CN112769675A - Method and system for improving communication speed of real-time message - Google Patents

Abstract

The invention discloses a method and a system for improving the communication speed of real-time messages, which comprise a data acquisition end, a mobile user end and an information pushing transfer end, wherein the data acquisition end, the mobile user end and the information pushing transfer end are used for establishing communication connection; the information pushing transfer terminal comprises a plurality of transfer servers and a service processing server, and the plurality of transfer servers are in communication connection with the service processing server; the mobile user side is used for receiving the original data pushed by the information pushing and transferring terminal; the data acquisition end establishes communication connection with the transfer server and the service processing server which are nearest to the data acquisition end respectively; the mobile user end establishes communication connection with the transfer server and the service processing server which are nearest to the mobile user end respectively; the transfer server is used as a data transmission bridge between the data acquisition end and the service processing server and a data transmission bridge between the service processing server and the mobile user end; the invention can improve the speed of the information from the acquisition end to the server end and from the server end to the user terminal and reduce the risk of message loss.

Description

Method and system for improving communication speed of real-time message

Technical Field

The invention relates to the technical field of data transmission, in particular to a method and a system for improving the communication speed of real-time messages.

Background

In the internet field, the real-time network information is generated from a data acquisition end to a terminal user and is subjected to a plurality of stages in the process of receiving, and the final total time is an important index for measuring a real-time network information communication system, wherein the network information comprises: text information, picture information, stock information, and the like.

In the prior art, information is directly sent to a remote server through a network after being generated by a data acquisition end, and the information is processed by the remote server and then pushed to equipment of a terminal user through the network.

The existing standard internet real-time message pushing scheme has a great problem, and as is well known, the network environment of the internet is very complex. After a piece of information is generated from a data acquisition end, the information passes through a router of a user and is forwarded to a remote server end through a multi-layer operator, and the information is sent to terminal equipment of another user after the information is processed by the remote server end and passes through the same complex network environment. The intermediate network environment is complex and the intermediate operator may cause loss of messages due to different policies.

Disclosure of Invention

The invention aims to provide a method and a system for improving the communication speed of a real-time message, which aim to solve the technical problems that the intermediate network environment is complex and an intermediate operator may cause the loss of the message due to different strategies in the prior art.

In order to solve the technical problems, the invention specifically provides the following technical scheme:

a system for improving the communication speed of real-time messages comprises a data acquisition end, a mobile user end and an information pushing transfer end;

the data acquisition end is used for acquiring original data;

the information pushing transfer terminal comprises a plurality of transfer servers and a service processing server, the plurality of transfer servers and the service processing server form a regional backbone network topological graph, and the plurality of transfer servers are respectively in communication connection with the service processing server;

the mobile user side is used for receiving the original data pushed by the information pushing transfer terminal;

the data acquisition end and the mobile user end respectively establish communication connection with the service processing server in an initial state;

the data acquisition end sends a first connection confirmation application to the service processing server, the service processing server determines the transfer server closest to the data acquisition end in the regional backbone network topological graph according to the first connection confirmation application, and the data acquisition end establishes communication connection with the transfer server closest to the data acquisition end;

the mobile user terminal sends a second connection confirmation application to the service processing server, the service processing server determines the transfer server closest to the mobile user terminal in the local backbone network topological graph according to the second connection confirmation application, and the mobile user terminal establishes communication connection with the transfer server closest to the mobile user terminal;

the transfer server is used as a data transmission bridge between the data acquisition end and the service processing server and between the service processing server and the mobile user end.

As a preferred scheme of the present invention, a uniquely matched data transmission channel is provided between each of the relay servers and the service processing server to prevent the problem of data cross transmission, and the data transmission channel between each of the relay servers and the service processing server is specifically a data receiving channel and a data sending channel.

As a preferred scheme of the present invention, a sequence set corresponding to the classification item for establishing the raw data and a user database for storing the classification item corresponding to each raw data are provided in the service processing server;

the business processing server is also provided with a mapping engine platform, the mapping engine platform is used for establishing a one-to-one correspondence relationship between the array set and the user database, and the mapping engine platform determines the mobile user terminal for pushing the original data according to the classification item to which the original data belongs.

As a preferred embodiment of the present invention, the data acquisition end, the transit server and the mobile user end are all provided with a GPS positioning system, and the data acquisition end, the transit server and the mobile user end send real-time locations to the service processing server through the GPS positioning system, and update the positioning locations of the data acquisition end, the transit server and the mobile user end in the local backbone network topology map in real time, and the mobile user end calculates the real-time distance between the data acquisition end and the transit server and the real-time distance between the mobile user end and the transit server in the local backbone network topology map in real time to screen out the transit server closest to the data acquisition end and the transit server closest to the mobile user end respectively, wherein the content of the first and second substances,

the range change amplitude of the distance between the data acquisition end and the transfer server is small, and a fixed corresponding communication connection is established between the data acquisition end and the transfer server closest to the data acquisition end;

the distance between the mobile user side and the transfer server has a large change range, and a real-time variable communication connection is established between the mobile user side and the transfer server closest to the data acquisition end;

and the same transfer server simultaneously establishes communication connection with the data acquisition end and the mobile user end.

As a preferred embodiment of the present invention, the data acquisition end sends the original data to the corresponding service processing server through the transfer server that establishes communication connection with the data acquisition end, the service processing server determines the mobile user end to be sent according to the classification item of the original data, the service processing server determines the transfer server closest to each mobile user end according to the real-time location of the mobile user end, and after the mobile user end reestablishes communication connection with the transfer server, the service processing server sends the original data to each mobile user end through the transfer server.

In order to solve the above problem, the present embodiment further provides an implementation manner, in which a method for increasing a real-time message communication speed system includes the following steps:

step 100, a data acquisition end applies for a service processing server and establishes communication connection with a transfer server closest to the data acquisition end;

200, each mobile user terminal firstly applies for the service processing server, and establishes a first communication connection with the transfer server nearest to each mobile user terminal, and the service processing service determines the address of the mobile user terminal according to the application applied by the mobile user terminal;

step 300, the original data collected by the data collection end is sent to the service processing server through the transfer server, the service processing server readjusts and controls the transfer server closest to the mobile user end to establish communication connection with the mobile user end again according to the real-time position of the mobile user end, and the original data is sent to the mobile user end through the transfer server so as to achieve real-time communication with the shortest distance and the minimum transfer times.

As a preferred scheme of the present invention, in step 100, the data acquisition end applies for establishing a communication connection between the data acquisition end and the transfer server for the first time, and the specific implementation steps are as follows:

step 101, the data acquisition end establishes communication connection with the service processing server, and the data acquisition end sends an application to the service processing server to determine the address of the transfer server closest to the data acquisition end;

102, the service processing server returns an address of the transfer server which is nearest to the data acquisition end and available to the data acquisition end;

and 103, automatically establishing communication connection between the data acquisition end and the transfer server which is nearest to and available from the data acquisition end.

As a preferred solution of the present invention, in step 200, the mobile user applies for establishing a communication connection between the mobile user and a relay server for the first time, and the service processing server determines an address of the mobile user according to the first application of the mobile user, which includes the specific implementation steps of:

step 201, the mobile user terminal establishes communication connection with the service processing server, and sends an application to the service processing server to determine an address of the transfer server closest to the mobile user terminal;

step 202, the service processing server returns an address of the transfer server which is closest to the mobile user terminal and available to the mobile user terminal;

and 203, the mobile user terminal and the transfer server which is nearest to the mobile user terminal and available automatically establish communication connection.

As a preferred scheme of the present invention, in step 300, when the original data collected by the data collection end is pushed to the matched mobile user end, the service processing server is triggered to work, the service processing server re-determines the transfer server closest to the mobile user end according to the real-time location of the mobile user end, and the service processing server triggers the transfer server closest to the mobile user end to establish a secondary communication connection with the mobile user end by using the address of the mobile user end obtained by first establishing a communication connection.

As a preferred scheme of the present invention, after establishing the secondary communication connection between the transfer server closest to the mobile user end and the mobile user end, a specific method for implementing data transmission includes:

301, the data acquisition end acquires original data and sends the original data to the transfer server which establishes communication connection;

step 302, the transit server sends the original data to the service processing server through a network channel, and the service processing server screens out the mobile user terminal needing information push by determining classification items of the original data;

step 303, the service processing server determines the transfer server corresponding to the mobile user side, and sends the original data to each transfer server;

and step 304, each transfer server sends the original data to the corresponding mobile user terminal.

Compared with the prior art, the invention has the following beneficial effects:

the invention provides the transfer server deployed on the plurality of regional backbone networks, so that the message generated by the acquisition end enters the server network through the shortest path, is pushed to the data push server closest to the user after being processed, and is pushed to the user through the data push server.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

Fig. 1 is a block diagram of a system for increasing communication speed according to an embodiment of the present invention;

fig. 2 is a schematic flow chart illustrating a method for increasing a communication speed according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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.

As shown in fig. 1, the present invention provides a system for increasing a communication speed of a real-time message, including a data acquisition end, a mobile client and an information push relay end;

the data acquisition end is used for acquiring original data;

the information pushing transfer end comprises a plurality of transfer servers and a service processing server, the plurality of transfer servers and the service processing server form a regional backbone network topological graph, and the plurality of transfer servers are respectively in communication connection with the service processing server;

the mobile user side is used for receiving the original data pushed by the information pushing and transferring terminal;

the data acquisition end and the mobile user end are respectively in communication connection with the service processing server in an initial state;

the data acquisition end sends a first connection confirmation application to the service processing server, the service processing server determines a transfer server closest to the data acquisition end in the regional backbone network topological graph according to the first connection confirmation application, and the data acquisition end establishes communication connection with the transfer server closest to the data acquisition end;

the mobile user terminal sends a second connection confirmation application to the service processing server, the service processing server determines a transfer server closest to the mobile user terminal in the regional backbone network topological graph according to the second connection confirmation application, and the mobile user terminal establishes communication connection with the transfer server closest to the mobile user terminal;

the transfer server is used as a data transmission bridge between the data acquisition end and the service processing server and between the service processing server and the mobile user end.

The data transmission channel between each transfer server and the service processing server is specifically a data receiving channel and a data sending channel.

In addition, it should be added that the data acquisition end, the transit server and the mobile user end are all provided with a GPS positioning system, and the data acquisition end, the transit server and the mobile user end send real-time positions to the service processing server through the GPS positioning system, and update the positioning positions of the data acquisition end, the transit server and the mobile user end in real time in the local backbone network topology map, and the mobile user end calculates the real-time distance between the data acquisition end and the transit server and the real-time distance between the mobile user end and the transit server in real time in the local backbone network topology map to screen out the transit server nearest to the data acquisition end and the transit server nearest to the mobile user end, respectively, wherein,

the distance between the data acquisition end and the transfer server is small in change amplitude, and a fixed corresponding communication connection is established between the data acquisition end and the transfer server closest to the data acquisition end;

the distance between the mobile user side and the transfer server has large change range, and real-time variable communication connection is established between the mobile user side and the transfer server closest to the data acquisition end;

and the same transfer server simultaneously establishes communication connection with the data acquisition end and the mobile user end.

That is, the data acquisition end may send the original data to the service processing server through the transfer server according to the fixed transfer server, and since the mobile user end has a large range of activity, the mobile user end does not establish a communication connection with the fixed transfer server, that is, each time the original data is sent, the mobile user end needs to re-determine the transfer server closest to the mobile user end according to the activity location position, and re-determine the transfer server establishing a communication connection with each mobile user end, so that the message generated by the acquisition end enters the server network through the shortest path, and is pushed to the data push server closest to the user after being processed.

Specifically, the implementation manner of establishing the real-time changing communication connection between the mobile user side and the transfer server closest to the data acquisition side according to the position change is as follows:

each mobile user terminal firstly applies for the business processing server, and establishes a first communication connection with the transfer server nearest to each mobile user terminal, and the business processing server identifies and stores the address of each mobile user terminal according to the application applied by the mobile user terminal;

when the original data collected by the data collection end is sent to the service processing server through the transfer server, the service processing server determines the transfer server closest to the mobile user end in the regional backbone network topological graph according to the real-time position of the mobile user end, and actively triggers the transfer server to reestablish communication connection according to the stored address of the mobile user end.

It should be added that, a number array set corresponding to the classification item for establishing the original data and a user database for storing the classification item corresponding to each original data are arranged in the service processing server;

the business processing server is also provided with a mapping engine platform, the mapping engine platform is used for establishing a one-to-one correspondence relationship between the array set and the user database, and the mapping engine platform determines a mobile user terminal for pushing the original data according to the classification item to which the original data belongs.

The data acquisition end sends original data to corresponding business processing servers through the transfer server which establishes communication connection with the data acquisition end, the business processing servers determine mobile user ends to be sent according to classification items of the original data, the business processing servers determine transfer servers which are closest to the mobile user ends according to real-time positions of the mobile user ends, and after the mobile user ends and the transfer servers reestablish communication connection, the business processing servers send the original data to the mobile user ends through the transfer servers.

That is, after receiving the original data, the service processing server determines the mobile user terminal to be sent according to the content of the original data, and then determines the transfer service station that establishes a communication connection with the mobile user terminal according to the location of the mobile user terminal, thereby avoiding the problem of wrong information transmission.

To further illustrate a manner of solving the technical problem, as shown in fig. 2, the present embodiment further provides a method for increasing a communication speed of a real-time message, including the following steps:

and step 100, the data acquisition end applies for a service processing server and establishes communication connection with a transfer server closest to the data acquisition end.

The data acquisition end applies for establishing communication connection between the data acquisition end and the transfer server for the first time, and the specific implementation steps are as follows:

step 101, a data acquisition end establishes communication connection with a service processing server, and the data acquisition end sends an application to the service processing server to determine an address of a transfer server closest to the data acquisition end;

step 102, the service processing server returns an address of an available transfer server closest to and available to the data acquisition end;

and 103, automatically establishing communication connection between the data acquisition end and an available transfer server closest to the data acquisition end.

Step 200, each mobile user terminal firstly submits an application to the service processing server, and establishes a first communication connection with the transfer server nearest to each mobile user terminal, and the service processing server determines the address of the mobile user terminal according to the application submitted by the mobile user terminal.

In step 200, the mobile ue applies for establishing a communication connection between the mobile ue and the transfer server for the first time, and the service processing server determines an address of the mobile ue according to the first application of the mobile ue, which includes the following specific steps:

step 201, a mobile user end establishes communication connection with a service processing server, and sends an application to the service processing server to determine an address of a transfer server nearest to the mobile user end;

step 202, the service processing server returns the address of the available transfer server closest to the mobile user terminal;

step 203, the mobile ue and the available transfer server closest to the mobile ue automatically establish a communication connection.

And 300, sending the original data acquired by the data acquisition end to a service processing server through a transfer server, readjusting the transfer server closest to the mobile user end by the service processing server according to the real-time position of the mobile user end to establish communication connection with the mobile user end again, and sending the original data to the mobile user end through the transfer server so as to realize the real-time communication with the shortest distance and the minimum transfer times.

In step 300, when the original data collected by the data collection end is pushed to the matched mobile user end, the service processing server is triggered to work, the service processing server re-determines the transfer server closest to the mobile user end according to the real-time position of the mobile user end, and the service processing server triggers the transfer server closest to the mobile user end to establish a secondary communication connection with the mobile user end by using the address of the mobile user end obtained by first establishing a communication connection.

After establishing a transfer server closest to the mobile user terminal and establishing a secondary communication connection with the mobile user terminal, a specific method for realizing data transmission comprises the following steps:

301, a data acquisition end acquires original data and sends the original data to a transfer server for establishing communication connection;

step 302, the transit server sends the original data to a service processing server through a network channel, and the service processing server screens out a mobile user terminal needing information pushing by determining classification items of the original data;

step 303, the service processing server determines a transfer server corresponding to the mobile user side, and sends the original data to each transfer server;

and step 304, each transfer server sends the original data to the corresponding mobile user terminal.

In summary, the present invention provides a transfer server deployed on a plurality of regional backbone networks, so that a message generated by a user enters a server network via a shortest path, is processed and then pushed to a data push server closest to the user, and then is pushed to the user via the data push server.

The above embodiments are only exemplary embodiments of the present application, and are not intended to limit the present application, and the protection scope of the present application is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present application and such modifications and equivalents should also be considered to be within the scope of the present application.

Claims (10)

1. A system for improving the communication speed of real-time messages is characterized by comprising a data acquisition end, a mobile user end and an information pushing transfer end;

the data acquisition end is used for acquiring original data;

the information pushing transfer terminal comprises a plurality of transfer servers and a service processing server, the plurality of transfer servers and the service processing server form a regional backbone network topological graph, and the plurality of transfer servers are respectively in communication connection with the service processing server;

the mobile user side is used for receiving the original data pushed by the information pushing transfer terminal;

the data acquisition end and the mobile user end respectively establish communication connection with the service processing server in an initial state;

the data acquisition end sends a first connection confirmation application to the service processing server, the service processing server determines the transfer server closest to the data acquisition end in the regional backbone network topological graph according to the first connection confirmation application, and the data acquisition end establishes communication connection with the transfer server closest to the data acquisition end;

the mobile user terminal sends a second connection confirmation application to the service processing server, the service processing server determines the transfer server closest to the mobile user terminal in the local backbone network topological graph according to the second connection confirmation application, and the mobile user terminal establishes communication connection with the transfer server closest to the mobile user terminal;

the transfer server is used as a data transmission bridge between the data acquisition end and the service processing server and between the service processing server and the mobile user end.

2. The method and system for increasing communication speed of real-time messages according to claim 1, wherein: and a unique matched data transmission channel is arranged between each transfer server and the service processing server to prevent the problem of data cross transmission, and the data transmission channel between each transfer server and the service processing server is specifically a data receiving channel and a data sending channel.

3. The method and system for increasing communication speed of real-time messages according to claim 2, wherein: a sequence set corresponding to the classification items used for establishing the original data and a user database used for storing the classification items corresponding to each original data are arranged in the business processing server;

the business processing server is also provided with a mapping engine platform, the mapping engine platform is used for establishing a one-to-one correspondence relationship between the array set and the user database, and the mapping engine platform determines the mobile user terminal for pushing the original data according to the classification item to which the original data belongs.

4. The method and system for increasing communication speed of real-time messages according to claim 3, wherein: the data acquisition end, the transit server and the mobile user end are all provided with GPS positioning systems, and the data acquisition end, the transit server and the mobile user end send real-time positions to the service processing server through the GPS positioning systems and update the positioning positions of the data acquisition end, the transit server and the mobile user end in real time in the regional backbone network topological graph, the mobile user end calculates the real-time distance between the data acquisition end and the transit server and the real-time distance between the mobile user end and the transit server in real time in the regional backbone network topological graph to screen out the transit server closest to the data acquisition end and the transit server closest to the mobile user end respectively, wherein,

the range change amplitude of the distance between the data acquisition end and the transfer server is small, and a fixed corresponding communication connection is established between the data acquisition end and the transfer server closest to the data acquisition end;

the distance between the mobile user side and the transfer server has a large change range, and a real-time variable communication connection is established between the mobile user side and the transfer server closest to the data acquisition end;

and the same transfer server simultaneously establishes communication connection with the data acquisition end and the mobile user end.

5. The method and system for increasing communication speed of real-time messages according to claim 4, wherein: the data acquisition end sends the original data to the corresponding business processing server through the transfer server which establishes communication connection with the data acquisition end, the business processing server determines the mobile user end to be sent according to the classification item of the original data, the business processing server determines the transfer server which is closest to each mobile user end according to the real-time position of the mobile user end, and after the mobile user end and the transfer server reestablish communication connection, the business processing server sends the original data to each mobile user end through the transfer server.

6. A method for increasing the speed of real-time messaging according to any of claims 1 to 5, comprising the steps of:

step 100, a data acquisition end applies for a service processing server and establishes communication connection with a transfer server closest to the data acquisition end;

200, each mobile user terminal firstly applies for the service processing server, and establishes a first communication connection with the transfer server nearest to each mobile user terminal, and the service processing service determines the address of the mobile user terminal according to the application applied by the mobile user terminal;

step 300, the original data collected by the data collection end is sent to the service processing server through the transfer server, the service processing server readjusts and controls the transfer server closest to the mobile user end to establish communication connection with the mobile user end again according to the real-time position of the mobile user end, and the original data is sent to the mobile user end through the transfer server so as to achieve real-time communication with the shortest distance and the minimum transfer times.

7. The method for improving the communication speed of the real-time message according to claim 6, wherein in step 100, the data collection end applies for establishing the communication connection between the data collection end and the transfer server for the first time, and the specific implementation steps are as follows:

step 101, the data acquisition end establishes communication connection with the service processing server, and the data acquisition end sends an application to the service processing server to determine the address of the transfer server closest to the data acquisition end;

102, the service processing server returns an address of the transfer server which is nearest to the data acquisition end and available to the data acquisition end;

and 103, automatically establishing communication connection between the data acquisition end and the transfer server which is nearest to and available from the data acquisition end.

8. The method as claimed in claim 6, wherein in step 200, the ms applies for establishing the communication connection between the ms and the relay server for the first time, and the service processing server determines the address of the ms according to the first application of the ms, and the specific implementation steps are as follows:

step 201, the mobile user terminal establishes communication connection with the service processing server, and sends an application to the service processing server to determine an address of the transfer server closest to the mobile user terminal;

step 202, the service processing server returns an address of the transfer server which is closest to the mobile user terminal and available to the mobile user terminal;

and 203, the mobile user terminal and the transfer server which is nearest to the mobile user terminal and available automatically establish communication connection.

9. The method of claim 6, wherein in step 300, when the original data collected by the data collection end is pushed to the matched mobile ue, the service processing server is triggered to operate, the service processing server re-determines the relay server closest to the mobile ue according to the real-time location of the mobile ue, and the service processing server triggers the relay server closest to the mobile ue to establish a secondary communication connection with the mobile ue by using the address of the mobile ue obtained by first establishing a communication connection.

10. The method of claim 9, wherein after the relay server closest to the mobile ue establishes the secondary communication connection with the mobile ue, the specific method for implementing data transmission comprises:

301, the data acquisition end acquires original data and sends the original data to the transfer server which establishes communication connection;

step 302, the transit server sends the original data to the service processing server through a network channel, and the service processing server screens out the mobile user terminal needing information push by determining classification items of the original data;

step 303, the service processing server determines the transfer server corresponding to the mobile user side, and sends the original data to each transfer server;

and step 304, each transfer server sends the original data to the corresponding mobile user terminal.

Images