CN111949623B - Inspection data analysis and verification system - Google Patents

Abstract

The invention discloses an inspection data analysis and verification system, which is used for solving the problems of reasonably selecting corresponding verification personnel and a pesticide residue rapid detector for verification on rapid inspection data and improving the authenticity and verification efficiency of the data, and comprises a data collection module, a database, a rapid inspection platform, a configuration parameter module, a data analysis module and a data verification module; the data analysis module is used for receiving the quick check data sent by the configuration parameter module and analyzing the quick check data to obtain corresponding verification personnel, the data verification module is used for verifying the quick check data by the verification personnel, the quick check data are subjected to block chain processing and analyzed and verified, the corresponding verification personnel and the pesticide residue quick detector are reasonably selected to verify the quick check data, the efficiency of quick check data verification is improved, the data authenticity is judged by verifying the quick check data, and the authenticity of the data is improved.

Description

Inspection data analysis and verification system

Technical Field

The invention relates to the technical field of data analysis and verification, in particular to a system for analyzing and verifying inspection data.

Background

The appearance of pesticide brings huge economic benefits for human society, however the origin of pesticide chemical substance and the use that people are large-area unscientific and reasonable, in addition the management is not enough normative, cause ecosystem's balance to suffer destruction, the pesticide residue problem shows thereupon, especially detect the pesticide residue value of crops through detecting instrument and obtain the fast check data, however current system exists and can not rationally select corresponding proof personnel and pesticide residue fast detector to verify the problem to the fast check data, thereby lead to the authenticity of data lower and data verification efficiency slow.

Disclosure of Invention

The invention aims to provide a system for analyzing and verifying inspection data, aiming at solving the problems of reasonably selecting corresponding verifiers and pesticide residue rapid testers for verification on rapid inspection data and improving the authenticity and the verification efficiency of the data; through will examine data soon and carry out block chain processing and carry out analysis verification to examining data soon, rationally select corresponding verification personnel and pesticide residue short-term test appearance to examine data soon and verify, improve the efficiency that examines data verification soon, thereby judge through examining data soon and carrying out the true and false of data, improve the authenticity of data.

The purpose of the invention can be realized by the following technical scheme: a test data analysis and verification system comprises a data collection module, a database, a quick test platform, a configuration parameter module, a data analysis module and a data verification module;

the data collection module is used for receiving the quick detection data, processing the quick detection data through the block chain and then sending the quick detection data to the database for storage; the quick detection data comprises positions of the pesticide residues corresponding to the crops;

the rapid inspection platform is used for acquiring rapid inspection data in the database and sending the rapid inspection data to the configuration parameter module, the configuration parameter module is used for setting a preset pesticide residue parameter range by an operator and matching the preset pesticide residue parameter range with the rapid inspection data, and when the rapid inspection data is not in the preset pesticide residue parameter range, the rapid inspection data is sent to the data analysis module;

the data analysis module is used for receiving the quick check data sent by the configuration parameter module and analyzing the quick check data to obtain corresponding verification personnel, and the data analysis module sends the verification personnel and the quick check data to the data verification module and mobile phone terminals of the verification personnel at the same time; the data verification module is used for verifying the quick check data by a verifier, and the specific verification steps are as follows:

the method comprises the following steps: the method comprises the steps that a verifier sends a verification instruction and a current position to a data verification module through a mobile phone terminal, and after the data verification module receives the verification instruction and the current position, the data verification module draws a circle with the current position as a circle center and the circle center and a preset radius to obtain a screening range;

step two: acquiring a pesticide residue tacheometer with the position within the screening range, marking the pesticide residue tacheometer as a primary selection instrument, and marking the primary selection instrument as Yi, i is 1, 2, … … and n;

step three: calculating the distance difference between the position of the initially selected instrument and the current position of the verifier to obtain the instrument distance and marking as G_Yi；

Step four: calculating the time difference between the production time of the primary selection instrument and the current time to obtain the production time of the primary selection instrument and marking the production time as T_Yi(ii) a Carrying out dequantization processing on the instrument spacing and the production duration and taking the numerical values of the instrument spacing and the production duration;

step five: using formula QR_Yi＝(1/T_Yi)×c1+1/G_Yi×c2+P_YiObtaining the detection value QR of the primary instrument by the x c3_Yi(ii) a Wherein c1, c2 and c3 are all preset proportionality coefficients; p_YiThe total verification times of the primary selected instrument are shown;

step six: selecting the primary instrument with the largest instrument inspection value as a selected instrument, acquiring a holder of the selected instrument and sending a verification transfer instruction to a mobile phone terminal of the holder, and when the holder receives the verification transfer instruction through the mobile phone terminal and sends an agreement instruction and a position to a data verification module through the mobile phone terminal, the data verification module receives the instruction and the position and sends the position to a mobile phone terminal of a verifier;

step seven: after the verifying personnel receives the position through the mobile phone terminal and arrives at the position, the verifying personnel and the holder simultaneously send a handover instruction and a current position to the data verification module through the mobile phone terminal, the data verification module receives the handover instruction and the current position and matches the current position, after the matching is successful, the holder sends the selected instrument to the hand of the verifying personnel, shoots photos of the verifying personnel and the selected instrument through the mobile phone terminal, and sends the photos to the data verification module;

step eight: the method comprises the steps that a verifier arrives at a position of an agricultural crop included in quick inspection data, carries out quick inspection data verification through a selected instrument and sends verified data to a quick inspection platform, the quick inspection platform receives the quick inspection data sent by the verifier and sends the quick inspection data to a database for updating and storing, and meanwhile, the quick inspection platform data marks the time when the quick inspection data sent by the verifier is received as the verification completion time of the verifier;

step nine: the method comprises the steps that a verifier sends a selected instrument to a position of a holder and sends the selected instrument to the holder, then the verifier sends a verification completion instruction to a data verification module through a mobile phone terminal, the data verification module sends a verification instruction to the mobile phone terminal of the holder after receiving the verification completion instruction, and after the holder receives the verification instruction through the mobile phone terminal, the holder sends a confirmation instruction to the data verification module through the mobile phone terminal, so that the verification frequency of the verifier is increased by one, and the total verification frequency of the selected instrument is increased by one;

step ten: the data verification module marks the time when the verification personnel and the quick check data are received as the receiving time; calculating the time difference between the receiving time and the verification completion time to obtain the single verification time length of the verification personnel and recording the single verification time length as YT, and obtaining the verification efficiency value of the verification personnel by using a formula XL (absolute YT-YB absolute x c 4), wherein c4 is a preset conversion time coefficient; YB presetting a threshold value for verification time; and the data verification module sends the verification efficiency value to the quick detection platform for storage.

Preferably, the specific steps of analyzing and obtaining the corresponding verifier by the data analysis module are as follows:

s1: the data analysis module acquires registration information of an inspector and a verification efficiency value of the inspector, which are stored in the quick inspection platform;

s2: marking the inspector as Rj, j ═ 1, 2, … …, n; sending a position acquisition instruction to a mobile phone terminal of an inspector to acquire the current real-time position of the inspector, calculating the position difference between the current real-time position and the crop position contained in the quick inspection data received by the data analysis module to acquire an object distance, and marking the object distance as W_Rj；

S3: setting the number of verifications of the inspector to be E_Rj；

S4: summing all the verification efficiency values of the inspectors, averaging to obtain an efficiency average value, and marking the efficiency average value as F_Rj；

S5: the object distance, the verification times and the efficiency mean value are subjected to dequantization treatment and numerical values are obtained, and a formula WH is utilized_Rj＝(1/W_Rj)×c5+E_Rj×c6+F_RjObtaining the checking value WH of the inspector by the Xc 7_Rj(ii) a Wherein c5, c6 and c7 are all preset proportionality coefficients;

s6: and marking the inspector with the maximum inspection value as the verifier.

Preferably, the system further comprises a registration login module, wherein the registration login module is used for submitting registration information for registration through the mobile phone terminal by the inspector and sending the registration information of successful registration to the quick inspection platform for storage, and the registration information comprises the name, the mobile phone number, the identity card number and the time of job entry of the inspector.

Preferably, the quick-check platform further comprises a data storage unit; the data storage unit is used for storing the number and the position of the pesticide residue tachymeter and the name and the mobile phone number of a holder.

Preferably, the specific process of sending the quick test data to the database for storage after the data collection module is processed by the block chain is as follows: carrying out data chaining on the inspection data, then compressing and encrypting the inspection data, and then sending the inspection data to a database for storage and generating an intelligent contract; the intelligent contract automatically executes and updates the quick check data; and the database establishes alliance link connection with the quick inspection data.

Compared with the prior art, the invention has the beneficial effects that: in the inspection data analysis and verification system, the data collection module receives the quick inspection data, performs data chaining on the inspection data, then compresses and encrypts the inspection data, and then sends the inspection data to the database for storage to generate an intelligent contract; the intelligent contract automatically executes and updates the quick check data; the database establishes alliance link connection with the quick detection data; the quick detection platform acquires quick detection data in a database and sends the quick detection data to the configuration parameter module, the configuration parameter module is used for setting a preset pesticide residue parameter range by an operator and matching the preset pesticide residue parameter range with the quick detection data, and when the quick detection data is not in the preset pesticide residue parameter range, the quick detection data is sent to the data analysis module; the data analysis module is used for receiving the quick check data sent by the configuration parameter module and analyzing the quick check data to obtain corresponding verification personnel; the data analysis module sends the verification personnel and the quick detection data to the data verification module and the mobile phone terminals of the verification personnel at the same time; the data verification module is used for verifying the quick detection data by a verifier and obtaining an instrument detection value of the primary instrument by using a formula; the primary selection instrument with the largest instrument detection value is selected as a selection instrument, a verification person arrives at a crop position included in the quick detection data, carries out quick detection data verification through the selection instrument and sends the verified data to a quick detection platform, the quick detection data is subjected to block chain processing and is analyzed and verified, the corresponding verification person and the pesticide residue quick detection instrument are reasonably selected to verify the quick detection data, the efficiency of quick detection data verification is improved, the data authenticity is judged through verifying the quick detection data, and the authenticity of the data is improved.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

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

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an inspection data analysis and verification system includes a data collection module, a database, a quick inspection platform, a configuration parameter module, a data analysis module, a data verification module, and a registration module;

the data collection module is used for receiving the quick check data, performing data chaining on the check data, compressing and encrypting the check data, and then sending the check data to the database for storage to generate an intelligent contract; the intelligent contract automatically executes and updates the quick check data; the database establishes alliance link connection with the quick detection data; the quick detection data comprises positions of the pesticide residues corresponding to the crops; the data collection module is a quick detection mobile phone end which is in communication connection with the pesticide residue quick detector, and the pesticide residue quick detector sends detected quick detection data to the quick detection mobile phone end;

the quick detection platform is used for acquiring quick detection data in the database and sending the quick detection data to the configuration parameter module, the configuration parameter module is used for setting a preset pesticide residue parameter range by an operator and matching the preset pesticide residue parameter range with the quick detection data, and when the quick detection data is not in the preset pesticide residue parameter range, the quick detection data is sent to the data analysis module;

the data analysis module is used for receiving the quick check data sent by the configuration parameter module and analyzing the quick check data to obtain corresponding verification personnel, and the specific steps are as follows:

s1: the data analysis module acquires registration information of an inspector and a verification efficiency value of the inspector, which are stored in the quick inspection platform;

s2: marking the inspector as Rj, j ═ 1, 2, … …, n; sending a position acquisition instruction to a mobile phone terminal of an inspector to acquire the current real-time position of the inspector, calculating the position difference between the current real-time position and the crop position contained in the quick inspection data received by the data analysis module to acquire an object distance, and marking the object distance as W_Rj；

S3: setting the number of verifications of the inspector to be E_Rj；

S4: summing all the verification efficiency values of the inspectors, averaging to obtain an efficiency average value, and marking the efficiency average value as F_Rj；

S5: the object distance, the verification times and the efficiency mean value are subjected to dequantization treatment and numerical values are obtained, and a formula WH is utilized_Rj＝(1/W_Rj)×c5+E_Rj×c6+F_RjObtaining the checking value WH of the inspector by the Xc 7_Rj(ii) a Wherein c5, c6 and c7 are all preset proportionality coefficients;

s6: marking the inspector with the maximum inspection value as a verifier;

the data analysis module sends the verification personnel and the quick detection data to the data verification module and the mobile phone terminals of the verification personnel at the same time; the data verification module is used for verifying the quick check data by a verifier, and the specific verification steps are as follows:

the method comprises the following steps: the method comprises the steps that a verifier sends a verification instruction and a current position to a data verification module through a mobile phone terminal, and after the data verification module receives the verification instruction and the current position, the data verification module draws a circle with the current position as a circle center and the circle center and a preset radius to obtain a screening range;

step two: acquiring a pesticide residue tacheometer with the position within the screening range, marking the pesticide residue tacheometer as a primary selection instrument, and marking the primary selection instrument as Yi, i is 1, 2, … … and n;

step three: calculating the distance difference between the position of the initially selected instrument and the current position of the verifier to obtain the instrument distance and marking as G_Yi；

Step four: calculating the time difference between the production time of the primary selection instrument and the current time to obtain the production time of the primary selection instrument and marking the production time as T_Yi(ii) a Carrying out dequantization processing on the instrument spacing and the production duration and taking the numerical values of the instrument spacing and the production duration;

step five: using formula QR_Yi＝(1/T_Yi)×c1+1/G_Yi×c2+P_YiObtaining the detection value QR of the primary instrument by the x c3_Yi(ii) a Wherein c1, c2 and c3 are all preset proportionality coefficients; p_YiThe total verification times of the primary selected instrument are shown;

step six: selecting the primary instrument with the largest instrument inspection value as a selected instrument, acquiring a holder of the selected instrument and sending a verification transfer instruction to a mobile phone terminal of the holder, and when the holder receives the verification transfer instruction through the mobile phone terminal and sends an agreement instruction and a position to a data verification module through the mobile phone terminal, the data verification module receives the instruction and the position and sends the position to a mobile phone terminal of a verifier;

step seven: after the verifying personnel receives the position through the mobile phone terminal and arrives at the position, the verifying personnel and the holder simultaneously send a handover instruction and a current position to the data verification module through the mobile phone terminal, the data verification module receives the handover instruction and the current position and matches the current position, after the matching is successful, the holder sends the selected instrument to the hand of the verifying personnel, shoots photos of the verifying personnel and the selected instrument through the mobile phone terminal, and sends the photos to the data verification module;

step eight: the method comprises the steps that a verifier arrives at a position of an agricultural crop included in quick inspection data, carries out quick inspection data verification through a selected instrument and sends verified data to a quick inspection platform, the quick inspection platform receives the quick inspection data sent by the verifier and sends the quick inspection data to a database for updating and storing, and meanwhile, the quick inspection platform data marks the time when the quick inspection data sent by the verifier is received as the verification completion time of the verifier;

step nine: the method comprises the steps that a verifier sends a selected instrument to a position of a holder and sends the selected instrument to the holder, then the verifier sends a verification completion instruction to a data verification module through a mobile phone terminal, the data verification module sends a verification instruction to the mobile phone terminal of the holder after receiving the verification completion instruction, and after the holder receives the verification instruction through the mobile phone terminal, the holder sends a confirmation instruction to the data verification module through the mobile phone terminal, so that the verification frequency of the verifier is increased by one, and the total verification frequency of the selected instrument is increased by one;

step ten: the data verification module marks the time when the verification personnel and the quick check data are received as the receiving time; calculating the time difference between the receiving time and the verification completion time to obtain the single verification time length of the verification personnel and recording the single verification time length as YT, and obtaining the verification efficiency value of the verification personnel by using a formula XL (absolute YT-YB absolute x c 4), wherein c4 is a preset conversion time coefficient; YB presetting a threshold value for verification time; the data verification module sends the verification efficiency value to the quick detection platform for storage;

the registration login module is used for submitting registration information to register by a detector through a mobile phone terminal and sending the registration information which is successfully registered to the quick check platform for storage, wherein the registration information comprises the name, the mobile phone number, the identity card number and the time of job entry of the detector;

the quick detection platform also comprises a data storage unit; the data storage unit is used for storing the number and the position of the pesticide residue tachymeter and the name and the mobile phone number of a holder;

the formula is a formula of the latest real situation obtained by collecting a large amount of data and performing software simulation, and the preset parameters in the formula are set by the technicians in the field according to the actual situation;

when the intelligent contract generating system is used, the data collecting module receives the quick check data, performs data chaining on the check data, then compresses and encrypts the data, and then sends the data to the database for storage and generates an intelligent contract; the intelligent contract automatically executes and updates the quick check data; the database establishes alliance link connection with the quick detection data; the quick detection platform acquires quick detection data in a database and sends the quick detection data to the configuration parameter module, the configuration parameter module is used for setting a preset pesticide residue parameter range by an operator and matching the preset pesticide residue parameter range with the quick detection data, and when the quick detection data is not in the preset pesticide residue parameter range, the quick detection data is sent to the data analysis module; the data analysis module is used for receiving the quick check data sent by the configuration parameter module and analyzing the quick check data to obtain corresponding verification personnel; the data analysis module sends the verification personnel and the quick detection data to the data verification module and the mobile phone terminals of the verification personnel at the same time; the data verification module is used for verifying the quick check data by the verification personnel and utilizing a formula QR_Yi＝(1/T_Yi)×c1+1/G_Yi×c2+P_YiObtaining the detection value QR of the primary instrument by the x c3_Yi(ii) a Selecting the primary instrument with the maximum instrument inspection value as the selected instrument, and verifying the personnelThe inside crops position that includes of data is examined soon to the reacing and carries out the data verification of examining soon and with the data transmission who verifies to examine the platform soon through selecting the instrument, through will examine soon that the data carries out block chain processing and carry out the analysis verification to examining soon, rationally select corresponding verification personnel and pesticide residue rapid detection appearance to examine the data soon and verify, improve the efficiency that the data was examined soon and verify, thereby judge through verifying the data true and false of carrying on the data fast examining, improve the authenticity of data.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (5)

1. A test data analysis and verification system is characterized by comprising a data collection module, a database, a quick test platform, a configuration parameter module, a data analysis module and a data verification module;

the data collection module is used for receiving the quick detection data, processing the quick detection data through the block chain and then sending the quick detection data to the database for storage; the quick detection data comprises positions of the pesticide residues corresponding to the crops;

the rapid inspection platform is used for acquiring rapid inspection data in the database and sending the rapid inspection data to the configuration parameter module, the configuration parameter module is used for setting a preset pesticide residue parameter range by an operator and matching the preset pesticide residue parameter range with the rapid inspection data, and when the rapid inspection data is not in the preset pesticide residue parameter range, the rapid inspection data is sent to the data analysis module;

the data analysis module is used for receiving the quick check data sent by the configuration parameter module and analyzing the quick check data to obtain corresponding verification personnel, and the data analysis module sends the verification personnel and the quick check data to the data verification module and mobile phone terminals of the verification personnel at the same time; the data verification module is used for verifying the quick check data by a verifier, and the specific verification steps are as follows:

the method comprises the following steps: the method comprises the steps that a verifier sends a verification instruction and a current position to a data verification module through a mobile phone terminal, and after the data verification module receives the verification instruction and the current position, the data verification module draws a circle with the current position as a circle center and the circle center and a preset radius to obtain a screening range;

step two: acquiring a pesticide residue tacheometer with the position within the screening range, marking the pesticide residue tacheometer as a primary selection instrument, and marking the primary selection instrument as Yi, i is 1, 2, … … and n;

step three: calculating the distance difference between the position of the initially selected instrument and the current position of the verifier to obtain the instrument distance and marking as G_Yi；

Step four: calculating the time difference between the production time of the primary selection instrument and the current time to obtain the production time of the primary selection instrument and marking the production time as T_Yi(ii) a Carrying out dequantization processing on the instrument spacing and the production duration and taking the numerical values of the instrument spacing and the production duration;

step five: using formula QR_Yi＝(1/T_Yi)×c1+1/G_Yi×c2+P_YiObtaining the detection value QR of the primary instrument by the x c3_Yi(ii) a Wherein c1, c2 and c3 are all preset proportionality coefficients; p_YiThe total verification times of the primary selected instrument are shown;

step six: selecting the primary instrument with the largest instrument inspection value as a selected instrument, acquiring a holder of the selected instrument and sending a verification transfer instruction to a mobile phone terminal of the holder, and when the holder receives the verification transfer instruction through the mobile phone terminal and sends an agreement instruction and a position to a data verification module through the mobile phone terminal, the data verification module receives the instruction and the position and sends the position to a mobile phone terminal of a verifier;

step seven: after the verifying personnel receives the position through the mobile phone terminal and arrives at the position, the verifying personnel and the holder simultaneously send a handover instruction and a current position to the data verification module through the mobile phone terminal, the data verification module receives the handover instruction and the current position and matches the current position, after the matching is successful, the holder sends the selected instrument to the hand of the verifying personnel, shoots photos of the verifying personnel and the selected instrument through the mobile phone terminal, and sends the photos to the data verification module;

step eight: the method comprises the steps that a verifier arrives at a position of an agricultural crop included in quick inspection data, carries out quick inspection data verification through a selected instrument and sends verified data to a quick inspection platform, the quick inspection platform receives the quick inspection data sent by the verifier and sends the quick inspection data to a database for updating and storing, and meanwhile, the quick inspection platform data marks the time when the quick inspection data sent by the verifier is received as the verification completion time of the verifier;

step nine: the method comprises the steps that a verifier sends a selected instrument to a position of a holder and sends the selected instrument to the holder, then the verifier sends a verification completion instruction to a data verification module through a mobile phone terminal, the data verification module sends a verification instruction to the mobile phone terminal of the holder after receiving the verification completion instruction, and after the holder receives the verification instruction through the mobile phone terminal, the holder sends a confirmation instruction to the data verification module through the mobile phone terminal, so that the verification frequency of the verifier is increased by one, and the total verification frequency of the selected instrument is increased by one;

step ten: the data verification module marks the time when the verification personnel and the quick check data are received as the receiving time; calculating the time difference between the receiving time and the verification completion time to obtain the single verification time length of the verification personnel and recording the single verification time length as YT, and obtaining the verification efficiency value of the verification personnel by using a formula XL (absolute YT-YB absolute x c 4), wherein c4 is a preset conversion time coefficient; YB presetting a threshold value for verification time; and the data verification module sends the verification efficiency value to the quick detection platform for storage.

2. The inspection data analyzing and verifying system of claim 1, wherein the data analyzing module analyzes and obtains corresponding verifying personnel by the specific steps of:

s1: the data analysis module acquires registration information of an inspector and a verification efficiency value of the inspector, which are stored in the quick inspection platform;

s2: marking the inspector as Rj, j ═ 1, 2, … …, n; to the inspectorThe mobile phone terminal sends a position acquisition instruction to acquire the current real-time position of the inspector, and carries out position difference calculation on the current real-time position and the crop position contained in the quick inspection data received by the data analysis module to acquire an object distance and mark the object distance as W_Rj；

S3: setting the number of verifications of the inspector to be E_Rj；

S4: summing all the verification efficiency values of the inspectors, averaging to obtain an efficiency average value, and marking the efficiency average value as F_Rj；

S5: the object distance, the verification times and the efficiency mean value are subjected to dequantization treatment and numerical values are obtained, and a formula WH is utilized_Rj＝(1/W_Rj)×c5+E_Rj×c6+F_RjObtaining the checking value WH of the inspector by the Xc 7_Rj(ii) a Wherein c5, c6 and c7 are all preset proportionality coefficients;

s6: and marking the inspector with the maximum inspection value as the verifier.

3. The system for analyzing and verifying the inspection data as claimed in claim 1, further comprising a registration module for submitting registration information to the inspector through the mobile phone terminal for registration and sending the registration information of successful registration to the rapid inspection platform for storage, wherein the registration information includes name, mobile phone number, identification number and time of enrollment of the inspector.

4. An inspection data analysis and verification system according to claim 1, wherein the quick test platform further comprises a data storage unit; the data storage unit is used for storing the number and the position of the pesticide residue tachymeter and the name and the mobile phone number of a holder.

5. The inspection data analysis and verification system according to claim 1, wherein the data collection module sends the quick inspection data to the database for storage after processing through the block chain by the specific process of: carrying out data chaining on the inspection data, then compressing and encrypting the inspection data, and then sending the inspection data to a database for storage and generating an intelligent contract; the intelligent contract automatically executes and updates the quick check data; and the database establishes alliance link connection with the quick inspection data.

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