CN116668042A - Production data information transmission method for D-dimer and FDP composite quality control product - Google Patents

Abstract

The application relates to the technical field of data transmission, in particular to a method for transmitting production data information of a D-dimer and FDP composite quality control product. The method solves the technical problems of safety and completeness of the production data transmission process in the prior art, and achieves the technical effect of safer and more complete transmission of data information in the production process of the D-dimer and FDP composite quality control product.

Description

Production data information transmission method for D-dimer and FDP composite quality control product

Technical Field

The application relates to the technical field of data transmission, in particular to a method for transmitting production data information of a D-dimer and FDP composite quality control product.

Background

D-dimer and FDP (fibrinogen degradation products) are two biochemical indicators associated with the blood coagulation system, commonly used to assess coagulation function and inflammatory status; d-dimer is a protein fragment in blood that occurs primarily due to the process of blood clot formation and degradation; FDP is the generic term for various degradation products of fibrin and fibrinogen under the action of plasmin, and mainly reflects the fibrinolytic level of the whole body; d-dimer and FDP composite quality control are products used in quality control and calibration laboratories to measure these biochemical indicators.

At present, more and more hemagglutination detection needs a D-dimer and FDP composite quality control product, and a plurality of researches on the production process of the D-dimer and FDP composite quality control product are carried out, and a method for monitoring the abnormality of the production process of the D-dimer and FDP composite quality control product and a method for monitoring 202310442498.6 are proposed by Yang Junjing et al, and mainly comprise the steps of monitoring the preparation stations of the D-dimer and FDP raw materials; monitoring a uniform stirring station; adding buffer solution into the mixed liquid for station monitoring; comparing the D-dimer and FDP values detected in real time with the quality control range; performing data analysis on the triggering abnormal alarm event and establishing a baseline model; the production data is visually displayed, and abnormal conditions are found in time; the data information in the production process of the raw material preparation station is collected through the 360-degree rotary camera, the normal range of the D-dimer and FDP composite quality control product is distinguished through the clustering mixing algorithm, the abnormality is detected through the selection mixing algorithm, the alarm and the treatment are carried out, the production efficiency and the qualified efficiency are greatly improved, and the basic guarantee is provided for medical detection.

However, the above technology has at least the following technical problems: the data generated by each production link in the production process adopts a traditional data information transmission method, so that the safety and the integrity of the data information in the transmission process can not be ensured.

Disclosure of Invention

The embodiment of the application solves the technical problems of safety and completeness of the production data transmission process in the prior art by providing the production data information transmission method for the D-dimer and FDP composite quality control product, and achieves the technical effects of safer and more complete data information transmission in the production process of the D-dimer and FDP composite quality control product.

The application provides a method for transmitting production data information of a D-dimer and FDP composite quality control product, which specifically comprises the following technical scheme:

a method for transmitting production data information of a D-dimer and FDP composite quality control product comprises the following steps:

s1, acquiring data information of a D-dimer and FDP composite quality control product in the early production stage, and encrypting and transmitting the data information of the early production stage to the middle production stage of the D-dimer and FDP composite quality control product;

s2, acquiring data information of the D-dimer and FDP composite quality control product in the middle production period, and realizing data transmission in each production link after carrying out fusion data processing on the data information;

and S3, acquiring data information of the D-dimer and FDP composite quality control product in the production period, and transmitting, storing and backing up the data information.

Preferably, the step S1 specifically includes:

the data information generated in the initial production stage is encrypted and transmitted in the initial production stage of the D-dimer and FDP composite quality control product, so that the safety of data information transmission is guaranteed, and the data information in the initial production stage is optimally encrypted and transmitted by adopting a probability optimization encryption means based on data characteristics, so that data information in the transmission process is prevented from being stolen by irrelevant personnel.

Preferably, in the step S1, the method further includes:

the probability optimization encryption means based on the data characteristics is adopted to carry out optimized encryption transmission on the data information in the early production stage, and the method specifically comprises the following steps:

the data information set to be encrypted isMWhen transmitting data, firstly, the data is packed, each group of data is one group, the number of data packets is N, and any group of data is usedIndicating (I)>The method comprises the steps of carrying out a first treatment on the surface of the When encryption is carried out, the elliptic curve corresponding point set is introduced asEThe base point isG；

The first step: key generation, random selection of a private keyAnd public key->；

And a second step of: signature generation, for any set of dataSigning, first of all, data +.>Extracting features to obtain feature vector->Wherein L represents the number of feature vectors, < ->Representing the L-th eigenvector, and performing correlation calculation on any two eigenvectors by using a correlation coefficient calculation formula to obtain a correlation matrix +.>Maximum term in correlation matrix +.>Corresponding single or two feature vectors of +.>The method comprises the steps of carrying out a first treatment on the surface of the Then randomly selecting a temporary private key +.>, wherein />，/>Represents a ring of integers which is a whole number,pis a large prime number of the digits,each element in (a) is a non-negative integer and less thanpThen calculate the temporary public key using the point multiplication on the elliptic curve>And calculate signature +.>The calculation formula is as follows:

，

，

wherein ,representing the remainder operation, ++>Is data information->Hash value corresponding to the selected feature vector, < >>Representing the modulo inverse of the temporary private key k, there is +.>；

Then, after the signature is generated, the encrypted information is transmitted, so that the safety of the data transmission process is ensured, and the data information is prevented from being stolen by irrelevant personnel;

thirdly, performing the following steps; signature verification, upon receipt of transmitted information dataSignature->And after the public key Q, verifying, namely, verifying the validity of the signature, wherein the verification is as follows:

first order, wherein ,/>Representing the modulo inversion of s, there is +.>The method comprises the steps of carrying out a first treatment on the surface of the Then calculate the check value

，

，

，

Finally, final verification is carried out ifThe signature is valid if ++>The signature is invalid.

Preferably, in the step S1, the method further includes:

when the data are encrypted and transmitted, the method not only comprises the step of encrypting the data in the initial production stage, but also comprises the step of encrypting and transmitting the data which need to be encrypted and protected in the whole production process of the D-dimer and FDP composite quality control product by adopting an optimized encryption algorithm so as to ensure the safety of the production data information of the D-dimer and FDP composite quality control product.

Preferably, the step S2 specifically includes:

and the data information generated in the middle production stage of the D-dimer and FDP composite quality control product is subjected to fusion data processing before transmission, so that the data loss and data disorder caused by the interference of external influence factors on the data information are avoided, and the integrity of the data information is ensured.

Preferably, in the step S2, the method further includes:

the data information set to be processed by the fusion information is expressed asThe specific fusion information processing process is as follows:

first, data information setGrouping according to the same number of data information elements of each group to obtain grouped data information set +.>；

Extracting the protection prefix from each group of data, and extracting the first X data of each group of data as the protection prefix, wherein X is obtained after testing according to the length of each group of data, and the protection prefix is arranged in front of each group of data to form a new group data information set；

Third, extracting redundant information, and collecting updated packet data informationExtracting redundant information to obtain a redundant information set +.>；

Fourth step, collectingAnd redundant information set->Combining to form a combined data information setRealize +.>Is used for processing the fusion information of the (a);

preferably, in the step S2, the method further includes:

when the integrity of data transmission is guaranteed in the data transmission process, the method not only comprises the step of carrying out fusion data processing on data in the middle production period, but also comprises the step of adopting fusion data processing to process data information when the integrity of data transmission needs to be guaranteed in the whole production process of the D-dimer and FDP composite quality control product, so as to ensure the integrity of the production data information of the D-dimer and FDP composite quality control product.

Preferably, in the step S3, the method further includes:

data transmission is carried out on data information generated in the production period according to different data attributes in the production period of the D-dimer and FDP composite quality control product;

and when the data security and the integrity are required to be ensured in the transmission process in the later production period of the D-dimer and FDP composite quality control product, adopting an optimized encryption algorithm and a fusion data processing algorithm corresponding to the step S1 and the step S2 to ensure the data transmission security and the integrity.

The beneficial effects are that:

the technical schemes provided by the embodiment of the application have at least the following technical effects or advantages:

1. when the data information is encrypted, the signature encryption algorithm for optimizing the elliptic curve is adopted, and the correlation parameters among the characteristics of the data information are used for calculating the signature value in the encryption algorithm, so that the accuracy of the signature is improved, the efficiency and the encryption performance of the signature are improved, and the safety of the D-dimer and FDP composite quality control product in data information transmission is ensured.

2. The application further improves the integrity of the production data information of the D-dimer and FDP composite quality control product in the transmission process by carrying out fusion data processing on the production data of the D-dimer and FDP composite quality control product before transmission and utilizing the data information to protect the integrity of the data information.

Drawings

FIG. 1 is a flow chart of a method for transmitting production data information of a D-dimer and FDP composite quality control product according to the present application;

Detailed Description

The embodiment of the application solves the technical problems of unsafe and incomplete data transmission in the prior art by providing a method for transmitting production data information of a D-dimer and FDP composite quality control product, and the overall thinking is as follows:

adopting an optimized encryption algorithm at the initial production stage, the middle production stage and the final production stage of the D-dimer and FDP composite quality control product, and fusing a data processing algorithm to transmit the production data information of the D-dimer and FDP composite quality control product so as to ensure the safety and the integrity of the data information; when the data information is encrypted, a signature encryption algorithm for optimizing an elliptic curve is adopted, and correlation parameters among data information features are used for calculating a signature value in the encryption algorithm, so that the accuracy of the signature is improved, the efficiency and encryption performance of the signature are improved, and the safety of the D-dimer and FDP composite quality control product in the process of producing the data information transmission is ensured; the integrity of the data information is protected by utilizing the data information per se by carrying out fusion data processing on the production data of the D-dimer and FDP composite quality control product before transmission, and the integrity of the production data information of the D-dimer and FDP composite quality control product in the transmission process is further improved.

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

The production process of the D-dimer and FDP composite quality control product mainly comprises the following steps: preparing materials, collecting needed raw materials and reagents, including plasma samples, standard substances, antibodies and the like for preparing quality control substances; sample processing, namely selecting a batch of plasma samples with known D-dimer and FDP concentrations as a base material, wherein the plasma samples are taken from healthy people and patients suffering from related diseases; diluting and mixing, namely properly diluting a basic plasma sample to obtain D-dimer and FDP concentrations with different levels, and mixing the diluted sample with a standard substance and an antibody to generate a D-dimer and FDP composite quality control product with various concentration levels; bottling and labeling, namely packaging the prepared quality control products into proper containers, and labeling each container with labels, wherein the labels are marked with information such as batch numbers, concentration, validity periods and the like of the quality control products; sterilizing and preserving, wherein the quality control product is sterilized before use and preserved under proper conditions, so that the sterility of the quality control product before use is ensured; and (3) performing quality control tests, namely performing strict quality control tests on the prepared quality control product, wherein the quality control product comprises comparison with a known reference value, stability tests, consistency tests and the like, so as to determine the accuracy, stability and reliability of the quality control product.

In the production process of the D-dimer and FDP composite quality control product, data needing to be subjected to data information transmission comprise information of raw materials, sample processing data, mixing and proportioning data, bottling and label information, quality control test data, production batch record and environment monitoring data;

the raw material information includes raw material information recorded for producing quality control products, including sources of plasma samples, supplier information, lot numbers and specifications of standard products, sources and characteristics of antibodies, and the like.

The sample processing data: relevant data is recorded for dilution and processing of the basal plasma samples, including initial concentration, dilution factors, other reagents and components added, etc. for each sample.

The mixing and proportioning data: the ratios of sample, standard and antibody used in the mixing process and the mixing method are recorded. These data typically include the amount of ingredients required for each concentration level and the order of mixing.

The bottled and labeled information: the serial number, capacity, date of bottling and label information of each container, and possibly the sterilization process steps and related data during the sub-packaging of the quality control product are recorded.

The quality test data: recording the results of various quality control tests carried out on the prepared quality control product, wherein the results comprise comparison data with known reference values, stability test results and consistency test data.

The production lot record: recording of detailed operating steps, key parameters and quality control checks recorded during production. These records are used to trace back the production process and ensure that the quality control of each batch meets quality requirements.

The environmental monitoring data: and recording the temperature, humidity, cleanliness and other related data of the production environment so as to ensure that the production process is carried out under proper environmental conditions.

For the data information (information of raw materials, sample processing data, mixing and proportioning data, bottling and labeling information, quality control test data, production batch record, environment monitoring data) generated in the production process of the D-dimer and FDP composite quality control product, the data information transmission process is divided into transmission of initial production data information, transmission of middle production data information and transmission of later production data information, and the classification is only for the production process;

referring to fig. 1, the method for transmitting production data information of the composite quality control product of the D-dimer and the FDP comprises the following steps:

s1, acquiring data information of a D-dimer and FDP composite quality control product in the early production stage, and encrypting and transmitting the data information of the early production stage to the middle production stage of the D-dimer and FDP composite quality control product;

the data information generated in the initial production stage is encrypted and transmitted in the initial production stage of the D-dimer and FDP composite quality control product, so that the safety of the data information transmission is guaranteed, the data information in the initial production stage is optimally encrypted and transmitted by adopting a means based on data characteristics, the data information in the transmission process is prevented from being stolen by irrelevant personnel, the optimized encryption and transmission is an optimized elliptic probability curve signature encryption algorithm, and the method is specifically realized as follows:

as a specific embodiment, the data information set to be encrypted isMWhen transmitting data, firstly, the data is packed, each group of data is one group, the number of data packets is N, and any group of data is usedThe representation is made of a combination of a first and a second color,the method comprises the steps of carrying out a first treatment on the surface of the Introducing elliptic curve point set as encryptionEThe base point isGBase pointGIs a fixed point previously selected on the curve, usually determined by the parameters of the curve; curve equation is +.>, wherein ,/> and />Is a parameter of an elliptic curve;

the first step: generating a secret key;

randomly selecting a private key, wherein ,/>Represents a ring of integers which is a whole number,pis a large prime number,/->Each element in (a) is a non-negative integer and less thanpThe method comprises the steps of carrying out a first treatment on the surface of the I.e. < ->The method comprises the steps of carrying out a first treatment on the surface of the The private key is then used to generate a public key ++using point multiplication on the elliptic curve>；

And a second step of: generating a signature;

for any one group of dataSigning, first of all, data +.>Extracting features to obtain feature vectorsWherein L represents the number of feature vectors, < ->Representing the L-th eigenvector, and performing correlation calculation on any two eigenvectors by using a correlation coefficient calculation formula to obtain a correlation matrix +.>Maximum term in correlation matrixCorresponding single or two feature vectors of +.>The method comprises the steps of carrying out a first treatment on the surface of the Then randomly selecting a temporary private key +.>, wherein />Then, the temporary public key is calculated by utilizing the point multiplication operation on the elliptic curveAnd calculate signature +.>The calculation formula is as follows:

，

the application introduces data correlation, utilizes the correlation probability among each group of data information characteristics to further screen r in the signature so as to obtain safer signature information,

，

wherein ,representing the remainder operation, ++>Is data information->Hash value corresponding to the selected feature vector, < >>Representing the modulo inverse of the temporary private key k, there is +.>；

Then, after the signature is generated, the encrypted information is transmitted, so that the safety of the data transmission process is ensured, and the data information is prevented from being stolen by irrelevant personnel;

thirdly, performing the following steps; signature verification;

upon receipt of the transmitted information dataSignature->And after the public key Q, verifying, namely, verifying the validity of the signature, wherein the verification is as follows:

first another, wherein ,/>Representing the modulo inversion of s, there is +.>The method comprises the steps of carrying out a first treatment on the surface of the Then calculate the check value

，

，

，

Finally, final verification is carried out ifThe signature is valid if ++>The signature is invalid;

when the data are encrypted and transmitted, the method not only comprises the step of encrypting the data in the initial production stage, but also comprises the step of encrypting and transmitting the data which need to be encrypted and protected in the whole production process of the D-dimer and FDP composite quality control product by adopting an optimized encryption algorithm so as to ensure the safety of the production data information of the D-dimer and FDP composite quality control product.

When the data information is encrypted, the signature encryption algorithm for optimizing the elliptic curve is adopted, and the correlation parameters among the characteristics of the data information are used for calculating the signature value in the encryption algorithm, so that the accuracy of the signature is improved, the efficiency and the encryption performance of the signature are improved, and the safety of the D-dimer and FDP composite quality control product in data information transmission is ensured.

S2, acquiring data information of the D-dimer and FDP composite quality control product in the middle production period, and realizing data transmission in each production link after carrying out fusion data processing on the data information;

the data information generated in the middle production stage is subjected to fusion data processing before transmission in the middle production stage of the D-dimer and FDP composite quality control product, so that the data loss and data disorder caused by the interference of external influence factors on the data information are avoided, and the integrity of the data information is ensured;

when the production data information of the D-dimer and FDP composite quality control product is subjected to fusion data processing, the specific process is as follows:

as a specific embodiment, the data information set to be transmitted is expressed as，Wherein R represents the number of data in the data information set, < >>Represents the R-th data information;

first, data information setGrouping processing is performed according to each group of data information elementsGrouping the same numbers to obtain a data information set +.>，/>Wherein T represents the number of packets, +.>Representing the T-th group data information, and independently forming a group when the number of the last group of data information elements is less than that of any other group of data information elements;

secondly, extracting a protection prefix from each group of data, and extracting the first X data of each group of data as the protection prefix, wherein the value of X is obtained after testing according to the length of each group of data; placing a protection prefix in front of each group of data to form a new group data information set，/>Set->Any one of the data information sets comprising +.>Data information element,/->Representing a first set of data information elements;

third, extracting redundant information, and collecting updated packet data informationExtracting redundant information to obtain a redundant information set +.>，/>The extraction formula is as follows:

，

wherein ,representing a redundant information production function, in particular computationally obtainable using a verification or other error correction coding technique;

fourth step, collectingAnd redundant information set->Combining to form a combined data information set，/>Fusion information processing is realized;

finally, the data information set after the fusion information processingTransmitting via a transmission medium to a receiving end of the next production link, wherein the receiving end is provided with a plurality of transmission channels>And performing error detection and correction to perform decoding processing, removing the protection prefix to obtain original grouping data, and rearranging the grouped data to obtain an original data information set in the production process of the D-dimer and FDP composite quality control product.

When the integrity of data transmission is required to be ensured in the whole production process of the D-dimer and FDP composite quality control product, the data information is processed by adopting fusion data processing so as to ensure the integrity of the production data information of the D-dimer and FDP composite quality control product.

The application further improves the integrity of the production data information of the D-dimer and FDP composite quality control product in the transmission process by carrying out fusion data processing on the production data of the D-dimer and FDP composite quality control product before transmission and utilizing the data information to protect the integrity of the data information.

And S3, acquiring data information of the D-dimer and FDP composite quality control product in the production period, and transmitting, storing and backing up the data information.

Data transmission is carried out on data information generated in the production period according to different data attributes in the production period of the D-dimer and FDP composite quality control product;

and when the data security and the integrity are required to be ensured in the transmission process in the later production period of the D-dimer and FDP composite quality control product, adopting an optimized encryption algorithm and a fusion data processing algorithm corresponding to the step S1 and the step S2 to ensure the data transmission security and the integrity.

In conclusion, the method for transmitting the production data information of the D-dimer and FDP composite quality control product is completed.

The technical scheme provided by the embodiment of the application at least has the following technical effects or advantages:

1. when the data information is encrypted, the signature encryption algorithm for optimizing the elliptic curve is adopted, and the correlation parameters among the characteristics of the data information are used for calculating the signature value in the encryption algorithm, so that the accuracy of the signature is improved, the efficiency and the encryption performance of the signature are improved, and the safety of the D-dimer and FDP composite quality control product in data information transmission is ensured.

2. The application further improves the integrity of the production data information of the D-dimer and FDP composite quality control product in the transmission process by carrying out fusion data processing on the production data of the D-dimer and FDP composite quality control product before transmission and utilizing the data information to protect the integrity of the data information.

Effect investigation:

the technical scheme of the application can effectively solve the technical problems of safety and integrity of data transmission, and the system or the method has the advantages that a series of effects are studied, when data information is encrypted, a signature encryption algorithm for optimizing an elliptic curve is adopted, correlation parameters among data information characteristics are used for calculating a signature value in the encryption algorithm, the accuracy of the signature is improved, the efficiency and encryption performance of the signature are improved, and the safety of the D-dimer and FDP composite quality control product in data information transmission is ensured; the integrity of the data information is protected by carrying out fusion data processing on the production data of the D-dimer and the FDP composite quality control product before transmission and utilizing the data information, so that the integrity of the production data information of the D-dimer and the FDP composite quality control product in the transmission process is further improved.

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 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.

While preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including the preferred embodiments and all such alterations and modifications as fall within the scope of the application.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present application without departing from the spirit or scope of the application. Thus, it is intended that the present application also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (8)

1. The method for transmitting the production data information of the D-dimer and FDP composite quality control product is characterized by comprising the following steps of:

s1, acquiring data information of a D-dimer and FDP composite quality control product in the early production stage, and encrypting and transmitting the data information of the early production stage to the middle production stage of the D-dimer and FDP composite quality control product;

s2, acquiring data information of the D-dimer and FDP composite quality control product in the middle production period, and realizing data transmission in each production link after carrying out fusion data processing on the data information;

and S3, acquiring data information of the D-dimer and FDP composite quality control product in the production period, and transmitting, storing and backing up the data information.

2. The method for transmitting production data information of the D-dimer and FDP composite quality control product according to claim 1, wherein the step S1 specifically includes:

the data information generated in the initial production stage is encrypted and transmitted in the initial production stage of the D-dimer and FDP composite quality control product, so that the safety of data information transmission is guaranteed, and the data information in the initial production stage is optimally encrypted and transmitted by adopting a probability optimization encryption means based on data characteristics, so that data information in the transmission process is prevented from being stolen by irrelevant personnel.

3. The method for transmitting production data information of a D-dimer and FDP composite quality control product according to claim 2, further comprising, in the step S1:

the probability optimization encryption means based on the data characteristics is adopted to carry out optimized encryption transmission on the data information in the early production stage, and the method specifically comprises the following steps:

the data information set to be encrypted isMWhen transmitting data, firstly, the data is packed, each group of data is one group, the number of data packets is N, and any group of data is usedIndicating (I)>The method comprises the steps of carrying out a first treatment on the surface of the When encryption is carried out, the corresponding point set is introduced asEThe base point isG；

The first step: key generation, selecting a private key along with elliptic curve machineAnd public key->；

And a second step of: signature generation, for any set of dataSigning, first of all, data +.>Extracting features to obtain feature vector->Wherein L represents the number of feature vectors, < ->Representing the L-th feature vector, and performing correlation calculation on any two feature vectors by using a correlation coefficient calculation formula to obtainTo the correlation matrix->Maximum term in correlation matrix +.>Corresponding single or two feature vectors of +.>The method comprises the steps of carrying out a first treatment on the surface of the Then randomly selecting a temporary private key +.>, wherein />，/>Represents a ring of integers which is a whole number,pis a large prime number,/->Each element in (a) is a non-negative integer and less thanpThen, the temporary public key is calculated by utilizing the point multiplication operation on the elliptic curveAnd calculate signature +.>The calculation formula is as follows:

，

，

wherein ,representing the remainder operation, ++>Is data information->Hash value corresponding to the selected feature vector, < >>Representing the modulo inverse of the temporary private key k, there is +.>；

Then, after the signature is generated, the encrypted information is transmitted, so that the safety of the data transmission process is ensured, and the data information is prevented from being stolen by irrelevant personnel;

thirdly, performing the following steps; signature verification, upon receipt of transmitted information dataSignature->And after the public key Q, verifying, namely, verifying the validity of the signature, wherein the verification is as follows:

first order, wherein ,/>Representing the modulo inversion of s, there is +.>The method comprises the steps of carrying out a first treatment on the surface of the Then calculate the check value

，

，

，

Finally, final verification is carried out ifThe signature is valid if ++>The signature is invalid.

4. The method for transmitting data information for producing a composite quality control product of D-dimer and FDP according to claim 3, further comprising, in said step S1:

when the data are encrypted and transmitted, the method not only comprises the step of encrypting the data in the initial production stage, but also comprises the step of encrypting and transmitting the data which need to be encrypted and protected in the whole production process of the D-dimer and FDP composite quality control product by adopting an optimized encryption algorithm so as to ensure the safety of the production data information of the D-dimer and FDP composite quality control product.

5. The method for transmitting production data information of the D-dimer and FDP composite quality control product according to claim 1, wherein the step S2 specifically includes:

and the data information generated in the middle production stage of the D-dimer and FDP composite quality control product is subjected to fusion data processing before transmission, so that the data loss and data disorder caused by the interference of external influence factors on the data information are avoided, and the integrity of the data information is ensured.

6. The method for transmitting data information for producing a composite quality control product of D-dimer and FDP according to claim 5, further comprising, in step S2:

the data information set to be processed by the fusion information is expressed asThe specific fusion information processing process is as follows:

first, data information setGrouping according to the same number of data information elements of each group to obtain grouped data information set +.>；

Extracting the protection prefix from each group of data, and extracting the first X data of each group of data as the protection prefix, wherein X is obtained after testing according to the length of each group of data, and the protection prefix is arranged in front of each group of data to form a new group data information set；

Third, extracting redundant information, and collecting updated packet data informationExtracting redundant information to obtain a redundant information set +.>；

Fourth step, collectingAnd redundant information set->Combining to form a combined data information set +.>Realize +.>Is described.

7. The method for transmitting data information of production of a composite quality control product of D-dimer and FDP of claim 6, further comprising, in step S2:

when data is transmitted, in order to ensure the integrity of the data in the data transmission process, the method not only comprises the step of carrying out fusion data processing on the data in the middle production period, but also comprises the step of adopting fusion data processing to process data information when the integrity of the data transmission needs to be ensured in the whole production process of the D-dimer and FDP composite quality control product, so as to ensure the integrity of the production data information of the D-dimer and FDP composite quality control product.

8. The method for transmitting production data information of the D-dimer and FDP composite quality control product according to claim 1, wherein the step S3 specifically includes:

data transmission is carried out on data information generated in the production period according to different data attributes in the production period of the D-dimer and FDP composite quality control product;

and when the data security and the integrity are required to be ensured in the transmission process in the later production period of the D-dimer and FDP composite quality control product, adopting an optimized encryption algorithm and a fusion data processing algorithm corresponding to the step S1 and the step S2 to ensure the data transmission security and the integrity.