CN111949625B - Parallel data synchronous uploading system for quick detection mobile phone end - Google Patents

Abstract

The invention discloses a parallel data synchronous uploading system for a quick-check mobile phone end, which is used for solving the problems that the existing data synchronous uploading system cannot effectively screen and verify data pieces, cannot reasonably distribute corresponding transmission modes to parameter values and reasonably distribute the parameter values to corresponding storage equipment for storage; the system comprises a data analysis module, a data storage module, a data verification module, a synchronous uploading module and a database; according to the invention, through verifying and deleting the data, the error data can be removed conveniently, and the accuracy of data storage is improved; the synchronous uploading value is analyzed and combined with the preset value, the safety storage value and the synchronous uploading value to obtain the uploading value, optimal equipment is reasonably selected through a formula to store the uploading value, and finally the parallel uploading value is obtained through analysis, so that the parameter value is transmitted to the optimal equipment in parallel or in series to be stored, and the reasonable uploading and storage of the parameter value are improved.

Description

Parallel data synchronous uploading system for quick detection mobile phone end

Technical Field

The invention relates to the technical field of data synchronous uploading, in particular to a parallel data synchronous uploading system for a quick detection mobile phone end.

Background

The quick detection mobile phone end can collect specific parameter values through various detection instruments or tools, and record and store original data; however, the existing data synchronous uploading system cannot effectively screen and verify data pieces, and cannot reasonably allocate parameter values to corresponding transmission modes and reasonably allocate the parameter values to corresponding storage devices for storage.

Disclosure of Invention

The invention aims to provide a parallel data synchronous uploading system for a quick-check mobile phone end, which aims to solve the problems that the existing data synchronous uploading system can not effectively screen and verify data pieces, can not reasonably distribute corresponding transmission modes to parameter values and reasonably distribute the parameter values into corresponding storage equipment for storage; by verifying and deleting the data, the error data can be removed conveniently, and the accuracy of data storage is improved; the synchronous uploading value is analyzed and combined with the preset value, the safety storage value and the synchronous uploading value to obtain the uploading value, optimal equipment is reasonably selected through a formula to store the uploading value, and finally the parallel uploading value is obtained through analysis, so that the parameter value is transmitted to the optimal equipment in parallel or in series to be stored, and the reasonable uploading and storage of the parameter value are improved.

The purpose of the invention can be realized by the following technical scheme: a parallel data synchronous uploading system for a quick detection mobile phone end comprises a data analysis module, a data storage module, a data verification module, a synchronous uploading module, a database and a plurality of quick detection mobile phone ends;

the quick detection mobile phone end is in communication connection with the detection instrument and the detection tool and is used for collecting specific parameter values generated by the detection instrument and the detection tool; the quick detection mobile phone end sends the acquired parameter values to a data analysis module; the database consists of a plurality of storage devices and is used for storing parameter values;

the data analysis module is used for analyzing the parameter values, and the specific analysis steps are as follows:

the method comprises the following steps: acquiring a preset range of parameters corresponding to a detection instrument or a detection tool, and matching the preset range with parameter values;

step two: when the parameter value is in the preset range, marking the parameter value as a synchronous uploading value and sending the synchronous uploading value to a synchronous uploading module;

step three: when the parameter value is not in the preset range any more, the parameter value is marked as a check value, and then the check value and the number of the corresponding detection instrument and detection tool are sent to the data verification module;

step four: when the data verification module sends a normal instruction to the data analysis module, the verification numerical value is marked as a synchronous uploading numerical value, and when the data verification module sends an error instruction to the data analysis module, the verification numerical value is deleted;

the synchronous uploading module is used for distributing the synchronous uploading value to the corresponding storage equipment for storage, and the specific steps are as follows:

s1: marking the synchronous uploading value as Pi, i is 1, … … and n; acquiring the number of the detection instrument or the detection tool corresponding to the synchronous uploading value, setting that all the detection instruments and the detection tools correspond to a preset value, matching the number of the detection instrument or the detection tool corresponding to the synchronous uploading value with all the detection instruments and the detection tools to a preset value, and marking the preset value as Y_Pi；

S2: the secure stored value of the synchronously uploaded value is obtained and marked as R_Pi(ii) a Setting the magnitude of the synchronous uploading value to be K_Pi；

S3: the values of the preset value, the safety storage value and the synchronous uploading value are subjected to dequantization processing, the values are obtained, and a formula M is utilized_Pi＝Y_Pi×b1+R_Pi×b2+K_PiObtaining upload value M of synchronous upload value by x b3_Pi(ii) a Wherein b1, b2 and b3 are all preset proportionality coefficients;

s4: acquiring a storage device and a corresponding storage range; converting the uploaded value into a storage matching value according to a certain proportion, and marking the storage equipment as primary selection equipment when the storage matching value belongs to the storage range of the storage equipment; acquiring the residual memory and the rated memory of the primary selection equipment; marking the primary equipment with the residual memory larger than the uploading value as preferred equipment, and representing the preferred equipment by using a symbol Cj;

s5: the cable length between the statistically preferred device and the synchronous upload module is marked X_Cj(ii) a Marking the remaining memory of the preferred device as W_CjNominal memory is marked as E_Cj(ii) a Dequantizing the cable length, the residual memory and the rated memory and taking the numerical values of the dequantization result;

s6: using the formula H_Cj＝(1/X_Cj)×b4+W_Cj×b5+E_CjObtaining x b6 synchronous coincidence value H of preferred equipment_Cj(ii) a Wherein b4, b5 and b6 are all preset proportionality coefficients;

s7: selecting the optimal equipment with the maximum synchronous coincidence value and marking the optimal equipment as the selected equipment;

s8: marking the length of the cable between the selected equipment and the synchronous uploading module as X_Cd(ii) a The upload value mark corresponding to the synchronous upload value is M_Pd(ii) a The length of the cable and the uploaded value are dequantized and the numerical value is obtained;

using the formula G ═ X_Cd×b7+M_PdObtaining a parallel uploading value G by x b 8; when the parallel uploading value G is larger than a set threshold value, the synchronous uploading value is transmitted to the selected equipment in parallel through the cable; if not, the synchronous uploading numerical value is transmitted to the selected equipment in series through the cable;

the data verification module is used for distributing the verification values to corresponding inspectors to perform data verification; the data storage module is used for storing the serial numbers, the names, the positions and the serial numbers of the selected equipment of the detection instruments and the detection tools, the corresponding value ranges, the registration information of inspectors and the total inspection times.

Preferably, the data verification module performs data verification specifically as follows:

SS 1: the inspector is marked as Rk, k is 1, … …, n; sending a position acquisition instruction to a mobile phone terminal of an inspector and acquiring the current position of the inspector; obtaining the position of the detecting instrument or the detecting tool corresponding to the checking value and calculating the position distance between the position and the position of the inspectorThe spacing value is obtained and marked as J_Rk；

SS 2: calculating the time difference between the attendance time of the inspector and the current time of the system to obtain the attendance time of the inspector, and marking the attendance time as T_RkThe unit is month;

SS 3: setting the age of the examiner to N_Rk(ii) a Carrying out dequantization processing on the interval value, the working time and the age of the inspector and taking the numerical values of the interval value, the working time and the age;

SS 4: using formulas

Obtaining a test value T of a tester_Rk；

SS 5: the data verification module sends the verification value and the serial numbers, names and positions of the detection instrument and the detection tool to the mobile phone terminal of the inspector with the maximum verification value;

SS 6: after receiving the check value and the numbers, names and positions of the detection instrument and the detection tool, the inspector reconfirms and detects the detection instrument and the detection tool and inputs a normal instruction or an error instruction to the data verification module through the mobile phone terminal; and the data verification module receives the normal instruction or the error instruction and then sends the normal instruction or the error instruction to the data analysis module.

Preferably, the system also comprises a registration login module, wherein the registration login module is used for an inspector to submit registration information through a mobile phone terminal for registration and send the registration information which is successfully registered to the data storage module; the registration information includes the name, phone number, time of employment, and age of the inspector.

Preferably, the database also comprises a collection unit and an analysis unit; the acquisition unit is used for acquiring the equipment information of the storage equipment and sending the equipment information to the analysis unit; the equipment information comprises the model of the storage equipment, the residual memory, the rated memory and the installation time; the analysis unit is used for analyzing the device information of the storage device to obtain the storage grade of the storage device, and the specific analysis steps are as follows:

SSS 1: setting the residual memory of the storage device as W; the nominal memory is marked as E; calculating the time difference between the installation time of the storage equipment and the current time of the system to obtain the installation time of the storage equipment, and marking the installation time as A;

SSS 2: dequantizing the residual memory, the rated memory and the installation time of the storage device, taking the numerical values of the residual memory, the rated memory and the installation time, and acquiring a storage integral value DJ of the storage device by using a formula DJ-W-d 1+ E-d 2-A-d 3;

SSS 3: setting the storage grade as DV; v ═ 1, … …, 10; each storage grade corresponds to a value range and a storage range, and when the storage integral value DJ is in the value range of the DV, the storage grade of the storage equipment is the DV;

SSS 4: and the analysis unit sends the storage grade of the storage equipment to the data storage module for storage.

Compared with the prior art, the invention has the beneficial effects that:

1. the quick detection mobile phone end is in communication connection with the detection instrument and the detection tool and is used for collecting specific parameter values generated by the detection instrument and the detection tool, the data analysis module is used for analyzing the parameter values, acquiring a preset range of parameters corresponding to the detection instrument or the detection tool and matching the preset range with the parameter values, when the parameter values are in the preset range, the parameter values are marked as synchronous uploading values and sent to the synchronous uploading module, when the parameter values are not in the preset range any more, the parameter values are marked as check values, and then the check values and the numbers of the detection instrument and the detection tool corresponding to the check values are sent to the data verification module; when the data verification module sends a normal instruction to the data analysis module, the verification numerical value is marked as a synchronous uploading numerical value, and when the data verification module sends an error instruction to the data analysis module, the verification numerical value is deleted; by verifying and deleting the data, the error data can be removed conveniently, and the accuracy of data storage is improved;

2. the synchronous uploading module is used for distributing the synchronous uploading value to corresponding storage equipment for storage, carrying out dequantization processing on the size of the preset value, the safety storage value and the synchronous uploading value and taking the value of the dequantization processing, obtaining the uploading value of the synchronous uploading value by using a formula, obtaining the synchronous matching value of the optimized equipment by using the formula, and finally obtaining the parallel uploading value by using the formula; when the parallel uploading value is larger than a set threshold value, the synchronous uploading value is transmitted to the selected equipment in parallel through the cable; if not, the synchronous uploading numerical value is transmitted to the selected equipment in series through the cable; the synchronous uploading value is analyzed and combined with the preset value, the safety storage value and the synchronous uploading value to obtain the uploading value, optimal equipment is reasonably selected through a formula to store the uploading value, and finally the parallel uploading value is obtained through analysis, so that the parameter value is transmitted to the optimal equipment in parallel or in series to be stored, and the reasonable uploading and storage of the parameter value are 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, a parallel data synchronous uploading system for a quick check mobile phone terminal includes a data analysis module, a data storage module, a data verification module, a synchronous uploading module, a registration and login module, a database and a plurality of quick check mobile phone terminals;

the quick detection mobile phone end is in communication connection with the detection instrument and the detection tool and is used for collecting specific parameter values generated by the detection instrument and the detection tool; the quick detection mobile phone end sends the acquired parameter values to the data analysis module; the database consists of a plurality of storage devices and is used for storing parameter values; the detection instrument and the detection tool comprise a pesticide residue rapid tester GNSPRD-32, a pesticide residue rapid tester GNSPR-12N and the like;

the data analysis module is used for analyzing the parameter values, and the specific analysis steps are as follows:

the method comprises the following steps: acquiring a preset range of parameters corresponding to a detection instrument or a detection tool, and matching the preset range with parameter values;

step two: when the parameter value is in the preset range, marking the parameter value as a synchronous uploading value and sending the synchronous uploading value to a synchronous uploading module;

step three: when the parameter value is not in the preset range any more, the parameter value is marked as a check value, and then the check value and the number of the corresponding detection instrument and detection tool are sent to the data verification module;

step four: when the data verification module sends a normal instruction to the data analysis module, the verification numerical value is marked as a synchronous uploading numerical value, and when the data verification module sends an error instruction to the data analysis module, the verification numerical value is deleted;

the synchronous uploading module is used for distributing the synchronous uploading value to the corresponding storage equipment for storage, and the specific steps are as follows:

s1: marking the synchronous uploading value as Pi, i is 1, … … and n; acquiring the number of the detection instrument or the detection tool corresponding to the synchronous uploading value, setting that all the detection instruments and the detection tools correspond to a preset value, matching the number of the detection instrument or the detection tool corresponding to the synchronous uploading value with all the detection instruments and the detection tools to a preset value, and marking the preset value as Y_Pi；

S2: the secure stored value of the synchronously uploaded value is obtained and marked as R_Pi(ii) a Setting the magnitude of the synchronous uploading value to be K_Pi；

S3: the values of the preset value, the safety storage value and the synchronous uploading value are subjected to dequantization processing, the values are obtained, and a formula M is utilized_Pi＝Y_Pi×b1+R_Pi×b2+K_PiObtaining upload value M of synchronous upload value by x b3_Pi(ii) a Wherein b1, b2 and b3 are all preset proportionality coefficients;

s4: acquiring a storage device and a corresponding storage range; converting the uploaded value into a storage matching value according to a certain proportion, and marking the storage equipment as primary selection equipment when the storage matching value belongs to the storage range of the storage equipment; acquiring the residual memory and the rated memory of the primary selection equipment; marking the primary equipment with the residual memory larger than the uploading value as preferred equipment, and representing the preferred equipment by using a symbol Cj;

s5: the cable length between the statistically preferred device and the synchronous upload module is marked X_Cj(ii) a Marking the remaining memory of the preferred device as W_CjNominal memory is marked as E_Cj(ii) a Dequantizing the cable length, the residual memory and the rated memory and taking the numerical values of the dequantization result;

s6: using the formula H_Cj＝(1/X_Cj)×b4+W_Cj×b5+E_CjObtaining x b6 synchronous coincidence value H of preferred equipment_Cj(ii) a Wherein b4, b5 and b6 are all preset proportionality coefficients;

s7: selecting the optimal equipment with the maximum synchronous coincidence value and marking the optimal equipment as the selected equipment;

s8: marking the length of the cable between the selected equipment and the synchronous uploading module as X_Cd(ii) a The upload value mark corresponding to the synchronous upload value is M_Pd(ii) a The length of the cable and the uploaded value are dequantized and the numerical value is obtained;

using the formula G ═ X_Cd×b7+M_PdObtaining a parallel uploading value G by x b 8; when the parallel uploading value G is larger than a set threshold value, the synchronous uploading value is transmitted to the selected equipment in parallel through the cable; if not, the synchronous uploading numerical value is transmitted to the selected equipment in series through the cable;

the data verification module is used for distributing the verification values to corresponding inspectors to perform data verification; the data storage module is used for storing the serial numbers, the names, the positions and the serial numbers of the selected equipment of the detection instruments and the detection tools, the corresponding value ranges, the registration information of inspectors and the total inspection times.

The data verification module performs data verification specifically as follows:

SS 1: the inspector is marked as Rk, k is 1, … …, n; sending a position acquisition instruction to a mobile phone terminal of an inspector and acquiring the current position of the inspector; obtaining check value pairsThe position of the instrument or tool is detected and the distance between the position and the position of the inspector is calculated to obtain a distance value and marked as J_Rk；

SS 2: calculating the time difference between the attendance time of the inspector and the current time of the system to obtain the attendance time of the inspector, and marking the attendance time as T_RkThe unit is month;

SS 3: setting the age of the examiner to N_Rk(ii) a Carrying out dequantization processing on the interval value, the working time and the age of the inspector and taking the numerical values of the interval value, the working time and the age;

SS 4: using formulas

Obtaining a test value T of a tester_Rk(ii) a b7, b8 and b9 are all preset proportionality coefficients; the larger the distance value obtained by a formula is, the larger the inspection value is, the higher the probability that the inspector verifies the check value is;

SS 5: the data verification module sends the verification value and the serial numbers, names and positions of the detection instrument and the detection tool to the mobile phone terminal of the inspector with the maximum verification value;

SS 6: after receiving the check value and the numbers, names and positions of the detection instrument and the detection tool, the inspector reconfirms and detects the detection instrument and the detection tool and inputs a normal instruction or an error instruction to the data verification module through the mobile phone terminal; the data verification module receives the normal instruction or the error instruction and then sends the normal instruction or the error instruction to the data analysis module;

the data verification module also comprises a data recording unit and a recording analysis unit; the data recording unit is used for acquiring the sending time of the verification value sent by the data verification module, the serial numbers, the names and the positions of the detection instrument and the detection tool and the receiving time of the received normal instruction or the received error instruction and sending the sending time to the record analysis unit;

the recording and analyzing unit is used for analyzing the inspection idling value of an inspector, and comprises the following specific analyzing steps:

l1: converting the distance value of the inspector into comparison duration according to a certain proportion; calculating the time difference between the sending time and the receiving time to obtain the processing duration;

l2: when the processing time length is longer than the comparison time length, the detection idling value is calculated; the method specifically comprises the following steps:

l21: setting the processing time length to be U1 and the comparison time length to be U2;

l22: setting a time proportionality coefficient as lambdan; n is a positive integer; lambda 1<……<λ n; λ n corresponds to a time range (u)_n-1,u_n](ii) a Wherein u is₀Is 0; u. of_nMaximum; when U1-U2E (U)_n-1,u_n]Then, the single idling value UD of the inspector is obtained by using the formula UD ═ (U1-U2) × λ n;

l23: summing all single idle and slow values UD of the inspector to obtain an inspection idle and slow value of the inspector;

l3: when the detection idling value is larger than the set threshold value, generating a deletion instruction of the inspector and sending the deletion instruction to the data storage module, and deleting the registration information of the inspector after the data storage module receives the deletion instruction of the inspector;

the registration login module is used for an inspector to submit registration information through the mobile phone terminal for registration and send the registration information which is successfully registered to the data storage module; the registration information includes the inspector's name, phone number, time of employment, and age.

The database also comprises a collection unit and an analysis unit; the acquisition unit is used for acquiring the equipment information of the storage equipment and sending the equipment information to the analysis unit; the equipment information comprises the model of the storage equipment, the residual memory, the rated memory and the installation time; the analysis unit is used for analyzing the device information of the storage device to obtain the storage grade of the storage device, and the specific analysis steps are as follows:

SSS 1: setting the residual memory of the storage device as W; the nominal memory is marked as E; calculating the time difference between the installation time of the storage equipment and the current time of the system to obtain the installation time of the storage equipment, and marking the installation time as A;

SSS 2: dequantizing the residual memory, the rated memory and the installation time of the storage device, taking the numerical values of the residual memory, the rated memory and the installation time, and acquiring a storage integral value DJ of the storage device by using a formula DJ-W-d 1+ E-d 2-A-d 3;

SSS 3: setting the storage grade as DV; v ═ 1, … …, 10; each storage grade corresponds to a value range and a storage range, and when the storage integral value DJ is in the value range of the DV, the storage grade of the storage equipment is the DV;

SSS 4: the analysis unit sends the storage grade of the storage equipment to the data storage module for storage;

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 mobile phone rapid detection system is used, the rapid detection mobile phone end is in communication connection with a detection instrument and a detection tool and is used for collecting specific parameter values generated by the detection instrument and the detection tool, the data analysis module is used for analyzing the parameter values, acquiring a preset range of parameters corresponding to the detection instrument or the detection tool and matching the preset range with the parameter values, when the parameter values are in the preset range, marking the parameter values as synchronous uploading values and sending the synchronous uploading values to the synchronous uploading module, when the parameter values are not in the preset range any more, marking the parameter values as check values, and then sending the check values and the numbers of the detection instrument and the detection tool corresponding to the check values to the data verification module; when the data verification module sends a normal instruction to the data analysis module, the verification numerical value is marked as a synchronous uploading numerical value, and when the data verification module sends an error instruction to the data analysis module, the verification numerical value is deleted; by verifying and deleting the data, the error data can be removed conveniently, and the accuracy of data storage is improved;

the synchronous uploading module is used for distributing the synchronous uploading numerical value to the corresponding storage equipment for storage, carrying out dequantization processing on the preset value, the safety storage value and the synchronous uploading numerical value and taking the numerical value, and utilizing a formula M_Pi＝Y_Pi×b1+R_Pi×b2+K_PiObtaining the upload value of the synchronous upload value by x b3, and then using the formula H_Cj＝(1/X_Cj)×b4+W_Cj×b5+E_CjObtaining x b6 synchronous coincidence value H of preferred equipment_CjFinally, the formula G ═ X is used_Cd×b7+M_PdObtaining a parallel uploading value G by x b 8; when the parallel uploading value G is larger than a set threshold value, the synchronous uploading value is transmitted to the selected equipment in parallel through the cable; if not, the synchronous uploading numerical value is transmitted to the selected equipment in series through the cable; the synchronous uploading value is analyzed and combined with the preset value, the safety storage value and the synchronous uploading value to obtain the uploading value, optimal equipment is reasonably selected through a formula to store the uploading value, and finally the parallel uploading value is obtained through analysis, so that the parameter value is transmitted to the optimal equipment in parallel or in series to be stored, and the reasonable uploading and storage of the parameter value are improved.

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 (4)

1. A parallel data synchronous uploading system for a quick detection mobile phone end is characterized by comprising a data analysis module, a data storage module, a data verification module, a synchronous uploading module, a database and a plurality of quick detection mobile phone ends;

the quick detection mobile phone end is in communication connection with the detection instrument and the detection tool and is used for collecting specific parameter values generated by the detection instrument and the detection tool; the quick detection mobile phone end sends the acquired parameter values to a data analysis module; the database consists of a plurality of storage devices and is used for storing parameter values;

the data analysis module is used for analyzing the parameter values, and the specific analysis steps are as follows:

the method comprises the following steps: acquiring a preset range of parameters corresponding to a detection instrument or a detection tool, and matching the preset range with parameter values;

step two: when the parameter value is in the preset range, marking the parameter value as a synchronous uploading value and sending the synchronous uploading value to a synchronous uploading module;

step three: when the parameter value is not in the preset range, marking the parameter value as a check value, and then sending the check value and the number of the corresponding detection instrument and detection tool to the data verification module;

step four: when the data verification module sends a normal instruction to the data analysis module, the verification numerical value is marked as a synchronous uploading numerical value, and when the data verification module sends an error instruction to the data analysis module, the verification numerical value is deleted;

the synchronous uploading module is used for distributing the synchronous uploading value to the corresponding storage equipment for storage, and the specific steps are as follows:

s1: marking the synchronous uploading value as Pi, i is 1, … … and n; acquiring the number of the detection instrument or the detection tool corresponding to the synchronous uploading value, setting that all the detection instruments and the detection tools correspond to a preset value, matching the number of the detection instrument or the detection tool corresponding to the synchronous uploading value with all the detection instruments and the detection tools to a preset value, and marking the preset value as Y_Pi；

S2: the secure stored value of the synchronously uploaded value is obtained and marked as R_Pi(ii) a Setting the magnitude of the synchronous uploading value to be K_Pi；

S3: the values of the preset value, the safety storage value and the synchronous uploading value are subjected to dequantization processing, the values are obtained, and a formula M is utilized_Pi＝Y_Pi×b1+R_Pi×b2+K_PiObtaining upload value M of synchronous upload value by x b3_Pi(ii) a Wherein b1, b2 and b3 are all preset proportionality coefficients;

s4: acquiring a storage device and a corresponding storage range; converting the uploaded value into a storage matching value according to a certain proportion, and marking the storage equipment as primary selection equipment when the storage matching value belongs to the storage range of the storage equipment; acquiring the residual memory and the rated memory of the primary selection equipment; marking the primary equipment with the residual memory larger than the uploading value as preferred equipment, and representing the preferred equipment by using a symbol Cj;

s5: the cable length between the statistically preferred device and the synchronous upload module is marked X_Cj(ii) a Marking the remaining memory of the preferred device as W_CjNominal memory is marked as E_Cj(ii) a Dequantizing the cable length, the residual memory and the rated memory and taking the numerical values of the dequantization result;

s6: using the formula H_Cj＝(1/X_Cj)×b4+W_Cj×b5+E_CjObtaining x b6 synchronous coincidence value H of preferred equipment_Cj(ii) a Wherein b4, b5 and b6 are all preset proportionality coefficients;

s7: selecting the optimal equipment with the maximum synchronous coincidence value and marking the optimal equipment as the selected equipment;

s8: marking the length of the cable between the selected equipment and the synchronous uploading module as X_Cd(ii) a The upload value mark corresponding to the synchronous upload value is M_Pd(ii) a The length of the cable and the uploaded value are dequantized and the numerical value is obtained;

using the formula G ═ X_Cd×b7+M_PdObtaining a parallel uploading value G by x b 8; when the parallel uploading value G is larger than a set threshold value, the synchronous uploading value is transmitted to the selected equipment in parallel through the cable; if not, the synchronous uploading numerical value is transmitted to the selected equipment in series through the cable;

the data verification module is used for distributing the verification values to corresponding inspectors to perform data verification; the data storage module is used for storing the serial numbers, the names, the positions and the serial numbers of the selected equipment of the detection instruments and the detection tools, the corresponding value ranges, the registration information of inspectors and the total inspection times.

2. The system for synchronously uploading parallel data for the mobile phone terminal of the rapid inspection according to claim 1, wherein the data verification module performs data verification specifically as follows:

SS 1: the inspector is marked as Rk, k is 1, … …, n; sending a position acquisition instruction to a mobile phone terminal of an inspector and acquiring the current position of the inspector; obtaining a check numberThe position of the corresponding detection instrument or detection tool is calculated according to the position and the distance between the position of the corresponding detection instrument or detection tool and the position of the inspector to obtain a distance value which is marked as J_Rk；

SS 2: calculating the time difference between the attendance time of the inspector and the current time of the system to obtain the attendance time of the inspector, and marking the attendance time as T_RkThe unit is month;

SS 3: setting the age of the examiner to N_Rk(ii) a Carrying out dequantization processing on the interval value, the working time and the age of the inspector and taking the numerical values of the interval value, the working time and the age;

SS 4: using formulas

Obtaining a test value T of a tester_Rk；

SS 5: the data verification module sends the verification value and the serial numbers, names and positions of the detection instrument and the detection tool to the mobile phone terminal of the inspector with the maximum verification value;

SS 6: after receiving the check value and the numbers, names and positions of the detection instrument and the detection tool, the inspector reconfirms and detects the detection instrument and the detection tool and inputs a normal instruction or an error instruction to the data verification module through the mobile phone terminal; and the data verification module receives the normal instruction or the error instruction and then sends the normal instruction or the error instruction to the data analysis module.

3. The system for synchronously uploading the parallel data for the quick test mobile phone terminal according to claim 1, further comprising a registration login module, wherein the registration login module is used for an inspector to submit registration information through a mobile phone terminal for registration and send the registration information of successful registration to the data storage module; the registration information includes the name, phone number, time of employment, and age of the inspector.

4. The system for synchronously uploading parallel data for the mobile phone terminal of the quick test as claimed in claim 1, wherein the database further comprises a collection unit and an analysis unit; the acquisition unit is used for acquiring the equipment information of the storage equipment and sending the equipment information to the analysis unit; the equipment information comprises the model of the storage equipment, the residual memory, the rated memory and the installation time; the analysis unit is used for analyzing the device information of the storage device to obtain the storage grade of the storage device, and the specific analysis steps are as follows:

SSS 1: setting the residual memory of the storage device as W; the nominal memory is marked as E; calculating the time difference between the installation time of the storage equipment and the current time of the system to obtain the installation time of the storage equipment, and marking the installation time as A;

SSS 2: dequantizing the residual memory, the rated memory and the installation time of the storage device, taking the numerical values of the residual memory, the rated memory and the installation time, and acquiring a storage integral value DJ of the storage device by using a formula DJ-W-d 1+ E-d 2-A-d 3;

SSS 3: setting the storage grade as DV; v ═ 1, … …, 10; each storage grade corresponds to a value range and a storage range, and when the storage integral value DJ is in the value range of the DV, the storage grade of the storage equipment is the DV;

SSS 4: and the analysis unit sends the storage grade of the storage equipment to the data storage module for storage.

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