CN111555971A - Information distribution platform, system and information distribution method - Google Patents

Abstract

The invention discloses an information distribution platform, an information distribution system and an information distribution method. An information distribution platform comprising: the information receiving gateway is used for receiving information; the route finder is used for acquiring the current sending rate of each transmission path from the information sending end to the information receiving end and determining the optimal transmission path from all the transmission paths at least according to the sending rate; a transmitter for transmitting the information according to the optimal transmission path. The information distribution platform can select an optimal transmission path from a plurality of transmission paths according to a sending path appointed by a sending end, and when a certain transmission path has a problem, the optimal path can still be selected from the rest transmission paths, so that the success rate of information transmission is improved, and the cost for sending information is reduced.

Description

Information distribution platform, system and information distribution method

Technical Field

The present invention relates to the field of communications technologies, and in particular, to an information distribution platform, an information distribution system, and an information distribution method.

Background

At present, the way for an enterprise to deliver information to a user is diversified, for example, an application such as sending a mail through a mailbox, sending a short message through a mobile phone, or performing notification through APP such as WeChat, etc. is used for notification. Each sending path usually corresponds to a plurality of transmission paths, for example, an enterprise a sends information to a user B through a short message, the path for sending the short message corresponds to a plurality of agents, each agent provides one transmission path, and usually, the enterprise only selects one inherent transmission path to transmit the information to the user, however, once any link in the transmission path has a problem, the whole transmission path is unavailable, which results in information transmission failure, and other transmission paths cannot be used to transmit the information, which results in that the information cannot be transmitted to the user in time, which results in information transmission failure and irrecoverable loss for the enterprise.

Disclosure of Invention

Objects of the invention

The invention aims to provide an information distribution platform, an information distribution system and an information distribution method. The information distribution platform acquires the current sending rate of each transmission path from the information sending end to the information receiving end, and determines the optimal transmission path from all the transmission paths at least according to the sending rate, so that the sending end can select the optimal transmission path from a plurality of transmission paths under the determined sending way, when one transmission path has problems, the optimal path can still be selected from the rest transmission paths, the success rate of information transmission is improved, and the cost of sending information is reduced.

(II) technical scheme

In order to solve the above problems, a first aspect of the present invention provides an information transceiving platform, an information receiving gateway, for receiving information; the route finder is used for acquiring the current sending rate of each transmission path from the information sending end to the information receiving end and determining the optimal transmission path from all the transmission paths at least according to the sending rate; a transmitter for transmitting the information according to the optimal transmission path.

Further, the router is configured to determine an optimal transmission path from all the transmission paths according to at least the sending rate, and includes: the router is used for multiplying the sending rate of each transmission path and the cost required for transmitting the information by respective weight to obtain a score; and determining the transmission path with the highest score as the optimal transmission path.

Further, the router is configured to determine an optimal transmission path from all the transmission paths according to at least the sending rate, and includes: the router is used for multiplying the sending rate of each transmission path, the cost required by information transmission and the sending success rate with respective weight respectively to obtain a score, and determining the transmission path with the highest score as the optimal transmission path.

Further, the route finder is further configured to sort in a descending order according to the scores of the transmission paths, and when the information transmission fails, determine that a next transmission path is the optimal transmission path according to the order of the list.

Furthermore, the information received by the information receiving gateway contains the time required for completing the transmission; the router is configured to determine an optimal transmission path from all the transmission paths according to at least the sending rate, and includes: the router is used for obtaining the size of the information, determining the time required by each transmission path for transmitting the information according to the size of the information and the sending rate, deleting the transmission paths exceeding the time required to finish the sending, and determining the optimal transmission path from the rest transmission paths at least according to the sending rate.

Further, still include: an information processor; the information processor is configured to invoke the router based on information to instruct the router to determine an optimal transmission path, and is further configured to invoke the transmitter to instruct the transmitter to transmit the information according to the optimal transmission path after the router determines the optimal transmission path.

Furthermore, the information received by the information receiving gateway contains appointed information transmission paths, and one of each information transmission path corresponds to one format; the transmission path comprises a short message transmission path, a mailbox sending path and an APP message transmission path; the information distribution platform further comprises a protocol converter; and the protocol converter is used for determining a transmission protocol according to the preset format so that the transmitter transmits the information according to the transmission protocol determined by the protocol converter.

According to a second aspect of the present invention, there is provided an information distribution system comprising: a sending end, a receiving end and the information distribution platform provided by the first aspect; the sending end is used for packaging the information into a format corresponding to the appointed sending path and sending the information; and the information distribution platform is used for determining an optimal transmission path from all transmission paths of the specified sending path based on the received information and sending the information to the receiving end according to the optimal transmission path.

Further, the information distribution platform is further configured to multiply respective weights by the sending rate, the cost required for transmitting the information, and the sending success rate of each transmission path to obtain scores, sort the scores in a descending order according to the scores of all the transmission paths, and when the information transmission fails, determine a next transmission path as an optimal transmission path according to the sorted order until the information is successfully sent.

According to a third aspect of the present invention, there is provided an information distribution method, which obtains a current sending rate of each transmission path from an information sending end to an information receiving end; and determining an optimal transmission path from all the transmission paths according to at least the sending rate.

Further, determining an optimal transmission path from all the transmission paths at least according to the sending rate, wherein the optimal transmission path comprises a score value obtained by multiplying the sending rate of each transmission path and the cost required for transmitting the information by respective weight; and determining the transmission path with the highest score as the optimal transmission path.

Further, determining an optimal transmission path from all the transmission paths according to at least the sending rate includes: and respectively multiplying the sending rate of each transmission path, the cost required for transmitting the information and the sending success rate by respective weight to obtain a score, and determining the transmission path with the highest score as the optimal transmission path.

Further, the method further comprises: and sorting in descending order according to the scores of the transmission paths, and when the information transmission fails, determining the next transmission path as the optimal transmission path according to the sorting.

Further, the information contains the time required for completion of the transmission; determining an optimal transmission path from all the transmission paths at least according to the sending rate, comprising: and acquiring the size of the information, determining the time required by each transmission path for transmitting the information according to the size of the information and the sending rate, and deleting the transmission paths exceeding the time required to finish sending from the sequence.

Further, the size of the information is obtained, the time required by each transmission path for transmitting the information is determined according to the size of the information and the sending rate, the transmission paths exceeding the time required to finish the sending are deleted from all the transmission paths, and then the optimal transmission path is determined from the rest of the transmission paths at least according to the sending rate.

Further, determining the optimal transmission path from the remaining transmission paths at least according to the sending rate includes: respectively multiplying the sending rate of each transmission path and the cost required for transmitting the information by respective weight to obtain a score; and the transmission path with the highest value in the rest transmission paths is the optimal transmission path.

Further, determining the optimal transmission path from the remaining transmission paths at least according to the sending rate includes: and respectively multiplying the sending rate of each transmission path, the cost required for transmitting the information and the sending success rate by respective weight to obtain a score, wherein the transmission path with the highest score in the rest transmission paths is the optimal transmission path.

A fourth aspect of the present invention provides a storage medium storing a program that, when executed by a processor, realizes the steps of the above-described information distribution method.

(III) advantageous effects

The technical scheme of the invention has the following beneficial technical effects:

the information distribution platform provided by the embodiment of the invention obtains the current sending rate of each transmission path from the information sending end to the information receiving end, and determines the optimal transmission path from all the transmission paths at least according to the sending rate, so that the sending end can select the optimal transmission path from a plurality of transmission paths under the determined sending path, when one transmission path has problems, the optimal path can still be selected from the rest transmission paths, the success rate of information transmission is improved, and the cost of sending information is reduced. In addition, the method and the device have the advantages that various transmission paths are sequenced through the information distribution platform, and the transmission path with the top rank is preferably selected during sending, so that the various transmission paths can be mutually promoted, the success rate and the sending rate of information transmission of each transmission path are improved, and the cost for sending information is further reduced.

Drawings

Fig. 1 is a schematic structural diagram of an information distribution platform provided in a first embodiment of the present invention;

fig. 2 is a schematic structural diagram of an information distribution system provided in a second embodiment of the present invention;

fig. 3 is a flowchart illustrating an information distribution method according to a third embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

Fig. 1 is a schematic structural diagram of an information distribution platform according to a first embodiment of the present invention.

As shown in fig. 1, an information distribution platform includes: and the information receiving gateway 10 is used for receiving information. The information is sent from a sending end outside the information distribution platform, for example, the information to be sent by the APP of the sending end, the mail to be sent by the sending end, and the short message to be sent by the sending end.

It can be understood that the sending end refers to a mobile phone, a tablet computer, a computer, and other terminal devices. The information may refer to voice information, picture information, positioning information, and the like.

The router 20 is configured to obtain a current sending rate of each transmission path from the information sending end to the information receiving end, and determine an optimal transmission path from all the transmission paths according to at least the sending rate.

An alternative router is, for example, a routing engine. Wherein the sending rate of each transmission path can be monitored by the router from time to time. The sending rate here may refer to the rate of data transmission, such as 100 Kb/s.

A transmitter 30, configured to transmit the information according to the optimal transmission path.

In one embodiment, the router 20 is configured to determine an optimal transmission path from all the transmission paths according to at least the sending rate, and includes:

the router 20 is configured to multiply the sending rate of each transmission path and the cost required for transmitting the information by respective weight to obtain a score; and determining the transmission path with the highest score as the optimal transmission path.

Optionally, the sending rate is weighted more heavily than necessary.

In one embodiment, the router is configured to determine an optimal transmission path from all the transmission paths according to at least the sending rate, and includes:

the router is used for multiplying the sending rate, the cost required by information transmission and the sending success rate of each transmission path by respective weight respectively to obtain a score, and determining the transmission path with the highest score as the optimal transmission path. The transmission success rate refers to the probability of successful transmission of the transmission information through the transmission path in the history data.

Preferably, the weight of the transmission rate ≧ the weight of the transmission success rate ≧ the cost required for transmitting the information.

In one embodiment, the router 20 is further configured to sort the transmission paths in a descending order according to the scores of the transmission paths, and determine the next transmission path as the optimal transmission path according to the sort when the information transmission fails.

It should be noted that, when the information is successfully transmitted, the transmitter will transmit a signal indicating that the information transmission is completed to the information processor 40, and prompt the information processor 40. When the information transmission fails, the transmitter also sends a signal of information transmission failure to the information processor, and the information processor selects the next transmission path from the sequence generated by the router according to the signal of information transmission failure and then instructs the transmitter to transmit the information by using the reselected transmission path.

In this embodiment, when the optimal transmission path cannot be successfully transmitted, the next transmission path may be selected to transmit the information again, so as to ensure that the information can be transmitted to the receiving end.

In one embodiment, the information received by the information receiving gateway includes a time required for completion of the transmission. For example, the sender may request that the message be sent in 10 s.

The route finder is used for determining an optimal transmission path from all the transmission paths according to at least the sending rate, and comprises the following steps:

the router 20 is configured to obtain the size of the information, determine the time required for each transmission path to transmit the information according to the size of the information and the sending rate, and delete the transmission path exceeding the time required for completing the sending from the above list. After the transmission paths are sequenced according to the scores, paths exceeding the time required by the sending end are deleted, and the information can be further ensured to be sent to the user in time.

In one embodiment, the information received by the information receiving gateway includes a time required for completion of the transmission. The route finder is used for determining an optimal transmission path from all the transmission paths according to at least the sending rate, and comprises the following steps:

the router 20 is configured to obtain the size of the information, determine the time required for each transmission path to transmit the information according to the size of the information and the sending rate, delete the transmission path exceeding the time required for completing the sending from all the information transmission paths, and then determine the optimal transmission path from the remaining transmission paths at least according to the sending rate.

Specifically, determining the optimal transmission path from the remaining transmission paths at least according to the sending rate includes: respectively multiplying the sending rate of each transmission path and the cost required for transmitting the information by respective weight to obtain a score; and the transmission path with the highest value in the rest transmission paths is the optimal transmission path.

Or, determining the optimal transmission path from the remaining transmission paths at least according to the sending rate includes: and respectively multiplying the sending rate of each transmission path, the cost required for transmitting the information and the sending success rate by respective weight to obtain a score, wherein the transmission path with the highest score in the rest transmission paths is the optimal transmission path.

In the above embodiment, the information distribution platform deletes the transmission paths that cannot be completed on time according to the requirement of the sending end, and then selects the optimal transmission path from the remaining transmission paths, so that the platform only needs to calculate the score of each path in the remaining transmission paths, thereby reducing the calculation amount of the platform. According to the embodiment of the invention, the path which cannot be completed in the appointed time is removed according to the sending completion time appointed by the sending end and the size of the file, so that the efficiency of determining the optimal path by the route finder is improved, and the sending efficiency is further improved.

In one embodiment, the information distribution platform further comprises: an information processor 40.

And the information processor 40 is used for calling the router 20 based on the information to instruct the router 20 to determine the optimal transmission path, and the information processor 40 is further used for calling the transmitter 30 to instruct the transmitter 30 to transmit the information according to the optimal transmission path after the router 20 determines the optimal transmission path.

In one embodiment, the information received by the information receiving gateway contains designated information transmission paths, and one correspondence of each information transmission path has one format; the transmission path comprises a short message transmission path, a mailbox sending path and an APP message transmission path.

The information distribution platform further comprises a protocol converter;

the protocol converter 50 is configured to determine a transmission protocol according to the predetermined format, so that the transmitter transmits the information according to the transmission protocol determined by the protocol converter.

Specifically, the format corresponding to the short message path is HTTP format, and the format corresponding to the mail path is SMTP format or POP3 format.

In an embodiment, the information receiving gateway 10 is configured to store the information in a storage device of the platform after receiving the information, so as to perform persistent processing on the information, thereby ensuring that the information is not lost, and print an attribute tag on the information, so as to facilitate identifying a source of the information and tracing the information, where the attribute tag may be a sender and a receiver of the information, a time of sending the information, and a sender may refer to a certain application of a certain enterprise, for example.

Further, the transmitter 30 includes a plurality of transmitters, such as a short message transmitter, a mail transmitter, and an APP message transmitter.

The following describes the information processing process of the information distribution platform of the present invention in detail with reference to a specific application scenario:

first, the sender sends information to the platform. The message sent by the sending end is, for example:

HTTP message body: { "content": your good! Your passcode is 85GCX4, the passcode is valid for 60 seconds. "," term ": 10", "dest": destination1"," destination2 "].

HTTP indicates a protocol for transmitting the information by the transmitting end.

Message body: what is shown is a message sent by a sender to a platform.

"content" means the content of the information.

"dest" indicates the sending address.

"term" 10 "means that it requires 10 seconds for the information to be sent to the receiving end.

After receiving the information, the information receiving gateway of the information distribution platform checks the message field, for example, whether the message field is non-null or the receiver format is correct. If the information is correct, the information is subjected to persistence processing, namely the information is stored in a database of the platform. After the information is saved in the database, the information is sent to the processor.

In one preferred embodiment, the information processor calls a router according to the information, acquires all transmission paths from the sending end to the receiving end, and acquires the cost for sending the information by each transmission path, the sending rate of the current path, and the sending success rate of the path.

The route finder calculates the score value of each path according to the following rules: the path cost 30% + the path transmit rate 40% + the path transmit success rate 30%.

And the route finder sorts the routes in a descending order according to the scores to obtain a score list, and selects the route with the highest score as the optimal route. And when the optimal path fails, selecting the next path in the list as the optimal path until the transmission is successful.

Preferably, after obtaining the above sorting, the time required for transmitting the information may be calculated for each path, and the paths exceeding the time required for the transmission end to complete the transmission (10 seconds in this example) may be deleted, or the paths exceeding the time required for the transmission end to complete the transmission may be sorted in ascending order of time to obtain a timeout list, and the timeout list may be integrated into the rear of the above score list.

As another preferred embodiment, the information processor invokes a router according to the information, the router calculates the time required by each path to send the information, deletes the path (10 seconds in this example) exceeding the time required by the sending end to complete sending, or sorts the paths exceeding the time required by the sending end to complete sending according to the ascending order of time to obtain the timeout list.

Then, the router acquires the cost for each path to transmit the information, the transmission rate in the current path and the transmission success rate of the path in the path which does not exceed the time required by the transmitting end to finish transmission.

The route finder calculates the score of the path which does not exceed the time required by the sending end to finish sending according to the following rules: the path cost 30% + the path transmit rate 40% + the path transmit success rate 30%.

And the route finder sorts the paths which do not exceed the time required by the sending end to finish sending according to the scores in a descending order of the scores to obtain a score list which is not overtime. And selecting the highest scoring optimal path in the score list which is not overtime. And when the optimal path fails, selecting the next path in the non-overtime list as the optimal path until the transmission is successful.

Preferably, when the last path in the non-timeout list fails to be sent or the number of paths in the non-timeout list is 0, the timeout list is integrated to the back of the score list, and the path with the first rank is determined to be the optimal path according to the sorting of the timeout list. And when the optimal path fails, selecting the next path in the timeout list as the optimal path until the transmission is successful.

The information distribution platform can integrate various information transmission paths to find the most appropriate transmission path reaching the receiving end through the router, can determine the sequence of the information transmission paths according to the sending success rate, the required cost and the like of the transmission paths, can consider the dynamic change of the transmission paths for sending the information at a future moment based on the current transmission speeds of all the transmission paths obtained from time to time, avoids selecting the transmission paths with low transmission rate or congestion of transmission and the like, and improves the sending success rate and the sending efficiency.

Fig. 2 is a schematic configuration diagram of an information distribution system according to a second embodiment of the present invention.

As shown in fig. 2, an information distribution system includes: the sending end 200, the receiving end 300, and the information distribution platform 100 provided in the foregoing embodiments.

The sending end 200 is configured to encapsulate the information into a format corresponding to the specified sending route and send the information.

The information distribution platform 100 is configured to determine an optimal transmission path from all transmission paths of the specified sending route based on the received information, and send the information to the receiving end 300 according to the optimal transmission path.

In an embodiment, the information distribution platform 100 is further configured to multiply respective weights by a sending rate, a cost required for transmitting the information, and a sending success rate of each transmission path to obtain scores, sort the scores in a descending order according to the scores of all the transmission paths, and when the information transmission fails, determine a next transmission path as an optimal transmission path according to the sorted order until the information is successfully sent.

In an embodiment, the information distribution platform 100 is further configured to multiply the sending rate of each transmission path and the cost required for transmitting the information by respective weights to obtain scores, sort the scores in a descending order according to the scores of all the transmission paths, and when the information transmission fails, determine the next transmission path as the optimal transmission path according to the sorted order until the information is successfully sent.

Fig. 3 is a flowchart illustrating an information distribution method according to a third embodiment of the present invention.

As shown in fig. 3, the information distribution method includes: in a step S101, the process is executed,

step S101, obtaining the current sending rate of each transmission path from the information sending end to the information receiving end.

Step S102, determining the optimal transmission path from all the transmission paths at least according to the sending rate.

Specifically, determining an optimal transmission path from all the transmission paths at least according to the sending rate, wherein the optimal transmission path comprises a score value obtained by multiplying the sending rate of each transmission path and the cost required for transmitting the information by respective weight; and determining the transmission path with the highest score as the optimal transmission path.

Specifically, determining an optimal transmission path from all the transmission paths at least according to the sending rate includes: and respectively multiplying the sending rate of each transmission path, the cost required for transmitting the information and the sending success rate by respective weight to obtain a score, and determining the transmission path with the highest score as the optimal transmission path.

In one embodiment, the step S102 of determining an optimal transmission path from all the transmission paths according to at least the sending rate further includes: and S103, sorting according to the descending order of the scores of the transmission paths, and when the information transmission fails, determining the next transmission path as the optimal transmission path according to the sorting.

In one embodiment, the message includes a time when the transmission is required to be completed; in step S103, determining an optimal transmission path from all the transmission paths according to at least the sending rate includes: and acquiring the size of the information, determining the time required by each transmission path for transmitting the information according to the size of the information and the sending rate, and deleting the transmission paths exceeding the time required to finish sending from the sequence.

In another embodiment, step S102 includes:

s1021, obtaining the size of the information, and determining the time required by each transmission path to transmit the information according to the size of the information and the sending rate;

s1022, deleting the transmission path exceeding the time required to complete the transmission from all the transmission paths;

s1023, and then determining the optimal transmission path from the remaining transmission paths at least according to the sending rate.

Specifically, determining the optimal transmission path from the remaining transmission paths at least according to the sending rate includes: respectively multiplying the sending rate of each transmission path and the cost required for transmitting the information by respective weight to obtain a score; and the transmission path with the highest value in the rest transmission paths is the optimal transmission path.

Or, determining the optimal transmission path from the remaining transmission paths at least according to the sending rate includes: and respectively multiplying the sending rate of each transmission path, the cost required for transmitting the information and the sending success rate by respective weight to obtain a score, wherein the transmission path with the highest score in the rest transmission paths is the optimal transmission path.

An embodiment of the present invention provides a storage medium storing a program that, when executed by a processor, implements the steps of the above-described information distribution method.

In an embodiment of the present invention, an electronic device is provided, which includes a processor, and the processor is configured to implement the steps of the information distribution method.

It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (10)

1. An information distribution platform, comprising:

the information receiving gateway is used for receiving information;

the route finder is used for acquiring the current sending rate of each transmission path from the information sending end to the information receiving end and determining the optimal transmission path from all the transmission paths at least according to the sending rate;

a transmitter for transmitting the information according to the optimal transmission path.

2. The information distribution platform of claim 1, wherein the router is configured to determine an optimal transmission path from all the transmission paths according to at least the sending rate, and the determining comprises:

the router is used for multiplying the sending rate of each transmission path and the cost required for transmitting the information by respective weight to obtain a score; and determining the transmission path with the highest score as the optimal transmission path.

3. The information distribution platform of claim 1, wherein the router is configured to determine an optimal transmission path from all the transmission paths according to at least the sending rate, and the determining comprises:

the router is used for multiplying the sending rate of each transmission path, the cost required by information transmission and the sending success rate with respective weight respectively to obtain a score, and determining the transmission path with the highest score as the optimal transmission path.

4. The information distribution platform of claim 2 or 3,

and the route finder is also used for sorting in a descending order according to the scores of the transmission paths, and when the information transmission fails, determining the next transmission path as the optimal transmission path according to the sorting.

5. The information distribution platform of claim 1,

the information received by the information receiving gateway contains the time required for completing the transmission;

the router is configured to determine an optimal transmission path from all the transmission paths according to at least the sending rate, and includes:

the router is used for obtaining the size of the information, determining the time required by each transmission path to transmit the information according to the size of the information and the sending rate, and deleting the transmission paths exceeding the time required to finish sending.

6. The information distribution platform of any one of claims 1-5, further comprising: an information processor;

the information processor is configured to invoke the router based on information to instruct the router to determine an optimal transmission path, and is further configured to invoke the transmitter to instruct the transmitter to transmit the information according to the optimal transmission path after the router determines the optimal transmission path.

7. The information distribution platform of any one of claims 1-6,

the information received by the information receiving gateway contains appointed information transmission paths, and one of each information transmission path corresponds to one format; the transmission path comprises a short message transmission path, a mailbox sending path and an APP message transmission path;

the information distribution platform further comprises a protocol converter;

and the protocol converter is used for determining a transmission protocol according to the preset format so that the transmitter transmits the information according to the transmission protocol determined by the protocol converter.

8. An information distribution system characterized by comprising: a transmitting end, a receiving end and an information distribution platform according to any one of claims 1-7;

the sending end is used for packaging the information into a format corresponding to the appointed sending path and sending the information;

and the information distribution platform is used for determining an optimal transmission path from all transmission paths of the specified sending path based on the received information and sending the information to the receiving end according to the optimal transmission path.

9. The system of claim 8,

and the information distribution platform is further used for multiplying the sending rate, the cost required for transmitting the information and the sending success rate of each transmission path by respective weight respectively to obtain scores, sorting the scores in a descending order according to the scores of all the transmission paths, and when the information transmission fails, determining the next transmission path as the optimal transmission path according to the sorting order until the information is successfully sent.

10. An information distribution method, characterized in that,

acquiring the current sending rate of each transmission path from the information sending end to the information receiving end;

and determining an optimal transmission path from all the transmission paths according to at least the sending rate.

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