CN111858024B - Method, cloud end and system for realizing intelligent access of terminal - Google Patents

Abstract

The invention relates to the technical field of multimedia, in particular to a method, a cloud end and a system for realizing intelligent access of a terminal. The method for realizing intelligent access of the terminal comprises the following steps: the cloud terminal receives a terminal access request, wherein the cloud terminal is provided with a plurality of access lines, and different access lines are provided by different cloud service providers; the cloud terminal selects a proper access line for the terminal by analyzing the connection data of the terminal and/or the load data of a processing server of the cloud terminal; the connection data of the terminal comprises one or more of the following: broadband facilitator, historical connection data. Because the cloud is connected with different cloud service providers, the cloud can generate an optimal access line for the cloud, and the terminal does not need to replace a broadband service provider, so that the cost of a merchant is greatly reduced.

Description

Method, cloud end and system for realizing intelligent access of terminal

Technical Field

The invention relates to the technical field of multimedia, in particular to a method, a cloud end and a system for realizing intelligent access of a terminal.

Background

Along with development and maturity of network technology and cloud technology, various KTV software systems in the market currently mainly realize cloud terminal integration, and merchant terminal systems realize various O2O value-added functions by accessing to a cloud center. However, because broadband service providers selected during construction of different KTV places are different, and network communication quality of each broadband service provider is different, when cloud services are used in places, the cloud services are limited by the network communication quality, and service presentation effects of each KTV place are different, so that user experience is inconsistent, and service public praise is uneven.

The existing solution is to require a KTV place to replace a broadband service provider, and solve the problem by improving the network communication quality. However, the method increases the cost of merchants, is difficult to land, causes a service popularization threshold to be high, and is unfavorable for rapidly popularizing the service in a large range.

Disclosure of Invention

Therefore, a method for realizing intelligent access of a terminal is needed to solve the problems of poor user experience and high business popularization cost of merchants caused by poor broadband communication quality possibly brought by broadband service providers fixed in an audio-visual place when cloud service is used in the audio-visual place. The specific technical scheme is as follows:

A method for realizing intelligent access of a terminal comprises the following steps:

the cloud terminal receives a terminal access request, wherein the cloud terminal is provided with a plurality of access lines, and different access lines are provided by different cloud service providers;

the cloud terminal selects a proper access line for the terminal by analyzing the connection data of the terminal and/or the load data of a processing server of the cloud terminal;

the connection data of the terminal comprises one or more of the following: broadband facilitator, historical connection data.

Further, the cloud end is provided with a comprehensive control server and more than two processing servers;

the comprehensive control server is used for: and when receiving the access request of the terminal, the distribution processing server communicates with the terminal.

Further, the "cloud end analyzing connection data of the terminal and/or processing server load data of the cloud end" further includes the steps of:

judging whether the broadband service provider corresponding to the terminal has more than two bound processing servers, if so, selecting a proper access line for the terminal according to the sequence from small to large of the loads of all the processing servers bound by the broadband service provider corresponding to the terminal by the comprehensive control server;

Otherwise, judging whether the terminal and the cloud end are in first communication, if so, selecting a proper access line for the terminal by the comprehensive control server according to the sequence of the load of each processing server from small to large; otherwise, selecting a proper access line for the terminal according to the historical connection data corresponding to the terminal.

Further, the step of selecting a suitable access line for the terminal according to the historical connection data corresponding to the terminal further includes the steps of:

and calculating the average time delay of the historical communication of each processing server in the cloud and the broadband service provider corresponding to the terminal, and selecting a proper access line for the terminal according to the order of the average time delay from small to large.

Further, the selecting an appropriate access line for the terminal includes: and configuring a main access processing server and a standby access processing server list for the terminal.

Further, the method further comprises the steps of:

the terminal is accessed to the main access processing server, and when the communication between the terminal and the main access processing server fails, the terminal is preferably switched to be accessed to a standby access processing server with the minimum load;

when the communication between the terminal and the standby access processing server fails, the terminal preferably switches to access to the standby access processing server with the minimum load;

And when the terminal and the main access processing server resume communication, the terminal switches access to the main access processing server.

Further, the method further comprises the steps of:

in the communication process of the cloud and the terminal, the comprehensive control server and the processing servers record communication delay data of each time;

and the comprehensive control server asynchronously calculates the load condition of each processing server and the communication condition data of each processing server and the terminal.

Further, the "the integrated control server asynchronously calculates the load status of each processing server" further includes the steps of:

the comprehensive control server calculates the load condition of each processing server according to operation parameters, wherein the operation parameters comprise one or more of the following: the method comprises the steps of presetting a time t average load, an average request processing amount per second, an average request processing time delay per second, a preset time t average memory utilization rate, a preset time t average hard disk utilization rate and a preset time t average bandwidth utilization rate of a processing server, wherein t is a positive integer;

the "the comprehensive control server calculates the load status of each processing server according to the operation parameters", and further includes the steps of:

By the formula: the load condition of each processing server is calculated by (processing server preset time t average load x 0.35) + (processing request amount per second/10000) x 0.25) + (preset time t average memory utilization x 0.15) + (preset time t average hard disk utilization x 0.05) + (preset time t average bandwidth utilization x 0.2).

Further, the method further comprises the steps of:

the terminal executes network monitoring and uploads monitoring data to the comprehensive control server;

the comprehensive control server obtains the communication quality condition of each access line by analyzing the monitoring data, and the comprehensive control server formulates an access line for the next access of the terminal according to the communication quality condition of each access line.

Further, the terminal is used for providing song requesting service, and the terminal comprises one or more of the following: a song ordering screen and a set top box.

In order to solve the technical problems, the cloud terminal for realizing intelligent access of the terminal is further provided, and the specific technical scheme is as follows:

a cloud end for realizing intelligent access of a terminal, wherein the cloud end is provided with a plurality of access lines, and different access lines are provided by different cloud service providers;

the cloud end is used for: receiving a terminal access request, and selecting a proper access line for the terminal by analyzing connection data of the terminal and/or processing server load data of a cloud;

The connection data of the terminal comprises one or more of the following: broadband facilitator, historical connection data.

Further, the cloud end is provided with a comprehensive control server and more than two processing servers;

the comprehensive control server is used for: and when receiving the access request of the terminal, the distribution processing server communicates with the terminal.

Further, the cloud end is further configured to:

judging whether the broadband service provider corresponding to the terminal has more than two bound processing servers, if so, selecting a proper access line for the terminal according to the sequence from small to large of the loads of all the processing servers bound by the broadband service provider corresponding to the terminal by the comprehensive control server;

otherwise, judging whether the terminal and the cloud end are in first communication, if so, selecting a proper access line for the terminal by the comprehensive control server according to the sequence of the load of each processing server from small to large; otherwise, selecting a proper access line for the terminal according to the historical connection data corresponding to the terminal.

In order to solve the technical problems, the invention also provides a system for realizing intelligent access of the terminal, which comprises the following specific technical scheme:

a system for implementing intelligent access of a terminal, comprising: a terminal and a cloud;

The cloud end is used for: receiving a terminal access request, and selecting a proper access line for the terminal by analyzing connection data of the terminal and/or processing server load data of a cloud, wherein the cloud is provided with a plurality of access lines, and different access lines are provided by different cloud service providers;

the connection data of the terminal comprises one or more of the following: broadband facilitator, historical connection data;

the cloud end is provided with a comprehensive control server and more than two processing servers;

the comprehensive control server is used for: and when receiving the access request of the terminal, the distribution processing server communicates with the terminal.

Further, the selecting an appropriate access line for the terminal includes: configuring a main access processing server and a standby access processing server list for a terminal;

the terminal is used for: accessing the main access processing server, when the communication between the terminal and the main access processing server fails, the terminal is further configured to: preferably switching access to a standby access processing server with small load;

when the terminal fails to communicate with the standby access processing server, the terminal is further configured to: preferably switching access to a standby access processing server with a small next load;

When the terminal resumes communication with the primary access handling server, the terminal is further configured to: and switching access to the main access processing server.

The beneficial effects of the invention are as follows: the cloud end is provided with a plurality of access lines, different access lines are provided by different cloud service providers, when the cloud end receives an access request of the terminal, the cloud end can select a proper access line for the terminal by analyzing connection data of the terminal and/or processing server load data of the cloud end, no matter which broadband service provider of the terminal is, the cloud end is connected with different cloud service providers, so that the cloud end can generate an optimal access line for the terminal, the terminal does not need to replace the broadband service provider, the cost of a merchant is greatly reduced, in the technical scheme, the terminal does not need to be adjusted, the cloud end has strong compatibility, and the cloud end is beneficial to rapidly popularizing service in a large range.

Drawings

Fig. 1 is a flowchart of a method for implementing intelligent access of a terminal according to an embodiment;

fig. 2 is a flowchart of a cloud end processing server load data and/or connection data of a terminal through analysis according to an embodiment;

fig. 3 is a schematic block diagram of a terminal for implementing intelligent access of the terminal according to an embodiment;

Fig. 4 is a schematic block diagram of a system for implementing intelligent access of a terminal according to an embodiment.

Reference numerals illustrate:

300. the cloud end of the cloud end is used for processing the data,

400. a system for realizing the intelligent access of the terminal,

401. the terminal is provided with a terminal device,

402. and (5) cloud end.

Detailed Description

In order to describe the technical content, constructional features, achieved objects and effects of the technical solution in detail, the following description is made in connection with the specific embodiments in conjunction with the accompanying drawings.

Referring to fig. 1 to fig. 2, in this embodiment, a method for implementing intelligent access of a terminal may be applied to a cloud terminal for implementing intelligent access of a terminal, where the cloud terminal is provided with a plurality of access lines, and different access lines are provided by different cloud service providers. Among the different cloud service providers include, but are not limited to: arian cloud, baidu cloud, tengxun cloud, amazon cloud and Hua are clouds.

In this embodiment, the method for implementing terminal intelligent access may also be applied to a system for implementing terminal intelligent access, where the system for implementing terminal intelligent access includes: the cloud service system comprises a terminal and a cloud, wherein the cloud is provided with a plurality of access lines, and different access lines are provided by different cloud service providers; the terminal is preferably a device for providing a song requesting service in an audiovisual site in this embodiment, such as: a song requesting screen or a set top box. It should be noted that in any other places, the technical idea of the present invention can be used, but the present invention is not limited to application in audiovisual places, because the problems of poor communication quality, poor user experience, etc. caused by the fixation of the broadband service provider corresponding to the terminal are involved in the communication process between the terminal and the cloud.

Referring to fig. 1, a specific implementation of a method for implementing intelligent access of a terminal is as follows:

step S101: the cloud terminal receives a terminal access request, a plurality of access lines are arranged on the cloud terminal, and different access lines are provided by different cloud service providers.

Step S102: the cloud terminal selects a proper access line for the terminal by analyzing the connection data of the terminal and/or the load data of a processing server of the cloud terminal; the connection data of the terminal comprises one or more of the following: broadband facilitator, historical connection data.

The cloud end is provided with a plurality of access lines, different access lines are provided by different cloud service providers, when the cloud end receives an access request of the terminal, the cloud end can select a proper access line for the terminal by analyzing connection data of the terminal and/or processing server load data of the cloud end, no matter which broadband service provider of the terminal is, the cloud end is connected with different cloud service providers, so that the cloud end can generate an optimal access line for the terminal, the terminal does not need to replace the broadband service provider, the cost of a merchant is greatly reduced, in the technical scheme, the terminal does not need to be adjusted, the cloud end has strong compatibility, and the cloud end is beneficial to rapidly popularizing service in a large range.

In this embodiment, the cloud end is provided with a comprehensive control server and two or more processing servers; the comprehensive control server is used for: and when receiving the access request of the terminal, the distribution processing server communicates with the terminal. The distributed processing server directly communicates with the terminal, and processes and feeds back the request of the terminal. Such as: and sending an access request to the cloud end by the song requesting screen or the set top box, wherein the comprehensive control server receives the access request of the song requesting screen, and the distribution processing server A communicates with the song requesting screen, so that the request content of the song requesting screen is processed by the processing server A.

In this embodiment, each processing server may be bound to a corresponding broadband service provider in advance. If the processing server A, the processing server B and the processing server C are available, the processing server A is bound with the mobile broadband service provider in advance, the processing server B is bound with the telecom broadband service provider, and the processing server C is bound with the connectivity broadband service provider. The processing server may not be bound, i.e. it is not bound to any broadband facilitator like processing server D. How to allocate a suitable broadband server to communicate with a terminal is shown in fig. 2:

The cloud end analyzing the connection data of the terminal and/or the load data of the processing server of the cloud end further comprises the following steps:

step S201: is the broadband facilitator to which the terminal corresponds have more than two bound processing servers?

If yes, step S202 is executed: and the comprehensive control server selects a proper access line for the terminal according to the sequence from small to large of the loads of the processing servers bound by the broadband service providers corresponding to the terminal.

Otherwise, step S203 is executed: is the terminal in first communication with the cloud?

If yes, step S204 is executed: the integrated control server selects a proper access line for the terminal according to the order of the loads of the processing servers from small to large.

Otherwise, step S205 is performed: and selecting a proper access line for the terminal according to the historical connection data corresponding to the terminal.

Such as: in the audiovisual site a, the broadband service provider corresponding to the song requesting screen is a telecom, the terminal sends an access request to the cloud, and the cloud receives the access request of the terminal, in this embodiment, the cloud includes six processing servers, where the processing server 1, the processing server 2, and the processing server 3 are all bound with the telecom broadband service provider in advance. The cloud judges that more than two bound processing servers are corresponding to the broadband server telecommunication of the song ordering screen, the comprehensive control server judges the load of the processing server 1, the processing server 2 and the processing server 3, wherein the load of the processing server 2 is minimum, the processing server 3 is centered, the load of the processing server 1 is maximum, the comprehensive control server preferably takes an access line provided by the processing server 2 as a proper access line, namely, the processing server 2 is selected to communicate with the song ordering screen, a request of the song ordering screen is processed, and if the request content of the song ordering screen is updated song library, the processing server 2 processes the request.

In another embodiment, the cloud includes six processing servers, which do not include more than two processing servers that are previously bound to the telecom broadband service provider. Judging whether the song requesting screen communicates with the cloud for the first time, if so, selecting a proper access line for the terminal by the comprehensive control server according to the order of the loads of the processing servers from small to large, for example: the load of the processing server 4 is the smallest of the six processing servers, and it is preferable to use the access line provided by the processing server 4 as a suitable access line to communicate with the song-ordering screen, process the request of the song-ordering screen, if the request content of the song-ordering screen is updated song library, and then the processing server 4 processes the request.

In another embodiment, the cloud end includes six processing servers, which do not include more than two processing servers that are bound to the telecom broadband service provider in advance, and do not communicate with the cloud end for the first time, and then a suitable access line is selected for the terminal according to the terminal historical connection data. The method comprises the following steps:

the step of selecting a proper access line for the terminal according to the historical connection data corresponding to the terminal further comprises the steps of:

And calculating the average time delay of the historical communication of each processing server in the cloud and the broadband service provider corresponding to the terminal, and selecting a proper access line for the terminal according to the order of the average time delay from small to large. Such as: the cloud comprises six processing servers, wherein the processing servers 1, 4 and 5 are in historical communication with the terminal, and the average time delay is 2ms, 3ms and 1ms respectively, so that the line provided by the processing server 5 is preferably used as a proper access line.

It should be noted that, in each communication process between the cloud and the terminal, the comprehensive control server and each processing server record each communication delay data; and the comprehensive control server asynchronously calculates the load condition of each processing server and the communication condition data of each processing server and the terminal. In addition, the cloud end also records the access IP of the terminal and the broadband service provider to which the terminal belongs. By recording this data, in order to subsequently select the appropriate access line for the terminal based on this historical data.

The load conditions of the processing servers are calculated as follows:

the "the integrated control server asynchronously calculates the load status of each processing server" further includes the steps of:

The comprehensive control server calculates the load condition of each processing server according to operation parameters, wherein the operation parameters comprise one or more of the following: the method comprises the steps of presetting a time t average load, an average request processing amount per second, an average request processing time delay per second, a preset time t average memory utilization rate, a preset time t average hard disk utilization rate and a preset time t average bandwidth utilization rate of a processing server, wherein t is a positive integer;

the "the comprehensive control server calculates the load status of each processing server according to the operation parameters", and further includes the steps of:

by the formula: the load condition of each processing server is calculated by (processing server preset time t average load x 0.35) + (processing request amount per second/10000) x 0.25) + (preset time t average memory utilization x 0.15) + (preset time t average hard disk utilization x 0.05) + (preset time t average bandwidth utilization x 0.2).

In this embodiment, t is preferably 5 minutes, and in other embodiments, the time period may be set to other predetermined time periods according to the actual situation.

In this embodiment, the selecting an appropriate access line for the terminal includes: and configuring a main access processing server and a standby access processing server list for the terminal.

Specifically, when a terminal is connected with a cloud, the terminal accesses the main access processing server, and when the communication between the terminal and the main access processing server fails, the terminal is preferably switched to access to a standby access processing server with the minimum load;

when the communication between the terminal and the standby access processing server fails, the terminal preferably switches to access to the standby access processing server with the minimum load;

and when the terminal and the main access processing server resume communication, the terminal switches access to the main access processing server.

In this embodiment, a suitable access line is provided for better. The method also comprises the steps of:

the terminal executes network monitoring and uploads monitoring data to the comprehensive control server;

the comprehensive control server obtains the communication quality condition of each access line by analyzing the monitoring data, and the comprehensive control server formulates an access line for the next access of the terminal according to the communication quality condition of each access line. Such as: when the terminal is initially connected with the cloud, the processing server 1 is selected as a main access processing server, the processing server 2, the processing server 3 and the processing server 5 are used as standby access servers, the terminal monitors the network condition when communicating with access lines provided by the four processing servers through a network, and finds that the network quality is optimal when communicating with the cloud through the access lines provided by the processing server 3, and when the terminal is connected with the cloud next time, the access lines provided by the processing server 3 can be preferably used as proper access lines.

Referring to fig. 3, in this embodiment, a cloud 300 for implementing intelligent access of a terminal is implemented as follows:

the cloud 300 is provided with a plurality of access lines, and different access lines are provided by different cloud service providers; the cloud 300 is configured to: receiving a terminal access request, and selecting a proper access line for the terminal by analyzing the connection data of the terminal and/or the processing server load data of the cloud 300; the connection data of the terminal comprises one or more of the following: broadband facilitator, historical connection data.

The cloud 300 is provided with a plurality of access lines, the different access lines are provided by different cloud service providers, when the cloud 300 receives an access request of a terminal, the cloud 300 can select a proper access line for the terminal by analyzing connection data of the terminal and/or processing server load data of the cloud 300, no matter which broadband service provider of the terminal is connected with the cloud 300, the cloud 300 can generate an optimal access line for the terminal because the cloud 300 is connected with the different cloud service providers, the terminal does not need to replace the broadband service provider, so that the cost of a merchant is greatly reduced, in the technical scheme, the terminal does not need to be adjusted, the cloud 300 has strong compatibility, and is beneficial to rapidly popularizing service in a large range.

In this embodiment, the cloud end 300 is provided with a comprehensive control server and two or more processing servers; the comprehensive control server is used for: and when receiving the access request of the terminal, the distribution processing server communicates with the terminal. The distributed processing server directly communicates with the terminal, and processes and feeds back the request of the terminal. Such as: the song-order screen or the set-top box sends an access request to the cloud 300, the comprehensive control server receives the access request of the song-order screen, the distribution processing server A communicates with the song-order screen, and then the request content of the song-order screen is processed by the processing server A.

In this embodiment, each processing server may be bound to a corresponding broadband service provider in advance. If the processing server A, the processing server B and the processing server C are available, the processing server A is bound with the mobile broadband service provider in advance, the processing server B is bound with the telecom broadband service provider, and the processing server C is bound with the connectivity broadband service provider. The processing server may not be bound, i.e. it is not bound to any broadband facilitator like processing server D. How to allocate a suitable broadband server to communicate with a terminal is as follows:

The cloud 300 is further configured to: judging whether the broadband service provider corresponding to the terminal has more than two bound processing servers, if so, selecting a proper access line for the terminal according to the sequence from small to large of the loads of all the processing servers bound by the broadband service provider corresponding to the terminal by the comprehensive control server;

otherwise, judging whether the terminal and the cloud 300 are in first communication, if so, the comprehensive control server selects a proper access line for the terminal according to the order of the loads of all the processing servers from small to large; otherwise, selecting a proper access line for the terminal according to the historical connection data corresponding to the terminal.

Such as: in the audiovisual site a, the broadband service provider corresponding to the song requesting screen is a telecom, the terminal sends an access request to the cloud 300, and the cloud 300 receives the access request of the terminal, in this embodiment, the cloud 300 includes six processing servers, where the processing server 1, the processing server 2, and the processing server 3 are all bound with the telecom broadband service provider in advance. The cloud 300 judges that more than two bound processing servers are corresponding to the broadband server telecommunication of the song-order screen, the comprehensive control server judges the load of the processing server 1, the processing server 2 and the processing server 3, wherein the load of the processing server 2 is minimum, the processing server 3 is centered, the load of the processing server 1 is maximum, the comprehensive control server preferably uses an access line provided by the processing server 2 as a proper access line, namely, the processing server 2 is selected to communicate with the song-order screen, a request of the song-order screen is processed, and if the request content of the song-order screen is updated song library, the processing server 2 processes the request.

In another embodiment, the cloud 300 includes six processing servers, which do not include more than two processing servers previously bound to a telecom broadband service provider. Judging whether the song requesting screen communicates with the cloud 300 for the first time, if so, the comprehensive control server selects a proper access line for the terminal according to the order of the loads of the processing servers from small to large, for example: the load of the processing server 4 is the smallest of the six processing servers, and it is preferable to use the access line provided by the processing server 4 as a suitable access line to communicate with the song-ordering screen, process the request of the song-ordering screen, if the request content of the song-ordering screen is updated song library, and then the processing server 4 processes the request.

In another embodiment, the cloud 300 includes six processing servers, which do not include more than two processing servers that are bound to the telecom broadband service provider in advance, and do not communicate with the cloud 300 for the first time, and then a suitable access line is selected for the terminal according to the terminal history connection data.

The method comprises the following steps:

the cloud 300 is further configured to: and calculating the average time delay of the historical communication of each processing server of the cloud 300 and the broadband service provider corresponding to the terminal, and selecting a proper access line for the terminal according to the order of the time delay from small to large. Such as: the cloud 300 includes six processing servers, where the processing server 1, the processing server 4, and the processing server 5 communicate with the terminal history, and the average time delay is 2ms, 3ms, and 1ms, respectively, and then the line provided by the processing server 5 is preferably used as a suitable access line.

It should be noted that, in each communication process between the cloud 300 and the terminal, the comprehensive control server and each processing server record each communication delay data; and the comprehensive control server asynchronously calculates the load condition of each processing server and the communication condition data of each processing server and the terminal. In addition, the cloud 300 also records the access IP of the terminal and the broadband service provider to which the terminal belongs. By recording this data, in order to subsequently select the appropriate access line for the terminal based on this historical data.

The load conditions of the processing servers are calculated as follows:

the cloud 300 is further configured to: the comprehensive control server calculates the load condition of each processing server according to operation parameters, wherein the operation parameters comprise one or more of the following: the method comprises the steps of presetting a time t average load, an average request processing amount per second, an average request processing time delay per second, a preset time t average memory utilization rate, a preset time t average hard disk utilization rate and a preset time t average bandwidth utilization rate of a processing server, wherein t is a positive integer;

the "the comprehensive control server calculates the load status of each processing server according to the operation parameters", and further includes the steps of:

By the formula: the load condition of each processing server is calculated by (processing server preset time t average load x 0.35) + (processing request amount per second/10000) x 0.25) + (preset time t average memory utilization x 0.15) + (preset time t average hard disk utilization x 0.05) + (preset time t average bandwidth utilization x 0.2).

In this embodiment, t is preferably 5 minutes, and in other embodiments, the time period may be set to other predetermined time periods according to the actual situation.

In this embodiment, the selecting an appropriate access line for the terminal includes: and configuring a main access processing server and a standby access processing server list for the terminal.

Referring to fig. 4, in this embodiment, a specific embodiment of a system 400 for implementing intelligent access of a terminal is as follows:

a system 400 for implementing intelligent access to a terminal, comprising: a terminal 401 and a cloud 402;

the cloud 402 is configured to: receiving an access request of the terminal 401, and selecting a proper access line for the terminal 401 by analyzing connection data of the terminal 401 and/or processing server load data of a cloud 402, wherein the cloud 402 is provided with a plurality of access lines, and different access lines are provided by different cloud service providers;

The connection data of the terminal 401 includes one or more of the following: broadband facilitator, historical connection data;

the cloud 402 is provided with a comprehensive control server and more than two processing servers;

the comprehensive control server is used for: upon receiving the access request of the terminal 401, the allocation processing server communicates with the terminal 401.

The selecting a suitable access line for the terminal 401 includes: configuring a main access processing server and a standby access processing server list for the terminal 401;

the terminal 401 is configured to: accessing the primary access handling server, when the terminal 401 fails to communicate with the primary access handling server, the terminal 401 is further configured to: preferably switching access to a standby access processing server with small load;

when the communication between the terminal 401 and the standby access processing server fails, the terminal 401 is further configured to: preferably switching access to a standby access processing server with a small next load;

when the terminal 401 resumes communication with the primary access handling server, the terminal 401 is further configured to: and switching access to the main access processing server.

The cloud 402 is provided with a plurality of access lines, the different access lines are provided by different cloud service providers, when the cloud 402 receives an access request of the terminal 401, the cloud 402 can select a proper access line for the terminal 401 by analyzing connection data of the terminal 401 and/or processing server load data, no matter which broadband service provider of the terminal 401 is connected with the cloud 402, the cloud 402 can generate an optimal access line for the terminal, the terminal 401 does not need to replace the broadband service provider, so that the cost of a merchant is greatly reduced, in the technical scheme, the terminal 401 does not need to be adjusted, the cloud 402 has strong compatibility and is beneficial to rapidly popularizing service in a large range.

In this embodiment, each processing server may be bound to a corresponding broadband service provider in advance. If the processing server A, the processing server B and the processing server C are available, the processing server A is bound with the mobile broadband service provider in advance, the processing server B is bound with the telecom broadband service provider, and the processing server C is bound with the connectivity broadband service provider. The processing server may not be bound, i.e. it is not bound to any broadband facilitator like processing server D. How to allocate the appropriate broadband server to communicate with the terminal 401 is as follows:

the cloud 402 is further configured to: judging whether the broadband service provider corresponding to the terminal 401 has more than two bound processing servers, if so, selecting a proper access line for the terminal 401 by the comprehensive control server according to the sequence from small to large of the loads of all the processing servers bound by the broadband service provider corresponding to the terminal 401;

otherwise, judging whether the terminal 401 and the cloud 402 are in first communication, if so, the comprehensive control server selects a proper access line for the terminal 401 according to the order of the loads of the processing servers from small to large;

otherwise, a suitable access line is selected for the terminal 401 according to the historical connection data of the terminal 401.

Such as: in the audiovisual site a, the broadband service provider corresponding to the song requesting screen is a telecom, the terminal 401 sends an access request to the cloud 402, and the cloud 402 receives the access request of the terminal 401, in this embodiment, the cloud 402 includes six processing servers, where the processing server 1, the processing server 2, and the processing server 3 are all bound with the telecom broadband service provider in advance. The cloud 402 determines that there are more than two bound processing servers corresponding to the broadband server telecommunication of the song-order screen, the comprehensive control server determines the load sizes of the processing server 1, the processing server 2 and the processing server 3, wherein the load of the processing server 2 is minimum, the processing server 3 is centered, the load of the processing server 1 is maximum, the comprehensive control server preferably uses an access line provided by the processing server 2 as a suitable access line, namely selects the processing server 2 to communicate with the song-order screen, processes a request of the song-order screen, and if the request content of the song-order screen is an updated song library, the processing server 2 processes the request.

In another embodiment, the cloud 402 includes six processing servers, which do not include more than two processing servers previously bound to a telecom broadband server. Judging whether the song requesting screen communicates with the cloud 402 for the first time, if so, the comprehensive control server selects a suitable access line for the terminal 401 according to the order of the loads of the processing servers from small to large, for example: the load of the processing server 4 is the smallest of the six processing servers, and it is preferable to use the access line provided by the processing server 4 as a suitable access line to communicate with the song-ordering screen, process the request of the song-ordering screen, if the request content of the song-ordering screen is updated song library, and then the processing server 4 processes the request.

In another embodiment, the cloud 402 includes six processing servers, which do not include more than two processing servers that are bound to the telecom broadband service provider in advance, and do not communicate with the cloud 402 for the first time, and then a suitable access line is selected for the terminal 401 according to the historical connection data of the terminal 401. The method comprises the following steps:

the cloud 402 is further configured to: the "selecting a suitable access line for the terminal 401 according to the historical connection data corresponding to the terminal 401" further includes the steps of:

and calculating the average time delay of the historical communication of the broadband service providers corresponding to the terminal 401 by each processing server of the cloud 402, and selecting a proper access line for the terminal 401 according to the order of the time delay from small to large. Such as: the cloud 402 includes six processing servers, where the processing server 1, the processing server 4, and the processing server 5 communicate with the terminal 401 in a history manner, and the average time delay is 2ms, 3ms, and 1ms, respectively, and then the line provided by the processing server 5 is preferably used as a suitable access line.

It should be noted that, in each communication process between the cloud 402 and the terminal 401, the integrated control server and each processing server record each communication delay data; the integrated control server asynchronously calculates the load status of each processing server and the communication status data of each processing server and the terminal 401. In addition, the cloud 402 also records the access IP of the terminal 401 and the broadband service provider to which the terminal belongs. By recording this data, in order to subsequently select a suitable access line for the terminal 401 based on this historical data.

The load conditions of the processing servers are calculated as follows:

the cloud 402 is further configured to:

the comprehensive control server calculates the load condition of each processing server according to operation parameters, wherein the operation parameters comprise one or more of the following: the method comprises the steps of presetting a time t average load, an average request processing amount per second, an average request processing time delay per second, a preset time t average memory utilization rate, a preset time t average hard disk utilization rate and a preset time t average bandwidth utilization rate of a processing server, wherein t is a positive integer;

the "the comprehensive control server calculates the load status of each processing server according to the operation parameters", and further includes the steps of:

by the formula: the load condition of each processing server is calculated by (processing server preset time t average load x 0.35) + (processing request amount per second/10000) x 0.25) + (preset time t average memory utilization x 0.15) + (preset time t average hard disk utilization x 0.05) + (preset time t average bandwidth utilization x 0.2).

In this embodiment, t is preferably 5 minutes, and in other embodiments, the time period may be set to other predetermined time periods according to the actual situation.

In this embodiment, a suitable access line is provided for better. The method also comprises the steps of:

The terminal 401 performs network monitoring and uploads monitoring data to the integrated control server;

the comprehensive control server obtains the communication quality condition of each access line by analyzing the monitoring data, and the comprehensive control server formulates an access line for the next access of the terminal 401 according to the communication quality condition of each access line. Such as: when the terminal 401 is initially connected to the cloud 402, the processing server 1 is selected as a main access processing server, the processing server 2, the processing server 3 and the processing server 5 are selected as standby access servers, the terminal 401 monitors the network conditions when communicating with the access lines provided by the four processing servers through the network, and finds that the network quality is optimal when communicating with the cloud 402 through the access line provided by the processing server 3, and when the terminal 401 is connected to the cloud 402 next time, the access line provided by the processing server 3 can be preferably used as a suitable access line.

It should be noted that, although the foregoing embodiments have been described herein, the scope of the present invention is not limited thereby. Therefore, based on the innovative concepts of the present invention, alterations and modifications to the embodiments described herein, or equivalent structures or equivalent flow transformations made by the present description and drawings, apply the above technical solution, directly or indirectly, to other relevant technical fields, all of which are included in the scope of the invention.

Claims (13)

1. The method for realizing the intelligent access of the terminal is characterized by comprising the following steps:

the cloud terminal receives a terminal access request, wherein the cloud terminal is provided with a plurality of access lines, and different access lines are provided by different cloud service providers;

the cloud terminal selects a proper access line for the terminal by analyzing the connection data of the terminal and/or the load data of a processing server of the cloud terminal;

the connection data of the terminal comprises one or more of the following: broadband facilitator, historical connection data; the cloud end analyzing the connection data of the terminal and/or the load data of the processing server of the cloud end further comprises the following steps:

judging whether the broadband service provider corresponding to the terminal has more than two bound processing servers, if so, selecting a proper access line for the terminal by the comprehensive control server according to the sequence from small to large of the loads of all the processing servers bound by the broadband service provider corresponding to the terminal;

otherwise, judging whether the terminal and the cloud end are in first communication, if so, selecting a proper access line for the terminal by the comprehensive control server according to the sequence of the load of each processing server from small to large; otherwise, selecting a proper access line for the terminal according to the historical connection data corresponding to the terminal.

2. The method for realizing intelligent access of a terminal according to claim 1, wherein the cloud end is provided with a comprehensive control server and more than two processing servers;

the comprehensive control server is used for: and when receiving the access request of the terminal, the distribution processing server communicates with the terminal.

3. The method for implementing intelligent access of a terminal according to claim 1, wherein "selecting an appropriate access line for the terminal according to historical connection data corresponding to the terminal" further comprises the steps of:

and calculating the average time delay of the historical communication of each processing server in the cloud and the broadband service provider corresponding to the terminal, and selecting a proper access line for the terminal according to the order of the average time delay from small to large.

4. A method for implementing intelligent access of a terminal according to any one of claims 1 to 3, wherein selecting an appropriate access line for the terminal comprises: and configuring a main access processing server and a standby access processing server list for the terminal.

5. The method for implementing intelligent access of a terminal according to claim 4, further comprising the steps of:

the terminal is accessed to the main access processing server, and when the communication between the terminal and the main access processing server fails, the terminal is preferably switched to be accessed to a standby access processing server with the minimum load;

When the communication between the terminal and the standby access processing server fails, the terminal preferably switches to access to the standby access processing server with the minimum load;

and when the terminal and the main access processing server resume communication, the terminal switches access to the main access processing server.

6. The method for implementing intelligent access of a terminal according to claim 2, further comprising the steps of:

in the communication process of the cloud and the terminal, the comprehensive control server and the processing servers record communication delay data of each time;

and the comprehensive control server asynchronously calculates the load condition of each processing server and the communication condition data of each processing server and the terminal.

7. The method for implementing intelligent access of a terminal according to claim 6, wherein "the integrated control server asynchronously calculates the load status of each processing server" further comprises the steps of:

the comprehensive control server calculates the load condition of each processing server according to operation parameters, wherein the operation parameters comprise one or more of the following: the method comprises the steps of presetting a time t average load, an average request processing amount per second, an average request processing time delay per second, a preset time t average memory utilization rate, a preset time t average hard disk utilization rate and a preset time t average bandwidth utilization rate of a processing server, wherein t is a positive integer;

The "the comprehensive control server calculates the load status of each processing server according to the operation parameters", and further includes the steps of:

by the formula: the load condition of each processing server is calculated by (processing server preset time t average load x 0.35) + (processing request amount per second/10000) x 0.25) + (preset time t average memory utilization x 0.15) + (preset time t average hard disk utilization x 0.05) + (preset time t average bandwidth utilization x 0.2).

8. The method for implementing intelligent access of a terminal according to claim 2, further comprising the steps of:

the terminal executes network monitoring and uploads monitoring data to the comprehensive control server;

the comprehensive control server obtains the communication quality condition of each access line by analyzing the monitoring data, and the comprehensive control server formulates an access line for the next access of the terminal according to the communication quality condition of each access line.

9. The method for realizing intelligent access of a terminal according to claim 1, wherein,

the terminal is used for providing song requesting service, and comprises one or more of the following: a song ordering screen and a set top box.

10. The cloud terminal for realizing intelligent access of the terminal is characterized in that the cloud terminal is provided with a plurality of access lines, and different access lines are provided by different cloud service providers;

The cloud end is used for: receiving a terminal access request, and selecting a proper access line for the terminal by analyzing connection data of the terminal and/or processing server load data of a cloud;

the connection data of the terminal comprises one or more of the following: broadband facilitator, historical connection data;

the cloud end is further configured to:

judging whether the broadband service provider corresponding to the terminal has more than two bound processing servers, if so, selecting a proper access line for the terminal by the comprehensive control server according to the sequence from small to large of the loads of all the processing servers bound by the broadband service provider corresponding to the terminal;

otherwise, judging whether the terminal and the cloud end are in first communication, if so, selecting a proper access line for the terminal by the comprehensive control server according to the sequence of the load of each processing server from small to large; otherwise, selecting a proper access line for the terminal according to the historical connection data corresponding to the terminal.

11. The cloud terminal for realizing intelligent access of the terminal according to claim 10, wherein,

the cloud end is provided with a comprehensive control server and more than two processing servers;

the comprehensive control server is used for: and when receiving the access request of the terminal, the distribution processing server communicates with the terminal.

12. A system for implementing intelligent access to a terminal, comprising: a terminal and a cloud;

the cloud end is used for: receiving a terminal access request, and selecting a proper access line for the terminal by analyzing connection data of the terminal and/or processing server load data of a cloud, wherein the cloud is provided with a plurality of access lines, and different access lines are provided by different cloud service providers;

the connection data of the terminal comprises one or more of the following: broadband facilitator, historical connection data;

the cloud end is provided with a comprehensive control server and more than two processing servers;

the comprehensive control server is used for: when receiving an access request of a terminal, the distribution processing server communicates with the terminal;

the "connection data through analysis terminal and/or processing server load data of cloud end" further includes the steps of:

judging whether the broadband service provider corresponding to the terminal has more than two bound processing servers, if so, selecting a proper access line for the terminal according to the sequence from small to large of the loads of all the processing servers bound by the broadband service provider corresponding to the terminal by the comprehensive control server;

Otherwise, judging whether the terminal and the cloud end are in first communication, if so, selecting a proper access line for the terminal by the comprehensive control server according to the sequence of the load of each processing server from small to large; otherwise, selecting a proper access line for the terminal according to the historical connection data corresponding to the terminal.

13. The system for realizing intelligent access of terminals as set forth in claim 12, wherein,

the selecting a suitable access line for the terminal includes: configuring a main access processing server and a standby access processing server list for a terminal;

the terminal is used for: accessing the main access processing server, when the communication between the terminal and the main access processing server fails, the terminal is further configured to: preferably switching access to a standby access processing server with small load;

when the terminal fails to communicate with the standby access processing server, the terminal is further configured to: preferably switching access to a standby access processing server with a small next load;

when the terminal resumes communication with the primary access handling server, the terminal is further configured to: and switching access to the main access processing server.