CN115695546B - Multi-message distribution system and method for cloud operation platform - Google Patents

Abstract

The invention relates to the field of data processing, in particular to a cloud operation platform multi-message distribution system and a method, wherein the system comprises a cloud operation platform and recommendation information is constructed; the plurality of user terminals receive recommendation information of the cloud operation platform through the data channel; the statistics module is used for counting the corresponding use times and the transmitted historical data quantity of the data channels of each priority level connected with any user terminal in the monitoring period; an enabling module that acquires a release capacity formed due to a change in an enabling state; and the sending module is used for distributing the released capacity to other user terminals in the next monitoring period and sending recommendation information according to the priority of the data channel after the released capacity is distributed and the enabling state is changed. By setting the monitoring period, the sending condition of recommended information in the next monitoring period is adjusted according to the state of the data channels in the monitoring period and the historical transmission data quantity of each data channel, so that the effective utilization of the data channels is realized, and the use efficiency is improved.

Description

Multi-message distribution system and method for cloud operation platform

Technical Field

The invention relates to the field of data processing, in particular to a cloud operation platform multi-message distribution system and method.

Background

The cloud operation platform is a novel short message service platform, and an integrated short message distribution platform is built by integrating and containing message channel resources of operators in all places, so that short message service is provided for all vertical industries. However, channel resources of the cloud operation platform are scattered throughout the country, and channel quality differences are obvious (channel quality refers to transmission success rate, etc.). In addition, the requirements of different types of short messages are different, for example, the verification code short message requires real-time performance, and the mass-sending marketing type short message requires large channel resources.

Patent document publication No. CN115038055a discloses a multichannel short message distribution method based on reinforcement learning, which includes: defining state, action, rewards, and Q-value functions for the deep neural network model according to a markov decision process, wherein: the state is determined by the remaining capacity of the channel and the short message sending cost of each channel; the actions are determined according to the message quantity based on the user and the short message type distributed on each channel of each operator; the rewards are calculated to obtain rewards according to the selected actions and the corresponding channel resource allocation results; the Q value function is obtained based on the state and the action and through model training; initializing parameters of the channel; inputting the short message distribution requirement and the state of the current moment into the model, calculating the Q value corresponding to each action in the state of the current moment by the model, and outputting the Q value as a Q value set; determining a target action according to the Q value set, executing the target action, and then updating the resource state of the channel and obtaining the state of the next moment and the rewarding value of the current moment; taking the state of the current moment, the state of the next moment, the target action and the rewarding value of the current moment as a group of four-tuple data of the current moment and storing the four-tuple data in a storage space; and at the next moment, repeating the steps until the Q value function converges.

However, for the channels constructed between the platform and the user, some channels are abandoned due to the imbalance of the feedback of the user and the income of the platform, so that the channel resources are seriously wasted.

Disclosure of Invention

Therefore, the invention provides a cloud operation platform multi-message distribution system and a method, which can solve the problem of resource waste caused by channel resource waste.

In order to achieve the above object, an aspect of the present invention provides a system and a method for distributing multiple messages on a cloud operation platform, where the method includes:

the cloud operation platform is used for constructing recommendation information and pushing the recommendation information to the user side through a plurality of data channels which are set between the cloud operation platform and the user and are in a priority level in an enabling state;

the user terminals are used for receiving recommendation information of the cloud operation platform through a data channel connected with the user terminals;

the statistics module is used for counting the corresponding use times and the transmitted historical data quantity of the data channels of each priority level connected with any user terminal in the monitoring period;

the enabling module is connected with the statistics module and used for changing the enabling state of the data channel which does not accord with the use standard times in the next monitoring period according to the use times counted by the statistics module and acquiring the release capacity formed by changing the enabling state;

and the sending module is used for distributing the released capacity to other user terminals in the next monitoring period and sending the recommendation information according to the priority of the data channel after the released capacity is distributed and the enabling state is changed, so that the user terminal can timely receive the recommendation information.

Further, the enabling module comprises a determining unit, a changing unit and a releasing unit;

the determining unit is used for determining the actual use times n1 of any data channel corresponding to any user terminal in a first monitoring period;

the changing unit extracts preset standard period use times n0, if the actual use times n1 are less than or equal to the standard period use times n0, the data channel is indicated to be low in use frequency, the enabling state of the data channel is changed from a first state to a second state, and if the actual use times n1 are greater than the standard period use times n0, the data channel is indicated to be high in use frequency, and the enabling state of the data channel is not required to be changed;

the releasing unit is used for releasing the data channel with the enabled state changed.

Further, the enabling module further comprises a determining unit and an allocating unit;

the determining unit is used for determining the release capacity of any user terminal after releasing the data channel;

the allocation unit is used for allocating the release capacity according to the historical transmission data quantity of other user terminals.

Further, the allocation unit is provided with a first allocation coefficient k1, a second allocation coefficient k2 and a third allocation coefficient k3 in advance when allocating the release capacity Q0;

the distribution unit comprises an extraction subunit and a selection subunit;

the allocation subunit is configured to extract target user terminals of the first three of the user terminals, which are arranged according to the historical transmission data amount, and set the target user terminals as a first target terminal, a second target terminal and a third target terminal respectively;

the selecting subunit selects the first distribution coefficient k1 as a calculation parameter of the distribution capacity of the first target terminal, selects the second distribution coefficient k2 as a calculation parameter of the distribution capacity of the second target terminal, and selects the third distribution coefficient k3 as a calculation parameter of the distribution capacity of the third target terminal, wherein the first distribution coefficient k1 is greater than the second distribution coefficient k2 by more than the third distribution coefficient k3 and k1+k2+k3=1.

Further, the selecting subunit determines an actual allocation capacity q=q0×k1 of the first target terminal;

the selecting subunit determining an actual allocation capacity q=q0×k2 of the second target terminal;

the selection subunit determines an actual allocation capacity q=q0×k3 of the third target terminal.

Further, the sending module comprises a priority determining unit and a duration selecting unit;

the priority determining unit is used for determining the priority of the data channel according to the actual allocation capacity of the terminal and the total transmission amount of the historical data;

the time length selection unit is connected with the priority determination unit and is used for selecting the sending time length of the corresponding transmission channel for sending the recommended information according to the priority of the data channel, and sending the recommended information in the sending time length.

On the other hand, the invention also provides a cloud operation platform multi-message distribution method applying the cloud operation platform multi-message distribution system, which comprises the following steps:

establishing recommendation information, and pushing the recommendation information to a user terminal through a plurality of data channels which are set between the cloud operation platform and the user terminal and are in a priority level in an enabling state;

receiving recommendation information of the cloud operation platform through a data channel;

counting the corresponding use times of the data channels of each priority level connected with any user terminal in the monitoring period and the transmitted historical data quantity;

changing the enabling state of the data channel which does not accord with the use standard times in the next monitoring period according to the use times counted by the counting module, and acquiring the release capacity formed by changing the enabling state;

and distributing the released capacity to other user terminals in the next monitoring period, and sending the recommendation information according to the priority of the data channel after the released capacity is distributed and the enabling state is changed, so that the user terminal can timely receive the recommendation information.

Further, changing the enabling state of the data channel which does not meet the usage standard number in the next monitoring period according to the usage number counted by the counting module comprises:

determining the actual use times n1 of any data channel corresponding to any user terminal in a first monitoring period;

extracting preset standard period use times n0, if the actual use times n1 are less than or equal to the standard period use times n0, indicating that the use frequency of the data channel is low, changing the enabling state of the data channel from a first state to a second state, and if the actual use times n1 are greater than the standard period use times n0, indicating that the use frequency of the data channel is high, and not changing the enabling state of the data channel;

releasing the data channel with the changed enabling state;

determining the release capacity of any user terminal after releasing the data channel;

and distributing the release capacity according to the historical transmission data quantity of other user terminals.

Further, allocating the released capacity to other user terminals in the next monitoring period and sending the recommendation information according to the priority of the data channel after the released capacity is allocated and the enabled state is changed comprises:

extracting target user terminals of the first three of the user terminals, which are arranged by the historical transmission data quantity, and setting the target user terminals as a first target terminal, a second target terminal and a third target terminal respectively;

the selecting subunit selects a first allocation coefficient k1 as a calculation parameter of the allocation capacity of the first target terminal, selects a second allocation coefficient k2 as a calculation parameter of the allocation capacity of the second target terminal, selects a third allocation coefficient k3 as a calculation parameter of the allocation capacity of the third target terminal, the first allocation coefficient k1 is greater than the second allocation coefficient k2 by more than the third allocation coefficient k3 and k1+k2+k3=1;

the selecting subunit determining an actual allocation capacity q=q0×k1 of the first target terminal;

the selecting subunit determining an actual allocation capacity q=q0×k2 of the second target terminal;

the selection subunit determines an actual allocation capacity q=q0×k3 of the third target terminal.

Compared with the prior art, the invention has the beneficial effects that the sending condition of the recommended information in the next monitoring period is adjusted according to the state of the data channels in the monitoring period and the historical transmission data quantity of each data channel by setting the monitoring period, thereby realizing the effective utilization of the data channels and improving the use efficiency.

In particular, by comparing the actual use times n1 of any data channel of the user terminal in the first monitoring period with the set standard period use times n0, the use frequency of the data channel is determined, whether the enabling state of the data channel is changed is determined, so that the utilization efficiency of the data channel is greatly improved, and the recommended information is ensured to be effectively transmitted.

In particular, by determining the released capacity of the user terminal after being released and distributing the released capacity, the released data channel is ensured to be capable of transmitting other data, so that the use efficiency of the user terminal is improved due to the fact that the user terminal is wasted, and the effective distribution of the data transmission quantity is ensured.

Particularly, the release capacity released by the data channels can be well utilized by distributing the release capacity to each target mobile terminal, so that the effectiveness and the high efficiency of information transmission between the cloud operation platform and the user terminal are ensured, and the transmission resources can be efficiently utilized.

In particular, when determining the actual allocation capacity of each target terminal, the release capacity to be allocated and the allocation coefficient corresponding to the terminal are multiplied, so that the release capacity can be reasonably allocated to each target terminal, the reasonable allocation of the release capacity is realized, the effective and reasonable utilization of data transmission resources is ensured, the effective transmission and interaction of recommended data are carried out between the cloud operation platform and the user terminal in the embodiment of the invention, the efficient transmission of the data is ensured, and the propagation efficiency of the recommended information is improved.

And particularly, determining the priority of the data channel through the actual allocation capacity of the user terminal and the total transmission amount of the historical data, selecting the transmission time length of the corresponding transmission channel for transmitting the recommended information according to the priority of the data channel, and transmitting the recommended information within the transmission time length, so that the recommended information is effectively transmitted, and the transmission efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of a cloud operation platform multi-message distribution system according to an embodiment of the present invention;

fig. 2 is another schematic structural diagram of a cloud operation platform multi-message distribution system according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a third structure of a multi-message distribution system of a cloud operation platform according to an embodiment of the present invention;

fig. 4 is a flow chart of a method for distributing multiple messages of a cloud operation platform according to an embodiment of the present invention.

Detailed Description

In order that the objects and advantages of the invention will become more apparent, the invention will be further described with reference to the following examples; it should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present invention, and are not intended to limit the scope of the present invention.

It should be noted that, in the description of the present invention, terms such as "upper," "lower," "left," "right," "inner," "outer," and the like indicate directions or positional relationships based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the apparatus or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to the specific circumstances.

Referring to fig. 1, a cloud operation platform multi-message distribution system provided by an embodiment of the present invention includes:

the cloud operation platform 10 is used for constructing recommendation information and pushing the recommendation information to the user side through a plurality of data channels which are set between the cloud operation platform and the user and are in a priority level in an enabling state;

the user terminals 20 are configured to receive recommendation information of the cloud operation platform through a data channel connected with the user terminals;

a statistics module 30, configured to count the number of times of use and the amount of historical data transmitted corresponding to each priority data channel connected to any user terminal in the monitoring period;

an enabling module 40, connected to the statistics module, for changing the enabling state of the data channel which does not meet the usage standard number in the next monitoring period according to the usage number counted by the statistics module, and obtaining the release capacity formed by changing the enabling state;

the sending module 50 is configured to allocate the released capacity to other user terminals in the next monitoring period and send the recommendation information according to the priority of the data channel after allocating the released capacity and after changing the enabled state, so that the user terminal receives the recommendation information in time.

Specifically, each user terminal in the embodiment of the invention is configured with a plurality of data channels for receiving recommendation information of different types, in practical application, if the type of the recommendation information belongs to instant information, the transmission efficiency of the selected data channel is high, the recommendation information can reach the user terminal in time, if the type of the recommendation information belongs to important information, the safety of the selected data channel is highest, the recommendation information can reach safely, the user terminal can receive the recommendation information is guaranteed, the effectiveness of the transmission of the recommendation information is guaranteed, when the priority of the data channel is determined, priority parameters are set, and the calculation mode of the priority parameters can be determined according to the practical requirements of the type of the recommendation information in the transmission process. When determining the priority of any data channel, determining according to the type of the historical transmission information of each transmission channel and the transmission time length, if any user terminal selects the transmission channel of the first priority from the received recommendation information, if the use efficiency of the transmission channel of other priority set by the user terminal is not high, the transmission channel of other priority corresponding to the user terminal can be changed in use state, when changing in use state, the information transmission capacity of the transmission channel with changed use state can be used on other user terminals, the expansion of the received data of other user terminals is realized, the reasonable transmission of the recommendation information can be realized due to the information loss caused by insufficient channel capacity when the other user terminals receive the recommendation information, the use rate of the data channel is ensured, and the waste of channel resources is effectively avoided.

Specifically, the user terminal may be a mobile terminal or a PC terminal, which is not limited herein.

Specifically, the embodiment of the invention adjusts the sending condition of the recommended information in the next monitoring period according to the state of the data channels in the monitoring period and the historical transmission data quantity of each data channel by setting the monitoring period, thereby realizing the effective utilization of the data channels and improving the use efficiency.

Specifically, as shown in fig. 2, the enabling module 40 includes a determining unit 41, a changing unit 42, and a releasing unit 43;

the determining unit is used for determining the actual use times n1 of any data channel corresponding to any user terminal in a first monitoring period;

the changing unit extracts preset standard period use times n0, if the actual use times n1 are less than or equal to the standard period use times n0, the data channel is indicated to be low in use frequency, the enabling state of the data channel is changed from a first state to a second state, and if the actual use times n1 are greater than the standard period use times n0, the data channel is indicated to be high in use frequency, and the enabling state of the data channel is not required to be changed;

the releasing unit is used for releasing the data channel with the enabled state changed.

Specifically, the embodiment of the invention compares the actual use times n1 of any data channel of the user terminal in the first monitoring period with the set standard period use times n0 to determine the use frequency of the data channel and determine whether to change the enabling state of the data channel, so that the utilization efficiency of the data channel is greatly improved, and the recommendation information is ensured to be effectively transmitted.

Specifically, as shown in fig. 3, the enabling module 40 further includes a determining unit 44 and an allocating unit 45;

the determining unit is used for determining the release capacity of any user terminal after releasing the data channel;

the allocation unit is used for allocating the release capacity according to the historical transmission data quantity of other user terminals.

Specifically, the embodiment of the invention ensures that the released data channel can transmit other data by determining the released capacity of the user terminal after being released and distributing the released capacity, realizes that the user terminal can be used effectively for other user terminals after being relaxed, and ensures the effective distribution of the data transmission quantity.

Specifically, the allocation unit, when allocating the release capacity Q0, presets a first allocation coefficient k1, a second allocation coefficient k2, and a third allocation coefficient k3;

the distribution unit comprises an extraction subunit and a selection subunit;

the allocation subunit is configured to extract target user terminals of the first three of the user terminals, which are arranged according to the historical transmission data amount, and set the target user terminals as a first target terminal, a second target terminal and a third target terminal respectively;

the selecting subunit selects the first distribution coefficient k1 as a calculation parameter of the distribution capacity of the first target terminal, selects the second distribution coefficient k2 as a calculation parameter of the distribution capacity of the second target terminal, and selects the third distribution coefficient k3 as a calculation parameter of the distribution capacity of the third target terminal, wherein the first distribution coefficient k1 is greater than the second distribution coefficient k2 by more than the third distribution coefficient k3 and k1+k2+k3=1.

Specifically, the embodiment of the invention ensures that the release capacity released by the data channel can be well utilized by distributing the release capacity to each target mobile terminal, thereby ensuring the effectiveness and high efficiency of information transmission between the cloud operation platform and the user terminal and ensuring that the transmission resource can be utilized efficiently.

Specifically, the selecting subunit determines an actual allocation capacity q=q0×k1 of the first target terminal;

the selecting subunit determining an actual allocation capacity q=q0×k2 of the second target terminal;

the selection subunit determines an actual allocation capacity q=q0×k3 of the third target terminal.

Specifically, when determining the actual allocation capacity of each target terminal, the embodiment of the invention can reasonably allocate the release capacity to each target terminal by multiplying the release capacity to be allocated by the allocation coefficient corresponding to the terminal, so as to realize reasonable allocation of the release capacity, ensure effective and reasonable utilization of data transmission resources, ensure effective transmission and interaction of recommended data between the cloud operation platform and the user terminal in the embodiment of the invention, ensure efficient transmission of data, and improve the propagation efficiency of recommended information.

Specifically, the sending module comprises a priority determining unit and a duration selecting unit;

the priority determining unit is used for determining the priority of the data channel according to the actual allocation capacity of the user terminal and the total transmission amount of the historical data;

the time length selection unit is connected with the priority determination unit and is used for selecting the sending time length of the corresponding transmission channel for sending the recommended information according to the priority of the data channel, and sending the recommended information in the sending time length.

Specifically, the embodiment of the invention determines the priority of the data channel through the actual allocation capacity of the user terminal and the total transmission amount of the historical data, selects the transmission time length of the corresponding transmission channel for transmitting the recommended information according to the priority of the data channel, and transmits the recommended information within the transmission time length, thereby realizing the effective transmission of the recommended information and providing the transmission efficiency.

Specifically, as shown in fig. 4, the embodiment of the present invention further provides a method for distributing multiple messages on a cloud operation platform, where the method includes:

step S100: establishing recommendation information, and pushing the recommendation information to a user terminal through a plurality of data channels which are set between the cloud operation platform and the user terminal and are in a priority level in an enabling state;

step S200: receiving recommendation information of the cloud operation platform through a data channel;

step S300: counting the corresponding use times of the data channels of each priority level connected with any user terminal in the monitoring period and the transmitted historical data quantity;

step S400: changing the enabling state of the data channel which does not accord with the use standard times in the next monitoring period according to the use times counted by the counting module, and acquiring the release capacity formed by changing the enabling state;

step S500: and distributing the released capacity to other user terminals in the next monitoring period, and sending the recommendation information according to the priority of the data channel after the released capacity is distributed and the enabling state is changed, so that the user terminal can timely receive the recommendation information.

Specifically, changing the enabling state of the data channel which does not meet the usage standard number in the next monitoring period according to the usage number counted by the counting module includes:

determining the actual use times n1 of any data channel corresponding to any user terminal in a first monitoring period;

extracting preset standard period use times n0, if the actual use times n1 are less than or equal to the standard period use times n0, indicating that the use frequency of the data channel is low, changing the enabling state of the data channel from a first state to a second state, and if the actual use times n1 are greater than the standard period use times n0, indicating that the use frequency of the data channel is high, and not changing the enabling state of the data channel;

releasing the data channel with the changed enabling state;

determining the release capacity of any user terminal after releasing the data channel;

and distributing the release capacity according to the historical transmission data quantity of other user terminals.

Specifically, allocating the released capacity to other user terminals in the next monitoring period and transmitting the recommendation information according to the priority of the data channel after the released capacity is allocated and the enabled state is changed comprises:

extracting target user terminals of the first three of the user terminals, which are arranged by the historical transmission data quantity, and setting the target user terminals as a first target terminal, a second target terminal and a third target terminal respectively;

the selecting subunit selects a first allocation coefficient k1 as a calculation parameter of the allocation capacity of the first target terminal, selects a second allocation coefficient k2 as a calculation parameter of the allocation capacity of the second target terminal, selects a third allocation coefficient k3 as a calculation parameter of the allocation capacity of the third target terminal, the first allocation coefficient k1 is greater than the second allocation coefficient k2 by more than the third allocation coefficient k3 and k1+k2+k3=1;

the selecting subunit determining an actual allocation capacity q=q0×k1 of the first target terminal;

the selecting subunit determining an actual allocation capacity q=q0×k2 of the second target terminal;

the selection subunit determines an actual allocation capacity q=q0×k3 of the third target terminal.

Specifically, the method for distributing the multiple messages of the cloud operation platform provided by the embodiment of the invention is applied to a cloud operation platform distribution system, comprises the same technical characteristics, can achieve the same technical effects, and is not repeated here.

Thus far, the technical solution of the present invention has been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of protection of the present invention is not limited to these specific embodiments. Equivalent modifications and substitutions for related technical features may be made by those skilled in the art without departing from the principles of the present invention, and such modifications and substitutions will be within the scope of the present invention.

The foregoing description is only of the preferred embodiments of the invention and is not intended to limit the invention; various modifications and variations of the present invention will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A cloud operation platform multi-message distribution system, comprising:

the cloud operation platform is used for constructing recommendation information and pushing the recommendation information to the user terminal through a plurality of data channels which are set between the cloud operation platform and the user and are in a priority level in an enabling state;

the user terminals are used for receiving recommendation information of the cloud operation platform through a data channel connected with the user terminals;

the statistics module is used for counting the corresponding use times and the transmitted historical data quantity of the data channels of each priority level connected with any user terminal in the monitoring period;

the enabling module is connected with the statistics module and used for changing the enabling state of the data channel which does not accord with the use standard times in the next monitoring period according to the use times counted by the statistics module and acquiring the release capacity formed by changing the enabling state;

the sending module is used for distributing the released capacity to other user terminals in the next monitoring period and sending the recommendation information according to the priority of the data channel after the released capacity is distributed and the enabling state is changed so that the user terminal can timely receive the recommendation information;

the enabling module comprises a using frequency determining unit, a changing unit and a releasing unit;

the using frequency determining unit is used for determining the actual using frequency n1 of any data channel corresponding to any user terminal in a first monitoring period;

the changing unit extracts preset standard period use times n0, if the actual use times n1 are less than or equal to the standard period use times n0, the data channel is indicated to be low in use frequency, the enabling state of the data channel is changed from a first state to a second state, and if the actual use times n1 are greater than the standard period use times n0, the data channel is indicated to be high in use frequency, and the enabling state of the data channel is not required to be changed;

the releasing unit is used for releasing the data channel with the enabling state changed;

the enabling module further comprises a release capacity determining unit and an allocation unit;

the release capacity determining unit is used for determining the release capacity of any user terminal after releasing the data channel;

the allocation unit is used for allocating the release capacity according to the historical transmission data quantity of other user terminals.

2. The cloud operation platform multi-message distribution system according to claim 1, wherein the distribution unit is preset with a first distribution coefficient k1, a second distribution coefficient k2, and a third distribution coefficient k3 when distributing the release capacity Q0;

the distribution unit comprises an extraction subunit and a selection subunit;

the extraction subunit is configured to extract target user terminals of the first three of the user terminals, which are arranged according to the historical transmission data amount, and set the target user terminals as a first target terminal, a second target terminal and a third target terminal respectively;

the selecting subunit selects the first distribution coefficient k1 as a calculation parameter of the distribution capacity of the first target terminal, selects the second distribution coefficient k2 as a calculation parameter of the distribution capacity of the second target terminal, and selects the third distribution coefficient k3 as a calculation parameter of the distribution capacity of the third target terminal, wherein the first distribution coefficient k1 is greater than the second distribution coefficient k2 by more than the third distribution coefficient k3 and k1+k2+k3=1.

3. The cloud operating platform multi-message distribution system of claim 2, wherein,

the selecting subunit determining an actual allocation capacity q=q0×k1 of the first target terminal;

the selecting subunit determining an actual allocation capacity q=q0×k2 of the second target terminal;

the selection subunit determines an actual allocation capacity q=q0×k3 of the third target terminal.

4. The cloud operation platform multi-message distribution system according to claim 3, wherein the transmission module comprises a priority determining unit and a duration selecting unit;

the priority determining unit is used for determining the priority of the data channel according to the actual allocation capacity of the terminal and the total transmission amount of the historical data;

the time length selection unit is connected with the priority determination unit and is used for selecting the sending time length of the corresponding transmission channel for sending the recommended information according to the priority of the data channel, and sending the recommended information in the sending time length.

5. A cloud operation platform multi-message distribution method applying the cloud operation platform multi-message distribution system according to any one of claims 1 to 4, comprising:

establishing recommendation information, and pushing the recommendation information to the user terminal through a plurality of data channels which are set between the cloud operation platform and the user terminal and are in a priority level in an enabling state;

receiving recommendation information of the cloud operation platform through a data channel;

counting the corresponding use times of the data channels of each priority level connected with any user terminal in the monitoring period and the transmitted historical data quantity;

changing the enabling state of the data channel which does not accord with the use standard times in the next monitoring period according to the counted use times, and acquiring the release capacity formed by changing the enabling state;

distributing the released capacity to other user terminals in the next monitoring period, and sending the recommendation information according to the priority of the data channel after the released capacity is distributed and the enabling state is changed, so that the user terminal can timely receive the recommendation information;

changing the enabling state of the data channel which does not accord with the use standard number in the next monitoring period according to the use number counted by the counting module comprises the following steps:

determining the actual use times n1 of any data channel corresponding to any user terminal in a first monitoring period;

extracting preset standard period use times n0, if the actual use times n1 are less than or equal to the standard period use times n0, indicating that the use frequency of the data channel is low, changing the enabling state of the data channel from a first state to a second state, and if the actual use times n1 are greater than the standard period use times n0, indicating that the use frequency of the data channel is high, and not changing the enabling state of the data channel;

releasing the data channel with the changed enabling state;

after releasing the data channel with the enabled state changed, the method further comprises the following steps:

determining the release capacity of any user terminal after releasing the data channel;

and distributing the release capacity according to the historical transmission data quantity of other user terminals.

6. The cloud operation platform multi-message distribution method according to claim 5, wherein the allocating the release capacity to other user terminals in the next monitoring period and transmitting the recommendation information according to the priority of the data channel after the allocation of the release capacity and after the change of the enable state comprises:

extracting target user terminals of the first three of the user terminals, which are arranged by the historical transmission data quantity, and setting the target user terminals as a first target terminal, a second target terminal and a third target terminal respectively;

selecting a first distribution coefficient k1 as a calculation parameter of the distribution capacity of the first target terminal, selecting a second distribution coefficient k2 as a calculation parameter of the distribution capacity of the second target terminal, and selecting a third distribution coefficient k3 as a calculation parameter of the distribution capacity of the third target terminal, wherein the first distribution coefficient k1 is larger than the second distribution coefficient k2 and is larger than the third distribution coefficient k3 and k1+k2+k3=1;

determining an actual allocation capacity q=q0×k1 of the first target terminal;

determining an actual allocation capacity q=q0×k2 of the second target terminal;

the actual allocation capacity q=q0×k3 of the third target terminal is determined.