CN116455523B - Rapid transmission verification method for multivariate data - Google Patents

Abstract

The application relates to the field of rapid data transmission, in particular to a rapid multi-data transmission verification method, which comprises the following steps: s1, acquiring a real-time data state of multi-element data to be transmitted; s2, establishing a dynamic rule of multi-metadata transmission according to the real-time data state of the multi-metadata to be transmitted and the multi-metadata to be transmitted; s3, utilizing the to-be-transmitted multi-element data to complete quick transmission according to the multi-element data transmission dynamic rule, establishing a preprocessing rule by combining the multi-element data with a real-time state before transmission, simultaneously verifying according to the preprocessing rule after transmission, not limiting a transmission process, establishing rules to distinguish multi-element data segmentation forms, establishing independent rules aiming at multi-element data of different forms to avoid mutual interference, and greatly improving the application range and applicability compared with the traditional method and accelerating transmission and verification efficiency.

Description

Rapid transmission verification method for multivariate data

Technical Field

The application relates to the field of rapid data transmission, in particular to a rapid multi-data transmission verification method.

Background

When the transmission of the multi-element data is involved, due to the uncertainty of the time division state during the transmission, the targeted processing can not be carried out before and after the transmission implementation, the conventional operation only carries out the integral verification on the multi-element complete data, the transmission verification mode is single, the verification process is simple, and the error of the transmission result is possibly caused when the error occurs in any process step.

Disclosure of Invention

Aiming at the defects of the prior art, the application provides a method for rapidly transmitting and verifying multi-element data, which is combined with multi-element data to perform pretreatment before transmission and overlay verification after transmission so as to accelerate transmission and verification efficiency.

In order to achieve the above object, the present application provides a method for fast transmitting and verifying multiple data, comprising:

s1, acquiring a real-time data state of multi-element data to be transmitted;

s2, establishing a dynamic rule of multi-metadata transmission according to the real-time data state of the multi-metadata to be transmitted and the multi-metadata to be transmitted;

s3, completing quick transmission according to the multi-element data transmission dynamic rule by utilizing the multi-element data to be transmitted.

Preferably, the acquiring the real-time data state of the multi-element data to be transmitted includes:

s1-1, judging whether the multi-element data to be transmitted corresponding to the transmission time is complete, if yes, enabling the real-time state of the multi-element data to be transmitted to be complete, otherwise, enabling the real-time state of the multi-element data to be transmitted to be incomplete;

wherein, the multi-element data to be transmitted is complete and is not subjected to segmentation processing.

Further, establishing a dynamic rule for transmitting the multi-element data according to the real-time data state of the multi-element data to be transmitted and the multi-element data to be transmitted comprises:

s2-1, when the real-time state of the multi-element data to be transmitted is complete, establishing a multi-element data direct mapping pre-transmission dynamic rule by utilizing the multi-element data to be transmitted;

s2-2, when the real-time state of the multi-element data to be transmitted is incomplete, establishing a multi-element data indirect mapping pre-transmission dynamic rule by utilizing the multi-element data to be transmitted corresponding to multi-element segmentation data to be transmitted;

s2-3, the multi-element data direct mapping pre-transmission dynamic rule or the multi-element data indirect mapping pre-transmission dynamic rule is used as the multi-element data transmission dynamic rule.

Further, establishing the metadata direct mapping pre-transmission dynamic rule by using the metadata to be transmitted comprises:

s2-1-1, acquiring a sending end attribute and a receiving end attribute corresponding to the multi-element data to be transmitted;

s2-1-2, establishing a current multi-element data fixed mapping to be transmitted by utilizing the attribute of the transmitting end and the attribute of the receiving end corresponding to the multi-element data to be transmitted;

s2-1-3, obtaining a first state to be transmitted by utilizing the fixed mapping of the current multi-element data to be transmitted;

s2-1-4, obtaining a multi-element data direct mapping pre-transmission dynamic rule according to the first state to be transmitted;

the transmitting end attribute comprises a port address and a transmitting time of the transmitting end, and the receiving end attribute comprises a port address and a receiving time of the receiving end.

Further, the obtaining the first state to be transmitted by using the current multi-element data fixed mapping to be transmitted includes:

s2-1-3-1, judging whether the port address of the transmitting end and the port address of the receiving end in the current multi-data fixed mapping to be transmitted correspond or not, if yes, executing S2-1-3-2, otherwise, returning to S2-1-1;

s2-1-3-2, judging whether the sending time of the sending end and the receiving time of the receiving end in the current multi-data to be transmitted fixed mapping correspond or not, if yes, executing S2-1-3-3, otherwise, giving up processing;

s2-1-3-3, judging whether the current multi-element data fixed mapping to be transmitted is the same as the adjacent multi-element data fixed mapping to be transmitted or not, if yes, outputting the first state to be transmitted as normal, otherwise, outputting the first state to be transmitted as abnormal.

Further, obtaining the multi-element data direct mapping pre-transmission dynamic rule according to the first state to be transmitted includes:

when the first state to be transmitted is normal, reserving a pre-transmission dynamic rule of direct mapping of current multi-element data;

and when the first state to be transmitted is abnormal, judging whether the current multi-element data to be transmitted is the same as the adjacent multi-element data to be transmitted or not, if so, reserving the direct mapping pre-transmission dynamic rule of the current multi-element data, otherwise, returning to S2-1-1.

Further, establishing the multivariate data indirect mapping pre-transmission dynamic rule by using the multivariate data to be transmitted to the multivariate partition data to be transmitted comprises:

s2-2-1, establishing multi-element data segmentation mapping to be transmitted by utilizing the same multi-element data to be transmitted and each multi-element segmentation data to be transmitted;

s2-2-2, obtaining a multi-element data segmentation mapping convergence value to be transmitted based on Matlab by utilizing the multi-element data segmentation mapping to be transmitted;

s2-2-3, establishing a first complex mapping by utilizing the multi-element data segmentation mapping convergence value to be transmitted and the corresponding moment thereof;

s2-2-4, obtaining a multi-element data indirect mapping pre-transmission dynamic rule by utilizing the multi-element data segmentation mapping to be transmitted and the first complex mapping;

the multi-element data segmentation mapping to be transmitted corresponding to the same multi-element data to be transmitted is fixed mapping at any time.

Further, the obtaining the multi-element data indirect mapping pre-transmission dynamic rule by utilizing the multi-element data segmentation mapping to be transmitted and the first complex mapping comprises the following steps:

s2-2-4-1, judging whether the segmentation mapping of the multi-element data to be transmitted at the current moment corresponds to the multi-element data to be transmitted, if so, executing S2-2-4-2, otherwise, giving up processing;

s2-2-4-2, judging whether the multi-element data segmentation map to be transmitted at the current moment corresponds to multi-element segmentation data to be transmitted or not, if so, using the moment corresponding to the first complex map as a standard moment t, otherwise, giving up processing;

s2-2-4-3, respectively acquiring a first historical time t-3, a second historical time t-2 and a third historical time t-1 corresponding to a first complex mapping to-be-transmitted multi-element data segmentation mapping convergence value according to a standard time t;

s2-2-4-4, judging whether the variation trend of the multi-element data segmentation mapping convergence value to be transmitted corresponding to the first historical moment t-3, the second historical moment t-2 and the third historical moment t-1 and the standard moment t is consistent, if so, executing S2-2-4-5, otherwise, returning to S1-1;

s2-2-4-5, judging whether the multi-element data to be transmitted is integrally transmitted, if so, using the multi-element data segmentation map to be transmitted as a first verification tag, otherwise, using the multi-element data segmentation map to be transmitted as a first verification tag, and using the first complex map as a first supplementary verification tag;

the trend is consistent with the adjacent difference change trend of the segmentation mapping convergence value of the to-be-transmitted multi-element data corresponding to the first historical time t-3, the second historical time t-2 and the third historical time t-1 and the standard time t, and the overall transmission is to completely transmit the to-be-transmitted multi-element data.

Further, completing the fast transmission according to the dynamic rule of the multi-element data transmission by using the multi-element data to be transmitted includes:

s3-1, when the real-time data state of the multi-element data to be transmitted is complete, using the current moment as a first processing moment;

s3-1-1, judging whether the receiving end has the received multi-element data which are completely the same as the multi-element data to be transmitted currently in the transmitting end at the first processing moment, if so, completing the current quick transmission by utilizing the received multi-element data in the receiving end, otherwise, transmitting the multi-element data to be processed to the receiving end by utilizing the transmitting end to obtain the current received multi-element data to complete the quick transmission;

s3-2, when the real-time data state of the multi-element data to be transmitted is incomplete, sequentially transmitting the multi-element data to be transmitted to a receiving end by using a transmitting end to obtain the multi-element data to be verified;

s3-2-1, obtaining the received multi-element data in the receiving end by utilizing the received multi-element data to be verified to finish quick transmission.

Further, the obtaining the received multi-element data in the receiving end by using the received multi-element data to be verified to complete the quick transmission includes:

s3-2-1-1, judging whether the received multi-element data to be verified is identical to the multi-element data to be transmitted or not when the received multi-element data to be verified exists in the receiving end, if yes, executing S3-2-1-2, otherwise, S3-2-1-3;

s3-2-1-2, judging whether the to-be-verified received multi-element data in the receiving end and the to-be-transmitted multi-element data segmentation mapping corresponding to the to-be-transmitted multi-element data are completely corresponding, if yes, using the to-be-verified received multi-element data as the received multi-element data to complete quick transmission, otherwise, giving up processing;

s3-2-1-3, judging whether the received multi-element data to be verified is a subset of multi-element data to be transmitted, if yes, returning to S3-2, otherwise, discarding the processing.

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

the preprocessing rule is established by combining the multi-element data and the real-time state before transmission, and meanwhile, the preprocessing rule is verified after transmission, so that the transmission process is not limited, the establishment of the rule distinguishes multi-element data segmentation forms, independent rules are established for the multi-element data in different forms to avoid mutual interference, and compared with the traditional method, the application range and applicability of the method are greatly improved, and the transmission and verification efficiency is accelerated.

Drawings

Fig. 1 is a flowchart of a method for verifying fast transmission of multivariate data provided by the application.

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 method for verifying quick transmission of multi-element data, which is shown in figure 1 and comprises the following steps:

s1, acquiring a real-time data state of multi-element data to be transmitted;

s2, establishing a dynamic rule of multi-metadata transmission according to the real-time data state of the multi-metadata to be transmitted and the multi-metadata to be transmitted;

s3, completing quick transmission according to the multi-element data transmission dynamic rule by utilizing the multi-element data to be transmitted.

S1 specifically comprises:

s1-1, judging whether the multi-element data to be transmitted corresponding to the transmission time is complete, if yes, enabling the real-time state of the multi-element data to be transmitted to be complete, otherwise, enabling the real-time state of the multi-element data to be transmitted to be incomplete;

wherein, the multi-element data to be transmitted is complete and is not subjected to segmentation processing.

S2 specifically comprises:

s2-1, when the real-time state of the multi-element data to be transmitted is complete, establishing a multi-element data direct mapping pre-transmission dynamic rule by utilizing the multi-element data to be transmitted;

s2-2, when the real-time state of the multi-element data to be transmitted is incomplete, establishing a multi-element data indirect mapping pre-transmission dynamic rule by utilizing the multi-element data to be transmitted corresponding to multi-element segmentation data to be transmitted;

s2-3, the multi-element data direct mapping pre-transmission dynamic rule or the multi-element data indirect mapping pre-transmission dynamic rule is used as the multi-element data transmission dynamic rule.

In this embodiment, a method for fast transmitting and verifying multi-element data is different from direct mapping and indirect mapping in that whether the final mapping establishment and multi-element data are directly related or not.

S2-1 specifically comprises:

s2-1-1, acquiring a sending end attribute and a receiving end attribute corresponding to the multi-element data to be transmitted;

s2-1-2, establishing a current multi-element data fixed mapping to be transmitted by utilizing the attribute of the transmitting end and the attribute of the receiving end corresponding to the multi-element data to be transmitted;

s2-1-3, obtaining a first state to be transmitted by utilizing the fixed mapping of the current multi-element data to be transmitted;

s2-1-4, obtaining a multi-element data direct mapping pre-transmission dynamic rule according to the first state to be transmitted;

the transmitting end attribute comprises a port address and a transmitting time of the transmitting end, and the receiving end attribute comprises a port address and a receiving time of the receiving end.

In this embodiment, in the method for fast transmitting and verifying multi-element data, the sending time in the attribute may be adjusted to be the planned transmission time according to the situation.

S2-1-3 specifically comprises:

s2-1-3-1, judging whether the port address of the transmitting end and the port address of the receiving end in the current multi-data fixed mapping to be transmitted correspond or not, if yes, executing S2-1-3-2, otherwise, returning to S2-1-1;

s2-1-3-2, judging whether the sending time of the sending end and the receiving time of the receiving end in the current multi-data to be transmitted fixed mapping correspond or not, if yes, executing S2-1-3-3, otherwise, giving up processing;

s2-1-3-3, judging whether the current multi-element data fixed mapping to be transmitted is the same as the adjacent multi-element data fixed mapping to be transmitted or not, if yes, outputting the first state to be transmitted as normal, otherwise, outputting the first state to be transmitted as abnormal.

In this embodiment, in the method for fast transmitting and verifying multi-element data, the port address corresponds to the sending port and the receiving port in the conventional transmission, and the sending port and the receiving port correspond to each other and are consistent, so that the transmission basic requirement can be met.

S2-1-4 specifically comprises:

s2-1-4-1, when the first state to be transmitted is normal, reserving a pre-transmission dynamic rule of direct mapping of current multi-element data;

s2-1-4-2, judging whether the current multi-element data to be transmitted is the same as the adjacent multi-element data to be transmitted or not when the first state to be transmitted is abnormal, if so, reserving the direct mapping pre-transmission dynamic rule of the current multi-element data, otherwise, returning to S2-1-1.

S2-2 specifically comprises:

s2-2-1, establishing multi-element data segmentation mapping to be transmitted by utilizing the same multi-element data to be transmitted and each multi-element segmentation data to be transmitted;

s2-2-2, obtaining a multi-element data segmentation mapping convergence value to be transmitted based on Matlab by utilizing the multi-element data segmentation mapping to be transmitted;

s2-2-3, establishing a first complex mapping by utilizing the multi-element data segmentation mapping convergence value to be transmitted and the corresponding moment thereof;

s2-2-4, obtaining a multi-element data indirect mapping pre-transmission dynamic rule by utilizing the multi-element data segmentation mapping to be transmitted and the first complex mapping;

the multi-element data segmentation mapping to be transmitted corresponding to the same multi-element data to be transmitted is fixed mapping at any time.

In this embodiment, a method for fast transmitting and verifying multivariate data implements CCM convergence cross mapping based on Matlab to obtain a mapping convergence value.

S2-2-4 specifically comprises:

s2-2-4-1, judging whether the segmentation mapping of the multi-element data to be transmitted at the current moment corresponds to the multi-element data to be transmitted, if so, executing S2-2-4-2, otherwise, giving up processing;

s2-2-4-2, judging whether the multi-element data segmentation map to be transmitted at the current moment corresponds to multi-element segmentation data to be transmitted or not, if so, using the moment corresponding to the first complex map as a standard moment t, otherwise, giving up processing;

s2-2-4-3, respectively acquiring a first historical time t-3, a second historical time t-2 and a third historical time t-1 corresponding to a first complex mapping to-be-transmitted multi-element data segmentation mapping convergence value according to a standard time t;

s2-2-4-4, judging whether the variation trend of the multi-element data segmentation mapping convergence value to be transmitted corresponding to the first historical moment t-3, the second historical moment t-2 and the third historical moment t-1 and the standard moment t is consistent, if so, executing S2-2-4-5, otherwise, returning to S1-1;

s2-2-4-5, judging whether the multi-element data to be transmitted is integrally transmitted, if so, using the multi-element data segmentation map to be transmitted as a first verification tag, otherwise, using the multi-element data segmentation map to be transmitted as a first verification tag, and using the first complex map as a first supplementary verification tag;

the trend is consistent with the adjacent difference change trend of the segmentation mapping convergence value of the to-be-transmitted multi-element data corresponding to the first historical time t-3, the second historical time t-2 and the third historical time t-1 and the standard time t, and the overall transmission is to completely transmit the to-be-transmitted multi-element data.

In the method for fast transmitting and verifying the multi-element data in the embodiment, in the S2-2-4-1 and the S2-2-4-2, when the multi-element data is divided and the indirect mapping is built, the corresponding actual situation cannot be accurately judged, so that the processing is directly abandoned to avoid the operation confusion.

In this embodiment, in the method for fast transmitting and verifying multivariate data, the variation trend of adjacent difference values is consistent, for example, the mapping convergence value corresponding to the first history time t-3, the second history time t-2, the third history time t-1 and the standard time t is A, B, C, D, the trend is A-B, B-C, C-D, and the trend is A-B, B-C, C-D, which are both increased or decreased.

S3 specifically comprises:

s3-1, when the real-time data state of the multi-element data to be transmitted is complete, using the current moment as a first processing moment;

s3-1-1, judging whether the receiving end has the received multi-element data which are completely the same as the multi-element data to be transmitted currently in the transmitting end at the first processing moment, if so, completing the current quick transmission by utilizing the received multi-element data in the receiving end, otherwise, transmitting the multi-element data to be processed to the receiving end by utilizing the transmitting end to obtain the current received multi-element data to complete the quick transmission;

s3-2, when the real-time data state of the multi-element data to be transmitted is incomplete, sequentially transmitting the multi-element data to be transmitted to a receiving end by using a transmitting end to obtain the multi-element data to be verified;

s3-2-1, obtaining the received multi-element data in the receiving end by utilizing the received multi-element data to be verified to finish quick transmission.

S3-2-1 specifically comprises:

s3-2-1-1, judging whether the received multi-element data to be verified is identical to the multi-element data to be transmitted or not when the received multi-element data to be verified exists in the receiving end, if yes, executing S3-2-1-2, otherwise, S3-2-1-3;

s3-2-1-2, judging whether the to-be-verified received multi-element data in the receiving end and the to-be-transmitted multi-element data segmentation mapping corresponding to the to-be-transmitted multi-element data are completely corresponding, if yes, using the to-be-verified received multi-element data as the received multi-element data to complete quick transmission, otherwise, giving up processing;

s3-2-1-3, judging whether the received multi-element data to be verified is a subset of multi-element data to be transmitted, if yes, returning to S3-2, otherwise, discarding the processing.

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 (7)

1. The method for verifying the rapid transmission of the multi-element data is characterized by comprising the following steps of:

s1, acquiring a real-time data state of multi-element data to be transmitted;

s1-1, judging whether the multi-element data to be transmitted corresponding to the transmission time is complete, if yes, enabling the real-time state of the multi-element data to be transmitted to be complete, otherwise, enabling the real-time state of the multi-element data to be transmitted to be incomplete;

wherein, the multi-element data to be transmitted is complete and is not subjected to segmentation treatment;

s2, establishing a dynamic rule of multi-metadata transmission according to the real-time data state of the multi-metadata to be transmitted and the multi-metadata to be transmitted;

s2-1, when the real-time state of the multi-element data to be transmitted is complete, establishing a multi-element data direct mapping pre-transmission dynamic rule by utilizing the multi-element data to be transmitted;

s2-1-1, acquiring a sending end attribute and a receiving end attribute corresponding to the multi-element data to be transmitted;

s2-1-2, establishing a current multi-element data fixed mapping to be transmitted by utilizing the attribute of the transmitting end and the attribute of the receiving end corresponding to the multi-element data to be transmitted;

s2-1-3, obtaining a first state to be transmitted by utilizing the fixed mapping of the current multi-element data to be transmitted;

s2-1-4, obtaining a multi-element data direct mapping pre-transmission dynamic rule according to the first state to be transmitted;

the transmitting end attribute comprises a port address and a transmitting time of the transmitting end, and the receiving end attribute comprises a port address and a receiving time of the receiving end;

s2-2, when the real-time state of the multi-element data to be transmitted is incomplete, establishing a multi-element data indirect mapping pre-transmission dynamic rule by utilizing the multi-element data to be transmitted corresponding to multi-element segmentation data to be transmitted;

s2-3, utilizing the multi-element data direct mapping pre-transmission dynamic rule or the multi-element data indirect mapping pre-transmission dynamic rule as the multi-element data transmission dynamic rule;

s3, completing quick transmission according to the multi-element data transmission dynamic rule by utilizing the multi-element data to be transmitted.

2. The method of claim 1, wherein obtaining the first state to be transmitted using the current fixed mapping of the plurality of data to be transmitted comprises:

s2-1-3-1, judging whether the port address of the transmitting end and the port address of the receiving end in the current multi-data fixed mapping to be transmitted correspond or not, if yes, executing S2-1-3-2, otherwise, returning to S2-1-1;

s2-1-3-2, judging whether the sending time of the sending end and the receiving time of the receiving end in the current multi-data to be transmitted fixed mapping correspond or not, if yes, executing S2-1-3-3, otherwise, giving up processing;

s2-1-3-3, judging whether the current multi-element data fixed mapping to be transmitted is the same as the adjacent multi-element data fixed mapping to be transmitted or not, if yes, outputting the first state to be transmitted as normal, otherwise, outputting the first state to be transmitted as abnormal.

3. The method for fast transmission verification of multiple data according to claim 2, wherein obtaining the multiple data direct mapping pre-transmission dynamic rule according to the first state to be transmitted comprises:

when the first state to be transmitted is normal, reserving a pre-transmission dynamic rule of direct mapping of current multi-element data;

and when the first state to be transmitted is abnormal, judging whether the current multi-element data to be transmitted is the same as the adjacent multi-element data to be transmitted or not, if so, reserving the direct mapping pre-transmission dynamic rule of the current multi-element data, otherwise, returning to S2-1-1.

4. The method for fast transmission verification of multivariate data according to claim 1, wherein the establishing a multivariate data indirect mapping pre-transmission dynamic rule by using the multivariate data to be transmitted to the multivariate partition data to be transmitted comprises:

s2-2-1, establishing multi-element data segmentation mapping to be transmitted by utilizing the same multi-element data to be transmitted and each multi-element segmentation data to be transmitted;

s2-2-2, obtaining a multi-element data segmentation mapping convergence value to be transmitted based on Matlab by utilizing the multi-element data segmentation mapping to be transmitted;

s2-2-3, establishing a first complex mapping by utilizing the multi-element data segmentation mapping convergence value to be transmitted and the corresponding moment thereof;

s2-2-4, obtaining a multi-element data indirect mapping pre-transmission dynamic rule by utilizing the multi-element data segmentation mapping to be transmitted and the first complex mapping;

the multi-element data segmentation mapping to be transmitted corresponding to the same multi-element data to be transmitted is fixed mapping at any time.

5. The method for fast transmission verification of multi-element data according to claim 4, wherein obtaining the multi-element data indirect mapping pre-transmission dynamic rule by using the multi-element data segmentation mapping to be transmitted and the first complex mapping comprises:

s2-2-4-1, judging whether the segmentation mapping of the multi-element data to be transmitted at the current moment corresponds to the multi-element data to be transmitted, if so, executing S2-2-4-2, otherwise, giving up processing;

s2-2-4-2, judging whether the multi-element data segmentation map to be transmitted at the current moment corresponds to multi-element segmentation data to be transmitted or not, if so, using the moment corresponding to the first complex map as a standard moment t, otherwise, giving up processing;

s2-2-4-3, respectively acquiring a first historical time t-3, a second historical time t-2 and a third historical time t-1 corresponding to a first complex mapping to-be-transmitted multi-element data segmentation mapping convergence value according to a standard time t;

s2-2-4-4, judging whether the variation trend of the multi-element data segmentation mapping convergence value to be transmitted corresponding to the first historical moment t-3, the second historical moment t-2 and the third historical moment t-1 and the standard moment t is consistent, if so, executing S2-2-4-5, otherwise, returning to S1-1;

s2-2-4-5, judging whether the multi-element data to be transmitted is integrally transmitted, if so, using the multi-element data segmentation map to be transmitted as a first verification tag, otherwise, using the multi-element data segmentation map to be transmitted as a first verification tag, and using the first complex map as a first supplementary verification tag;

the trend is consistent with the adjacent difference change trend of the segmentation mapping convergence value of the to-be-transmitted multi-element data corresponding to the first historical time t-3, the second historical time t-2 and the third historical time t-1 and the standard time t, and the overall transmission is to completely transmit the to-be-transmitted multi-element data.

6. The method for rapid transmission verification of multivariate data according to claim 5, wherein the step of completing rapid transmission according to the multivariate data transmission dynamic rule by using the multivariate data to be transmitted comprises:

s3-1, when the real-time data state of the multi-element data to be transmitted is complete, using the current moment as a first processing moment;

s3-1-1, judging whether the receiving end has the received multi-element data which are completely the same as the multi-element data to be transmitted currently in the transmitting end at the first processing moment, if so, completing the current quick transmission by utilizing the received multi-element data in the receiving end, otherwise, transmitting the multi-element data to be processed to the receiving end by utilizing the transmitting end to obtain the current received multi-element data to complete the quick transmission;

s3-2, when the real-time data state of the multi-element data to be transmitted is incomplete, sequentially transmitting the multi-element data to be transmitted to a receiving end by using a transmitting end to obtain the multi-element data to be verified;

s3-2-1, obtaining the received multi-element data in the receiving end by utilizing the received multi-element data to be verified to finish quick transmission.

7. The method for fast transmission verification of multi-element data according to claim 6, wherein said obtaining the fast transmission of the received multi-element data in the receiving end using the received multi-element data to be verified comprises:

s3-2-1-1, judging whether the received multi-element data to be verified is identical to the multi-element data to be transmitted or not when the received multi-element data to be verified exists in the receiving end, if yes, executing S3-2-1-2, otherwise, S3-2-1-3;

s3-2-1-2, judging whether the to-be-verified received multi-element data in the receiving end and the to-be-transmitted multi-element data segmentation mapping corresponding to the to-be-transmitted multi-element data are completely corresponding, if yes, using the to-be-verified received multi-element data as the received multi-element data to complete quick transmission, otherwise, giving up processing;

s3-2-1-3, judging whether the received multi-element data to be verified is a subset of multi-element data to be transmitted, if yes, returning to S3-2, otherwise, discarding the processing.