B.

5. The cloud phone distribution system of claim 1, wherein the first cloud phone server is further coupled to the second cloud phone server, and when no distributable cloud phone exists in the first cloud phone server, the second cloud phone server automatically supplements redundant cloud phones to the first cloud phone server.

6. The cloud phone distribution system of claim 1, wherein the new user is a client connected to the third cloud phone server for the first time; the old user is a client which is connected with the third cloud mobile phone server at least twice.

7. A cloud mobile phone distribution method is characterized by comprising the following steps:

the first client sends a first application request to a third cloud mobile phone server; the first client is a new user;

the second client sends a second application request to the third cloud mobile phone server; the second client is an old user;

the third cloud mobile phone server sends the first application request to a first cloud mobile phone server, and the first cloud mobile phone server allocates a cloud mobile phone with a first application installed to the first client according to the first application request;

and the third cloud mobile phone server sends the second application request to a second cloud mobile phone server, and the second cloud mobile phone server allocates a cloud mobile phone with a second application installed to the second client according to the second application request.

8. The cloud mobile phone distribution method according to claim 7, wherein the second client includes a first client and a second client, and when the level of the second client is higher than that of the second client, the third cloud mobile phone server preferentially sends the second application request of the first client to the second cloud mobile phone server.

9. The cloud phone distribution method according to claim 7, wherein the first client includes a first client A and a first client B, the first client A belongs to a first network operator, the first client B belongs to a second network operator, and the first network operator is different from the second network operator; the first cloud mobile phone server comprises a first cloud mobile phone and a second cloud mobile phone, the first cloud mobile phone belongs to a first network operator, and the second cloud mobile phone belongs to a second network operator; the first cloud mobile phone server allocates the first cloud mobile phone to the first client A, and allocates the second cloud mobile phone to the first client B;

the second client comprises a first client and a second client, the first client belongs to a first network operator, and the second client belongs to a second network operator; the second cloud mobile phone server comprises a third cloud mobile phone and a fourth cloud mobile phone, wherein the third cloud mobile phone belongs to a first network operator, and the fourth cloud mobile phone belongs to a second network operator; and the second cloud mobile phone server allocates the third cloud mobile phone to the second client A and allocates the fourth cloud mobile phone to the second client B.

10. The cloud phone allocation method according to claim 7, wherein when no allocable cloud phone exists in the first cloud phone server, the second cloud phone server automatically supplements redundant cloud phones to the first cloud phone server.

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