CN116319584B - Data transmission method based on network layering - Google Patents

Abstract

The invention discloses a data transmission method based on network layering, which relates to the technical field of data transmission, constructs a layered network structure for data transmission, and sets a permission loading terminal linked with the layered network structure; the user transmits data through the hierarchical network structure, and the hierarchical processing of the data to be transmitted is completed in the hierarchical network structure; transmitting the data to be transmitted to a data receiving terminal selected by a user according to the layering processing result; and classifying the data required to be transmitted by the user by using a hierarchical network structure, and establishing links for transmitting data of different data types in a network layer according to the data types required to be transmitted by the user, so that the interference degree in the transmission process between the data of different types is minimized, and the data transmission efficiency in the data transmission process is improved.

Description

Data transmission method based on network layering

Technical Field

The invention relates to the technical field of data transmission, in particular to a data transmission method based on network layering.

Background

The terminal application causes the server to execute the commands of the terminal application by calling the API of the operating system in the server.

In the prior art, when a user transmits data, the user can influence each other when transmitting different types of data at the same time due to different environments required by the transmission of the different types of data, so that the transmission efficiency of the data is influenced, and how to utilize a layered network result to reduce the mutual influence of the user when transmitting the data of various types at the same time, so that the data transmission efficiency is improved, and therefore, the problem which needs to be solved is solved.

Disclosure of Invention

The invention aims to provide a data transmission method based on network layering.

The invention can realize the aim through the following technical scheme, and the data transmission method based on network layering comprises the following steps:

step S1: constructing a layered network structure for data transmission, and setting a right loading terminal linked with the layered network structure;

step S2: the user transmits data through the hierarchical network structure, and the hierarchical processing of the data to be transmitted is completed in the hierarchical network structure;

step S3: and transmitting the data to be transmitted to the data receiving terminal selected by the user according to the layering processing result.

Further, the layered network structure comprises an application layer, a transmission layer, a network layer and an expression layer;

the application layer is used for linking with the user terminal, and the user terminal obtains the data transmission authority through the application layer;

after obtaining the authority of entering the hierarchical network structure for data transmission, a user enters an application layer, and establishes a temporary data interaction space associated with a login account used by the user;

the user selects at least one data receiving terminal in the temporary data interaction space;

after finishing the selection of the data receiving terminal, the user uploads the data to be transmitted to the temporary data interaction space, and uploads the data which is transmitted to the temporary data interaction space once to the transmission layer.

Further, the process of obtaining the data transmission permission by the user terminal includes:

setting a registration unit in an application layer, and inputting user basic information by a user terminal through the registration unit;

the registration unit automatically acquires the MAC code of the user terminal used by the user, and correlates the acquired MAC code with the user basic information input by the user;

uploading user basic information input by a user and the MAC code acquired by the registration unit to a management center for verification, generating a login account and a login password after the verification is passed, and transmitting the generated login account and login password to the user;

mapping the user basic information of the user and the MAC code of the user terminal used by the user to the authority loading terminal, and associating the user basic information with the generated login account and login password.

Further, the permission loading terminal is used for loading the permission of the user to enter the hierarchical network structure, and the process comprises the following steps:

sending a permission acquisition application to a user terminal used by a user, directly acquiring an MAC code of the user terminal if the user agrees to the permission acquisition application, and uploading the acquired MAC code to a permission loading terminal;

the authority loading terminal searches whether the MAC code exists and is consistent with the acquired MAC code, if so, the user basic information associated with the MAC code is acquired, and the user basic information is sent to the user terminal;

after confirming the user basic information, the user obtains the authority to enter the hierarchical network structure;

if the MAC code is not retrieved by the authority loading terminal to be consistent with the obtained MAC code, the user inputs the login account and the login password to the authority loading terminal, and the authority loading terminal grants the user the authority to enter the hierarchical network structure for data transmission according to the input login account and login password.

Further, the layering processing of the data to be transmitted includes:

acquiring the data type of the data to be transmitted, classifying the data to be transmitted, and generating a corresponding type label according to the corresponding data type;

generating corresponding identification sequences with the data receiving terminals selected by the users, and respectively associating the data to be transmitted according to the generated identification sequences;

establishing a data transmission link in a network layer according to the identification sequence, and generating a corresponding sub-link in the data transmission link according to the generated type tag;

and transmitting the data type to be transmitted to the data receiving terminal selected by the user through the sub-link corresponding to the corresponding type label.

Further, the network layer is further configured to detect the generated states of the data transmission link and the sub-link, and the process includes:

in the process of transmitting the data to be transmitted, acquiring the transmission rates of a data transmission link and a sub-link in real time;

establishing a two-dimensional coordinate system of time with respect to the transmission rate;

generating a sublink rate change curve according to the obtained transmission rate of each sublink, and mapping the obtained sublink change curve into a two-dimensional coordinate system;

generating a main link rate change curve according to the transmission rate of the data transmission link;

acquiring a state evaluation coefficient of a data transmission link;

setting a parameter threshold;

and comparing the obtained state evaluation coefficient with a parameter threshold value, and judging whether the state detection of the data transmission link is normal or not according to a comparison result.

Further, the expression layer is used for visually displaying the data transmission result, and the process comprises the following steps:

when the state of the data transmission link is detected to be normal, the data transmitted in the data transmission link is sent to a data receiving terminal selected by a user, and the detection result and the data transmission result are simultaneously generated into corresponding prompt information on the user and the data receiving terminal selected by the user;

when a data transmission blocking instruction is generated, the data transmission blocking instruction is simultaneously sent to a user and a data receiving terminal selected by the user;

when any one of the user and the data receiving terminal selected by the user does not confirm the data transmission blocking instruction or any one of the user and the data receiving terminal rejects the data transmission blocking instruction, the transmission of the data in the data transmission link cannot be completed;

and otherwise, when the user and all the data receiving terminals selected by the user confirm the data transmission blocking instruction and agree with the data transmission blocking instruction, the data in the data transmission link is normally transmitted to the data receiving terminal selected by the user, and corresponding prompt information is generated.

Compared with the prior art, the invention has the beneficial effects that: and classifying the data required to be transmitted by the user by using a hierarchical network structure, and establishing links for transmitting data of different data types in a network layer according to the data types required to be transmitted by the user, so that the interference degree in the transmission process between the data of different types is minimized, and the data transmission efficiency in the data transmission process is improved.

Drawings

Fig. 1 is a schematic diagram of the present invention.

Detailed Description

As shown in fig. 1, a data transmission method based on network layering includes the following steps:

step S1: constructing a layered network structure for data transmission, and setting a right loading terminal linked with the layered network structure;

step S2: the user transmits data through the hierarchical network structure, and the hierarchical processing of the data to be transmitted is completed in the hierarchical network structure;

step S3: and transmitting the data to be transmitted to the data receiving terminal selected by the user according to the layering processing result.

It should be further noted that, in the implementation process, the layered network structure includes an application layer, a transmission layer, a network layer, and an expression layer;

the application layer is used for linking with the user terminal, the user terminal obtains the data transmission authority through the application layer, and after obtaining the data transmission authority, the user terminal uploads the data to be transmitted into the application layer; it should be further noted that, in the implementation process, the process of obtaining the data transmission permission by the user terminal includes:

setting a registration unit in an application layer, and inputting user basic information by a user terminal through the registration unit; the user basic information comprises a name, a gender, an age and a mobile phone number authenticated by a real name;

the registration unit automatically acquires the MAC code of the user terminal used by the user, and correlates the acquired MAC code with the user basic information input by the user;

uploading user basic information input by a user and the MAC code acquired by the registration unit to a management center for verification, generating a login account and a login password after the verification is passed, and transmitting the generated login account and login password to the user;

mapping the user basic information of the user and the MAC code of the user terminal used by the user to the authority loading terminal, and associating the user basic information with the generated login account and login password;

it should be further noted that, in the implementation process, when the registration unit obtains the MAC code of the user terminal used by the user, the user is required to grant the corresponding authority, and if the user does not agree to grant the corresponding authority, the MAC code of the user terminal cannot be obtained, that is

If the MAC code of the user terminal is not obtained, mapping only user basic information to the authority loading terminal; it should be further noted that, in the implementation process, the MAC code of one user terminal can only be associated with one user basic information, and one user basic information can be associated with the MAC codes of a plurality of user terminals at the same time;

the authority loading terminal is used for loading the authority of a user entering the hierarchical network structure, and the specific process comprises the following steps:

sending a permission acquisition application to a user terminal used by a user, directly acquiring an MAC code of the user terminal if the user agrees to the permission acquisition application, and uploading the acquired MAC code to a permission loading terminal;

the authority loading terminal searches whether the MAC code exists and is consistent with the acquired MAC code, if so, the user basic information associated with the MAC code is acquired, and the user basic information is sent to the user terminal;

after confirming the user basic information, the user obtains the authority to enter the hierarchical network structure;

if the MAC code is not retrieved by the authority loading terminal to be consistent with the acquired MAC code, the user inputs the login account and the login password to the authority loading terminal, and the authority loading terminal grants the user the authority to enter the hierarchical network structure for data transmission according to the input login account and login password;

it should be further noted that, in the implementation process, when the user agrees to grant the permission to obtain the application, a "single grant" and a "always grant" may be selected, if the "single grant" is selected, the user still needs to obtain again before entering the hierarchical network structure next time, and if the "always grant" is selected, before the user enters the "always grant" next time, the MAC code of the user terminal can be directly obtained without obtaining again the corresponding permission.

It should be further noted that, in the implementation process, the process of data transmission by the user through the hierarchical network structure includes:

after obtaining the authority of entering the hierarchical network structure for data transmission, a user enters an application layer, and establishes a temporary data interaction space associated with a login account used by the user;

the user selects at least one data receiving terminal in the temporary data interaction space; it should be further noted that, in the specific implementation process, the data receiving terminal selected by the user includes a login account and a MAC code associated with the login account;

taking the data receiving terminal selected by the user as a designated target position for data transmission;

after finishing the selection of the data receiving terminal, the user uploads the data to be transmitted to the temporary data interaction space, and uploads the data which is transmitted to the temporary data interaction space once to the transmission layer;

the transmission layer is used for carrying out layering processing on data to be transmitted, and the specific process comprises the following steps:

acquiring the data type of the data to be transmitted, classifying the data to be transmitted, and generating a corresponding type label according to the corresponding data type;

generating corresponding identification sequences with the data receiving terminals selected by the users, and respectively associating the data to be transmitted according to the generated identification sequences;

establishing a data transmission link in a network layer according to the identification sequence, and generating a corresponding sub-link in the data transmission link according to the generated type tag;

and transmitting the data type to be transmitted to the data receiving terminal selected by the user through the sub-link corresponding to the corresponding type label.

The network layer is further configured to detect the generated states of the data transmission link and the sub-link, and the specific process includes:

acquiring state data of a data transmission link and sub-links in real time in the process of transmitting data to be transmitted, wherein the state data comprises the transmission rate of the data transmission link and the transmission rate of each sub-link;

each sub-link in the data transmission link is marked as i, wherein i=1, 2, … …, n is more than or equal to 1, and n is an integer;

the transmission rate of the sub-link denoted i is denoted CL _i ；

The transmission rate of the data transmission link is marked as P;

establishing a two-dimensional coordinate system of time with respect to the transmission rate;

generating a corresponding rate change curve according to the obtained transmission rate of each sub-link, marking the obtained rate change curve corresponding to each sub-link as a sub-link rate change curve, and mapping the obtained sub-link change curve into a two-dimensional coordinate system;

generating a corresponding rate change curve according to the transmission rate of the data transmission link, and recording the generated rate change curve as a main link rate change curve;

obtaining a state estimation coefficient of the data transmission link, the state estimation coefficient of the data transmission link being denoted as ZP, wherein

Wherein t is the current time, k _i For the channel transmission rate loss factor of the sub-link denoted i,presetting parameters for the system, < >>0.00213;

setting a parameter threshold C;

comparing the obtained state evaluation coefficient with a parameter threshold C, and obtaining a comparison result;

when ZP is less than C, the state detection of the data transmission link is normal, and the detection result is uploaded to the expression layer;

when ZP is more than or equal to C, the state detection of the data transmission link is abnormal, a data transmission blocking instruction is generated, and the data transmission blocking instruction is uploaded to the expression layer.

It should be further noted that, in the implementation process, the expression layer is configured to visually display a data transmission result, and the specific process includes:

when the state of the data transmission link is detected to be normal, the data transmitted in the data transmission link is sent to a data receiving terminal selected by a user, and the detection result and the data transmission result are simultaneously generated into corresponding prompt information on the user and the data receiving terminal selected by the user;

when a data transmission blocking instruction is generated, the data transmission blocking instruction is simultaneously sent to a user and a data receiving terminal selected by the user;

when any one of the user or the data receiving terminal selected by the user does not confirm the data transmission blocking instruction or any one of the user does reject the data transmission blocking instruction, the transmission of the data in the data transmission link cannot be completed;

and otherwise, when the user and all the data receiving terminals selected by the user confirm the data transmission blocking instruction and agree with the data transmission blocking instruction, the data in the data transmission link is normally transmitted to the data receiving terminal selected by the user, and corresponding prompt information is generated.

The above embodiments are only for illustrating the technical method of the present invention and not for limiting the same, and it should be understood by those skilled in the art that the technical method of the present invention may be modified or substituted without departing from the spirit and scope of the technical method of the present invention.

Claims (5)

1. The data transmission method based on network layering is characterized by comprising the following steps:

step S1: constructing a layered network structure for data transmission, and setting a right loading terminal linked with the layered network structure;

step S2: the user transmits data through the hierarchical network structure, and the hierarchical processing of the data to be transmitted is completed in the hierarchical network structure;

step S3: transmitting the data to be transmitted to a data receiving terminal selected by a user according to the layering processing result;

the layered network structure comprises an application layer, a transmission layer, a network layer and an expression layer;

the application layer is used for linking with the user terminal, and the user terminal obtains the data transmission authority through the application layer;

after obtaining the authority of entering the hierarchical network structure for data transmission, a user enters an application layer, and establishes a temporary data interaction space associated with a login account used by the user;

the user selects at least one data receiving terminal in the temporary data interaction space;

after finishing the selection of the data receiving terminal, the user uploads the data to be transmitted to the temporary data interaction space, and uploads the data which is transmitted to the temporary data interaction space once to the transmission layer;

the process for obtaining the data transmission permission by the user terminal comprises the following steps:

setting a registration unit in an application layer, and inputting user basic information by a user terminal through the registration unit;

the registration unit automatically acquires the MAC code of the user terminal used by the user, and correlates the acquired MAC code with the user basic information input by the user;

uploading user basic information input by a user and the MAC code acquired by the registration unit to a management center for verification, generating a login account and a login password after the verification is passed, and transmitting the generated login account and login password to the user;

mapping the user basic information of the user and the MAC code of the user terminal used by the user to the authority loading terminal, and associating the user basic information with the generated login account and login password.

2. The data transmission method based on network layering according to claim 1, wherein the rights loading terminal is configured to load rights of a user to enter a layered network structure, and the process includes:

sending a permission acquisition application to a user terminal used by a user, directly acquiring an MAC code of the user terminal if the user agrees to the permission acquisition application, and uploading the acquired MAC code to a permission loading terminal;

the authority loading terminal searches whether the MAC code exists and is consistent with the acquired MAC code, if so, the user basic information associated with the MAC code is acquired, and the user basic information is sent to the user terminal;

after confirming the user basic information, the user obtains the authority to enter the hierarchical network structure;

if the MAC code is not retrieved by the authority loading terminal to be consistent with the obtained MAC code, the user inputs the login account and the login password to the authority loading terminal, and the authority loading terminal grants the user the authority to enter the hierarchical network structure for data transmission according to the input login account and login password.

3. The network-hierarchy-based data transmission method of claim 2, wherein the layering process of the data to be transmitted comprises:

acquiring the data type of the data to be transmitted, classifying the data to be transmitted, and generating a corresponding type label according to the corresponding data type;

generating corresponding identification sequences with the data receiving terminals selected by the users, and respectively associating the data to be transmitted according to the generated identification sequences;

establishing a data transmission link in a network layer according to the identification sequence, and generating a corresponding sub-link in the data transmission link according to the generated type tag;

and transmitting the data type to be transmitted to the data receiving terminal selected by the user through the sub-link corresponding to the corresponding type label.

4. A method for network-based hierarchical data transmission according to claim 3, wherein said network layer is further configured to detect the status of the generated data transmission links and sub-links, and wherein the process comprises:

in the process of transmitting the data to be transmitted, acquiring the transmission rates of a data transmission link and a sub-link in real time;

establishing a two-dimensional coordinate system of time with respect to the transmission rate;

generating a sublink rate change curve according to the obtained transmission rate of each sublink, and mapping the obtained sublink change curve into a two-dimensional coordinate system;

generating a main link rate change curve according to the transmission rate of the data transmission link;

acquiring a state evaluation coefficient of a data transmission link;

setting a parameter threshold;

and comparing the obtained state evaluation coefficient with a parameter threshold value, and judging whether the state detection of the data transmission link is normal or not according to a comparison result.

5. The data transmission method based on network layering according to claim 4, wherein the expression layer is used for visually displaying the data transmission result, and the process comprises:

when the state of the data transmission link is detected to be normal, the data transmitted in the data transmission link is sent to a data receiving terminal selected by a user, and the detection result and the data transmission result are simultaneously generated into corresponding prompt information on the user and the data receiving terminal selected by the user;

when a data transmission blocking instruction is generated, the data transmission blocking instruction is simultaneously sent to a user and a data receiving terminal selected by the user;

when any one of the user and the data receiving terminal selected by the user does not confirm the data transmission blocking instruction or any one of the user and the data receiving terminal rejects the data transmission blocking instruction, the transmission of the data in the data transmission link cannot be completed;

and otherwise, when the user and all the data receiving terminals selected by the user confirm the data transmission blocking instruction and agree with the data transmission blocking instruction, the data in the data transmission link is normally transmitted to the data receiving terminal selected by the user, and corresponding prompt information is generated.