CN116668521A - Distributed multi-element data rapid transmission method based on data structure - Google Patents

Abstract

The application relates to the field of data rapid transmission, in particular to a distributed multi-element data rapid transmission method based on a data structure, which comprises the following steps: s1, acquiring a data structure of distributed multi-element data to be transmitted; s2, establishing a basic transmission path according to the data structure of the distributed multi-element data to be transmitted; s3, carrying out distributed multi-element data rapid transmission according to the basic transmission path, firstly taking multi-element data segmentation and a data structure thereof as a method implementation thought basis, ensuring the combination compactness of a scheme and processing data, secondly, in the steps of transmission path establishment, verification and transmission, finding problems and providing a solution, realizing the closed loop of the scheme thought, and when the scheme is deployed with a high-flow network or a multi-node network, completing certain data transmission by one deployment, carrying out self-adjustment iteration according to an actual transmission network or data, and guaranteeing the accuracy and the efficiency before, during and after the transmission.

Description

Distributed multi-element data rapid transmission method based on data structure

Technical Field

The application relates to the field of rapid data transmission, in particular to a rapid data transmission method for distributed multi-element data based on a data structure.

Background

The data structure is a mode of computer storage and data organization; the usual data structures are: in operations such as multi-element data segmentation and restoration, often the data processing process can be combined according to the data structure of the data processing process, and under the condition that multi-element data is deployed in a large scale, the whole transmission or the single transmission can cause conditions such as path confusion, incomplete data verification and the like.

Disclosure of Invention

Aiming at the defects of the prior art, the application provides a distributed multi-element data rapid transmission method based on a data structure, and the transmission accuracy and the subsequent receiving verification efficiency are improved by combining the self data structure of the multi-element data with the transmission path determining step.

In order to achieve the above object, the present application provides a method for rapidly transmitting distributed multi-element data based on a data structure, including:

s1, acquiring a data structure of distributed multi-element data to be transmitted;

s2, establishing a basic transmission path according to the data structure of the distributed multi-element data to be transmitted;

s3, carrying out distributed multi-element data rapid transmission according to the basic transmission path.

Preferably, the acquiring the data structure of the distributed multi-data to be transmitted includes:

utilizing the data storage structure of the distributed multi-data to be transmitted as a rapid transmission characteristic;

utilizing the data physical structure of the distributed multi-data to be transmitted as a process verification feature;

using the data logic structure of the distributed multi-data to be transmitted as an ending verification feature;

using the quick transmission feature, the process verification feature and the end verification feature as a data structure of the distributed multi-metadata to be transmitted;

the data storage structure is a storage form of distributed multi-element data to be transmitted, the data physical structure is an image of the distributed multi-element data to be transmitted, and the data logical structure comprises a linear structure and a nonlinear structure.

Further, establishing a basic transmission path according to the data structure of the distributed multi-data to be transmitted includes:

s2-1, establishing a basic transmission path to be verified according to the rapid transmission characteristics in the data structure of the distributed multi-element data to be transmitted;

s2-2, performing medium-term verification according to the process verification characteristics by utilizing the basic transmission path to be verified to obtain a medium-term verification result of the basic transmission path;

s2-3, establishing a basic transmission path according to the medium-term verification result of the basic transmission path.

Further, establishing the basic transmission path to be verified according to the rapid transmission characteristics in the data structure of the distributed multi-data to be transmitted includes:

s2-1-1, judging whether the distributed multi-element data to be transmitted is in a split state, if so, respectively acquiring ports corresponding to the distributed multi-element split data to be transmitted to obtain an initial transmitting end set, and then executing S2-1-2, otherwise, acquiring ports corresponding to the distributed multi-element split data to be transmitted to serve as initial transmitting ends, and then executing S2-1-4;

s2-1-2, judging whether a transfer node exists between the initial sending end set and the receiving end, if so, using a transmission path from the initial sending end set to the transfer node as a first sub-transmission path, and executing S2-1-3 after the transmission path from the transfer node to the receiving end is used as a second sub-transmission path, otherwise, using the transmission paths from each port in the initial sending end set to the receiving end to establish a parallel sub-transmission path set as a basic transmission path;

s2-1-3, using the first sub-transmission path and the second sub-transmission path as basic transmission paths;

s2-1-4, using the transmission path from the initial sending end to the receiving end as a basic transmission path to be verified;

the split state is a multi-split data state, and the port corresponding to the distributed multi-split data to be transmitted is a port of the storage position of the distributed multi-split data to be transmitted.

Further, performing medium-term verification according to the process verification feature by using the basic transmission path to be verified to obtain a medium-term verification result of the basic transmission path includes:

s2-2-1, establishing a distributed multi-element internal mapping to be transmitted by utilizing the distributed multi-element data to be transmitted;

s2-2-2, establishing a distributed multi-element external mapping to be transmitted by utilizing the distributed multi-element internal mapping to be transmitted and a process verification characteristic;

s2-2-3, performing medium-term verification by using the distributed multi-element external mapping to be transmitted to obtain a medium-term verification result of the basic transmission path.

Further, the establishing a distributed multi-element internal mapping to be transmitted includes:

s2-2-1-1, judging whether the distributed multi-element data to be transmitted is in a segmentation state, if so, establishing chain mapping by using each segmentation data corresponding to the distributed multi-element data to be transmitted as internal mapping of the distributed multi-element data to be transmitted, otherwise, segmenting by using a port corresponding to the distributed multi-element data to be transmitted to obtain the distributed multi-element segmentation data to be transmitted;

s2-2-1-2, establishing tree mapping by using the distributed multi-element segmentation data to be transmitted as distributed multi-element internal mapping to be transmitted.

Further, establishing the distributed multi-element external map to be transmitted by using the distributed multi-element internal map to be transmitted and the process verification feature comprises:

when the distributed multi-element internal mapping to be transmitted is chained mapping, establishing distributed multi-element external mapping to be transmitted by utilizing the whole of the distributed multi-element internal mapping to be transmitted and the process verification characteristic;

when the distributed multi-element internal mapping to be transmitted is tree-shaped mapping, each branch node in the distributed multi-element internal mapping to be transmitted is utilized to respectively establish distributed multi-element external mapping to be transmitted with the process verification feature.

Further, performing the mid-term verification by using the distributed multi-element external map to be transmitted to obtain a mid-term verification result of the basic transmission path includes:

acquiring distributed multi-element data in a basic transmission path to be verified as a first medium-term verification feature according to the distributed multi-element external mapping to be transmitted and the distributed multi-element internal mapping to be transmitted;

acquiring distributed multi-element data to be transmitted as a second medium-term verification feature by utilizing the process verification feature corresponding to the distributed multi-element external mapping to be transmitted;

and judging whether the first medium-term verification feature and the second medium-term verification feature both correspond to the same distributed multi-element data, if so, enabling the medium-term verification result of the basic transmission path to pass, and otherwise, enabling the medium-term verification result of the basic transmission path to not pass.

Further, establishing the basic transmission path according to the mid-term verification result of the basic transmission path includes:

s2-3-1, judging whether the medium-term verification result of the basic transmission path passes or not, if so, using a transmission path corresponding to the medium-term verification result of the basic transmission path as the basic transmission path, otherwise, executing S2-3-2;

s2-3-2, judging whether the distributed multi-element data to be transmitted is consistent with the distributed multi-element data to be transmitted of a second medium-term verification feature corresponding to the medium-term verification result of the basic transmission path, if so, returning to S2-2-1-1, otherwise, executing S2-3-3;

s2-3-3, judging whether the execution times of the S2-3-2 are greater than 1, if yes, discarding the processing, otherwise, returning to the S1.

Preferably, the fast transmission of the distributed multi-element data according to the basic transmission path includes:

s3-1, using the corresponding ending verification feature of the distributed multi-element data to be transmitted as a transmission verification tag;

s3-2, judging whether the distributed multi-element data to be transmitted is in a split state, if so, sequentially transmitting the split data corresponding to the distributed multi-element data to be transmitted to a receiving end according to a basic transmission path, otherwise, directly transmitting the distributed multi-element data to be transmitted to the receiving end according to the basic transmission path;

s3-3, when the complete distributed multi-element data to be transmitted or all the split data corresponding to the distributed multi-element data to be transmitted exist in the receiving end, the distributed multi-element data to be transmitted or all the split data corresponding to the distributed multi-element data to be transmitted are used as the distributed multi-element data to be verified;

s3-4, judging whether the distributed multi-element data to be verified in the receiving end is in a segmentation state, if so, combining the multi-element data by utilizing the segmented data corresponding to the distributed multi-element data to be verified to obtain first data to be verified, otherwise, directly utilizing the distributed multi-element data to be verified as the first data to be verified;

s3-5, judging whether the first data to be verified completely corresponds to the transmission verification tag, if so, completing the rapid transmission of the distributed multi-element data, otherwise, executing S3-6;

s3-6, judging whether the first data to be verified is a subset of the distributed multi-metadata to be transmitted corresponding to the transmission verification tag, if so, returning to S3-2, otherwise, discarding the processing.

Compared with the closest prior art, the application has the following beneficial effects:

firstly, the multi-element data segmentation and the self data structure are taken as the basis of a method implementation thought, the combination compactness of a scheme and processing data is ensured, therefore, the application range is wider, secondly, in the steps of transmission path establishment, verification and transmission, problems are found and a solution is provided, the closed loop of the scheme thought is realized, when the scheme is deployed with a high-flow network or a multi-node network, certain transmission of the data can be completed through one-time deployment, meanwhile, the scheme has self-adaptive adjustment, self-adjustment iteration can be carried out according to an actual transmission network or the data, and the accuracy and the efficiency are ensured before, during and after the transmission.

Drawings

Fig. 1 is a flow chart of a method for rapidly transmitting distributed multi-element data based on a data structure.

Detailed Description

The following describes the embodiments of the present application in further detail with reference to the drawings.

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments of the present application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Example 1: the application provides a data structure-based distributed multi-element data rapid transmission method, as shown in figure 1, comprising the following steps:

s1, acquiring a data structure of distributed multi-element data to be transmitted;

s2, establishing a basic transmission path according to the data structure of the distributed multi-element data to be transmitted;

s3, carrying out distributed multi-element data rapid transmission according to the basic transmission path.

S1 specifically comprises:

s1-1, utilizing a data storage structure of the distributed multi-element data to be transmitted as a rapid transmission characteristic;

s1-2, utilizing a data physical structure of the distributed multi-element data to be transmitted as a process verification feature;

s1-3, utilizing a data logic structure of the distributed multi-element data to be transmitted as an ending verification feature;

s1-4, using the rapid transmission characteristic, the process verification characteristic and the end verification characteristic as a data structure of the distributed multi-metadata to be transmitted;

the data storage structure is a storage form of distributed multi-element data to be transmitted, the data physical structure is an image of the distributed multi-element data to be transmitted, and the data logical structure comprises a linear structure and a nonlinear structure.

In this embodiment, a data storage structure may be represented as multiple storage structures according to needs, where the storage structures are commonly used and include sequential storage, chained storage, index storage and hash storage.

S2 specifically comprises:

s2-1, establishing a basic transmission path to be verified according to the rapid transmission characteristics in the data structure of the distributed multi-element data to be transmitted;

s2-2, performing medium-term verification according to the process verification characteristics by utilizing the basic transmission path to be verified to obtain a medium-term verification result of the basic transmission path;

s2-3, establishing a basic transmission path according to the medium-term verification result of the basic transmission path.

S2-1 specifically comprises:

s2-1-1, judging whether the distributed multi-element data to be transmitted is in a split state, if so, respectively acquiring ports corresponding to the distributed multi-element split data to be transmitted to obtain an initial transmitting end set, and then executing S2-1-2, otherwise, acquiring ports corresponding to the distributed multi-element split data to be transmitted to serve as initial transmitting ends, and then executing S2-1-4;

s2-1-2, judging whether a transfer node exists between the initial sending end set and the receiving end, if so, using a transmission path from the initial sending end set to the transfer node as a first sub-transmission path, and executing S2-1-3 after the transmission path from the transfer node to the receiving end is used as a second sub-transmission path, otherwise, using the transmission paths from each port in the initial sending end set to the receiving end to establish a parallel sub-transmission path set as a basic transmission path;

s2-1-3, using the first sub-transmission path and the second sub-transmission path as basic transmission paths;

s2-1-4, using the transmission path from the initial sending end to the receiving end as a basic transmission path to be verified;

the split state is a multi-split data state, and the port corresponding to the distributed multi-split data to be transmitted is a port of the storage position of the distributed multi-split data to be transmitted.

S2-2 specifically comprises:

s2-2-1, establishing a distributed multi-element internal mapping to be transmitted by utilizing the distributed multi-element data to be transmitted;

s2-2-2, establishing a distributed multi-element external mapping to be transmitted by utilizing the distributed multi-element internal mapping to be transmitted and a process verification characteristic;

s2-2-3, performing medium-term verification by using the distributed multi-element external mapping to be transmitted to obtain a medium-term verification result of the basic transmission path.

S2-2-1 specifically comprises:

s2-2-1-1, judging whether the distributed multi-element data to be transmitted is in a segmentation state, if so, establishing chain mapping by using each segmentation data corresponding to the distributed multi-element data to be transmitted as internal mapping of the distributed multi-element data to be transmitted, otherwise, segmenting by using a port corresponding to the distributed multi-element data to be transmitted to obtain the distributed multi-element segmentation data to be transmitted;

s2-2-1-2, establishing tree mapping by using the distributed multi-element segmentation data to be transmitted as distributed multi-element internal mapping to be transmitted.

In this embodiment, in the data structure-based distributed multi-element data rapid transmission method, the chain mapping and the tree mapping are only descriptions of mapping gestures and are not actually defined as mapping.

S2-2-2 specifically includes:

s2-2-2-1, when the distributed multi-element internal mapping to be transmitted is chained mapping, establishing distributed multi-element external mapping to be transmitted by utilizing the whole of the distributed multi-element internal mapping to be transmitted and a process verification characteristic;

s2-2-2-2, when the distributed multi-element internal mapping to be transmitted is tree-shaped mapping, utilizing each branch node in the distributed multi-element internal mapping to be transmitted to respectively establish distributed multi-element external mapping to be transmitted with a process verification feature.

S2-2-3 specifically comprises:

s2-2-3-1, acquiring distributed multi-element data in a basic transmission path to be verified as a first medium-term verification feature according to the distributed multi-element internal mapping to be transmitted corresponding to the distributed multi-element external mapping to be transmitted;

s2-2-3-2, acquiring distributed multi-element data to be transmitted as a second medium-term verification feature by utilizing the process verification feature corresponding to the distributed multi-element external mapping to be transmitted;

s2-2-3-3, judging whether the first medium term verification feature and the second medium term verification feature both correspond to the same distributed multi-element data, if so, enabling a medium term verification result of the basic transmission path to pass, and otherwise, enabling the medium term verification result of the basic transmission path to not pass.

S2-3 specifically comprises:

s2-3-1, judging whether the medium-term verification result of the basic transmission path passes or not, if so, using a transmission path corresponding to the medium-term verification result of the basic transmission path as the basic transmission path, otherwise, executing S2-3-2;

s2-3-2, judging whether the distributed multi-element data to be transmitted is consistent with the distributed multi-element data to be transmitted of a second medium-term verification feature corresponding to the medium-term verification result of the basic transmission path, if so, returning to S2-2-1-1, otherwise, executing S2-3-3;

s2-3-3, judging whether the execution times of the S2-3-2 are greater than 1, if yes, discarding the processing, otherwise, returning to the S1.

S3 specifically comprises:

s3-1, using the corresponding ending verification feature of the distributed multi-element data to be transmitted as a transmission verification tag;

s3-2, judging whether the distributed multi-element data to be transmitted is in a split state, if so, sequentially transmitting the split data corresponding to the distributed multi-element data to be transmitted to a receiving end according to a basic transmission path, otherwise, directly transmitting the distributed multi-element data to be transmitted to the receiving end according to the basic transmission path;

s3-3, when the complete distributed multi-element data to be transmitted or all the split data corresponding to the distributed multi-element data to be transmitted exist in the receiving end, the distributed multi-element data to be transmitted or all the split data corresponding to the distributed multi-element data to be transmitted are used as the distributed multi-element data to be verified;

s3-4, judging whether the distributed multi-element data to be verified in the receiving end is in a segmentation state, if so, combining the multi-element data by utilizing the segmented data corresponding to the distributed multi-element data to be verified to obtain first data to be verified, otherwise, directly utilizing the distributed multi-element data to be verified as the first data to be verified;

s3-5, judging whether the first data to be verified completely corresponds to the transmission verification tag, if so, completing the rapid transmission of the distributed multi-element data, otherwise, executing S3-6;

s3-6, judging whether the first data to be verified is a subset of the distributed multi-metadata to be transmitted corresponding to the transmission verification tag, if so, returning to S3-2, otherwise, discarding the processing.

In this embodiment, a method for quickly transmitting distributed multi-element data based on a data structure, where the split data are all data after the split of the distributed multi-element data to be transmitted, and there is a correlation between the split data.

It will be appreciated by those skilled in the art that embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

Finally, it should be noted that: the above embodiments are only for illustrating the technical aspects of the present application and not for limiting the same, and although the present application has been described in detail with reference to the above embodiments, it should be understood by those of ordinary skill in the art that: modifications and equivalents may be made to the specific embodiments of the application without departing from the spirit and scope of the application, which is intended to be covered by the claims.

Claims (10)

1. The distributed multi-element data rapid transmission method based on the data structure is characterized by comprising the following steps of:

s1, acquiring a data structure of distributed multi-element data to be transmitted;

s2, establishing a basic transmission path according to the data structure of the distributed multi-element data to be transmitted;

s3, carrying out distributed multi-element data rapid transmission according to the basic transmission path.

2. The method for rapidly transmitting distributed multi-element data based on a data structure according to claim 1, wherein the step of obtaining the data structure of the distributed multi-element data to be transmitted comprises the steps of:

utilizing the data storage structure of the distributed multi-data to be transmitted as a rapid transmission characteristic;

utilizing the data physical structure of the distributed multi-data to be transmitted as a process verification feature;

using the data logic structure of the distributed multi-data to be transmitted as an ending verification feature;

using the quick transmission feature, the process verification feature and the end verification feature as a data structure of the distributed multi-metadata to be transmitted;

the data storage structure is a storage form of distributed multi-element data to be transmitted, the data physical structure is an image of the distributed multi-element data to be transmitted, and the data logical structure comprises a linear structure and a nonlinear structure.

3. The method for rapid transmission of distributed metadata based on a data structure according to claim 2, wherein establishing a basic transmission path according to the data structure of the distributed metadata to be transmitted comprises:

s2-1, establishing a basic transmission path to be verified according to the rapid transmission characteristics in the data structure of the distributed multi-element data to be transmitted;

s2-2, performing medium-term verification according to the process verification characteristics by utilizing the basic transmission path to be verified to obtain a medium-term verification result of the basic transmission path;

s2-3, establishing a basic transmission path according to the medium-term verification result of the basic transmission path.

4. A method for rapid transmission of distributed metadata based on a data structure as claimed in claim 3, wherein establishing a basic transmission path to be verified according to rapid transmission characteristics in the data structure of the distributed metadata to be transmitted comprises:

s2-1-1, judging whether the distributed multi-element data to be transmitted is in a split state, if so, respectively acquiring ports corresponding to the distributed multi-element split data to be transmitted to obtain an initial transmitting end set, and then executing S2-1-2, otherwise, acquiring ports corresponding to the distributed multi-element split data to be transmitted to serve as initial transmitting ends, and then executing S2-1-4;

s2-1-2, judging whether a transfer node exists between the initial sending end set and the receiving end, if so, using a transmission path from the initial sending end set to the transfer node as a first sub-transmission path, and executing S2-1-3 after the transmission path from the transfer node to the receiving end is used as a second sub-transmission path, otherwise, using the transmission paths from each port in the initial sending end set to the receiving end to establish a parallel sub-transmission path set as a basic transmission path;

s2-1-3, using the first sub-transmission path and the second sub-transmission path as basic transmission paths;

s2-1-4, using the transmission path from the initial sending end to the receiving end as a basic transmission path to be verified;

the split state is a multi-split data state, and the port corresponding to the distributed multi-split data to be transmitted is a port of the storage position of the distributed multi-split data to be transmitted.

5. The method for rapid transmission of distributed multi-element data based on a data structure according to claim 3, wherein performing the medium-term verification according to the process verification feature by using the basic transmission path to be verified to obtain the medium-term verification result of the basic transmission path comprises:

s2-2-1, establishing a distributed multi-element internal mapping to be transmitted by utilizing the distributed multi-element data to be transmitted;

s2-2-2, establishing a distributed multi-element external mapping to be transmitted by utilizing the distributed multi-element internal mapping to be transmitted and a process verification characteristic;

s2-2-3, performing medium-term verification by using the distributed multi-element external mapping to be transmitted to obtain a medium-term verification result of the basic transmission path.

6. The method for rapidly transmitting distributed multi-element data based on a data structure according to claim 5, wherein the step of establishing a distributed multi-element internal map to be transmitted by using the distributed multi-element data to be transmitted comprises the steps of:

s2-2-1-1, judging whether the distributed multi-element data to be transmitted is in a segmentation state, if so, establishing chain mapping by using each segmentation data corresponding to the distributed multi-element data to be transmitted as internal mapping of the distributed multi-element data to be transmitted, otherwise, segmenting by using a port corresponding to the distributed multi-element data to be transmitted to obtain the distributed multi-element segmentation data to be transmitted;

s2-2-1-2, establishing tree mapping by using the distributed multi-element segmentation data to be transmitted as distributed multi-element internal mapping to be transmitted.

7. The method for rapidly transmitting distributed multi-element data based on a data structure according to claim 6, wherein the step of establishing the distributed multi-element external map to be transmitted by using the distributed multi-element internal map to be transmitted and the process verification feature comprises the steps of:

when the distributed multi-element internal mapping to be transmitted is chained mapping, establishing distributed multi-element external mapping to be transmitted by utilizing the whole of the distributed multi-element internal mapping to be transmitted and the process verification characteristic;

when the distributed multi-element internal mapping to be transmitted is tree-shaped mapping, each branch node in the distributed multi-element internal mapping to be transmitted is utilized to respectively establish distributed multi-element external mapping to be transmitted with the process verification feature.

8. The method for rapidly transmitting distributed multi-element data based on a data structure according to claim 5, wherein the step of performing the mid-term verification by using the distributed multi-element external map to be transmitted to obtain the mid-term verification result of the basic transmission path comprises the steps of:

acquiring distributed multi-element data in a basic transmission path to be verified as a first medium-term verification feature according to the distributed multi-element external mapping to be transmitted and the distributed multi-element internal mapping to be transmitted;

acquiring distributed multi-element data to be transmitted as a second medium-term verification feature by utilizing the process verification feature corresponding to the distributed multi-element external mapping to be transmitted;

and judging whether the first medium-term verification feature and the second medium-term verification feature both correspond to the same distributed multi-element data, if so, enabling the medium-term verification result of the basic transmission path to pass, and otherwise, enabling the medium-term verification result of the basic transmission path to not pass.

9. A method for rapid transmission of distributed multivariate data based on a data structure of claim 3, wherein establishing a base transmission path based on the result of the medium-term verification of the base transmission path comprises:

s2-3-1, judging whether the medium-term verification result of the basic transmission path passes or not, if so, using a transmission path corresponding to the medium-term verification result of the basic transmission path as the basic transmission path, otherwise, executing S2-3-2;

s2-3-2, judging whether the distributed multi-element data to be transmitted is consistent with the distributed multi-element data to be transmitted of a second medium-term verification feature corresponding to the medium-term verification result of the basic transmission path, if so, returning to S2-2-1-1, otherwise, executing S2-3-3;

s2-3-3, judging whether the execution times of the S2-3-2 are greater than 1, if yes, discarding the processing, otherwise, returning to the S1.

10. The method for rapidly transmitting distributed multi-element data based on a data structure according to claim 1, wherein the rapid transmission of the distributed multi-element data according to the basic transmission path comprises:

s3-1, using the corresponding ending verification feature of the distributed multi-element data to be transmitted as a transmission verification tag;

s3-2, judging whether the distributed multi-element data to be transmitted is in a split state, if so, sequentially transmitting the split data corresponding to the distributed multi-element data to be transmitted to a receiving end according to a basic transmission path, otherwise, directly transmitting the distributed multi-element data to be transmitted to the receiving end according to the basic transmission path;

s3-3, when the complete distributed multi-element data to be transmitted or all the split data corresponding to the distributed multi-element data to be transmitted exist in the receiving end, the distributed multi-element data to be transmitted or all the split data corresponding to the distributed multi-element data to be transmitted are used as the distributed multi-element data to be verified;

s3-4, judging whether the distributed multi-element data to be verified in the receiving end is in a segmentation state, if so, combining the multi-element data by utilizing the segmented data corresponding to the distributed multi-element data to be verified to obtain first data to be verified, otherwise, directly utilizing the distributed multi-element data to be verified as the first data to be verified;

s3-5, judging whether the first data to be verified completely corresponds to the transmission verification tag, if so, completing the rapid transmission of the distributed multi-element data, otherwise, executing S3-6;

s3-6, judging whether the first data to be verified is a subset of the distributed multi-metadata to be transmitted corresponding to the transmission verification tag, if so, returning to S3-2, otherwise, discarding the processing.