CN111367946B - Intelligent office educational administration management system based on big data - Google Patents

Abstract

The invention discloses an intelligent office educational administration management system based on big data, which is used for solving the problems that the score input is slow and the efficiency is low when the hands of a teacher or a manager are insufficient because the teacher or the manager manually inputs after the end-of-term examination of the conventional office educational administration management system; the system comprises a shooting module, a segmentation module, a task issuing module, a server, a management verification module, a score counting module and a reservation query module; according to the invention, the photographed and corrected student test paper pictures are divided, randomly disordered and task issued, students receive tasks through the mobile phone terminal and input basic student information and total scores on the pictures through the mobile phone terminal, so that the score input efficiency is improved, students can conveniently help other students to inquire scores through reservation inquiry, and the problem that a server cannot normally work and the score inquiry is slow due to the fact that too many students log in a educational administration management system at the same time during score inquiry is avoided.

Description

Intelligent office educational administration management system based on big data

Technical Field

The invention relates to the technical field of educational administration management, in particular to an intelligent office educational administration management system based on big data.

Background

Along with the progress of society and the continuous development of education cause, the scale of schools is continuously enlarged, the teaching task is heavier and heavier, and the work of school administration is more complicated. Managers at all levels of schools often have affairs to inform teachers of different teaching and research groups, and one school teacher often needs dozens of teachers, hundreds of teachers and thousands of teachers; the educational administration system is an indispensable branch in a school website, plays a vital role, not only can be used for students to inquire scores, select courses and other operations, but also can be used for students to evaluate and teach in the educational administration system.

Disclosure of Invention

The invention aims to provide an intelligent office educational administration management system based on big data, which is used for solving the problems that the score is input slowly and the efficiency is low due to insufficient hands of a teacher or a manager when the conventional office educational administration management system adopts the manual input of the teacher or the manager after an end-of-term examination;

according to the invention, the photographed and corrected student test paper pictures are divided, randomly disordered and task issued, students receive tasks through the mobile phone terminal and input basic student information and total scores on the pictures through the mobile phone terminal, so that the score input efficiency is improved, students can conveniently help other students to inquire scores through reservation inquiry, and the problem that a server cannot normally work and the score inquiry is slow due to the fact that too many students log in a educational administration management system at the same time during score inquiry is avoided.

The purpose of the invention can be realized by the following technical scheme: an intelligent office educational administration management system based on big data comprises a shooting module, a segmentation module, a task issuing module, a student login module, a management login module, a server, a management verification module, a score counting module and an appointment inquiry module;

the shooting module is used for shooting the corrected student test paper pictures and sending the test paper pictures to the server; the test paper picture comprises basic information and total scores of students; the basic information includes name, class and school number; the segmentation module is used for acquiring and segmenting the test paper picture in the server, and the steps are as follows:

the method comprises the following steps: marking the test paper pictures as Fi, i is 1, … … and n;

step two: dividing the test paper picture into two pictures which are respectively marked as AFi and BFi; the picture of the AFi only comprises the basic information of students; only the total score of the students is included in the picture of the BFi;

step three: the segmentation module sends the segmented pictures AFi and BFi to the task issuing module;

the task issuing module is used for issuing tasks and distributing the tasks; the method comprises the following specific steps:

s1: randomly disordering and equally dividing the received divided pictures AFi and BFi into a plurality of statistical tasks, and marking the statistical tasks as Rj, wherein j is 1, … … and n; the statistical task comprises a plurality of pictures AFi and BFi;

s2: a student accesses the task issuing module through a mobile phone terminal and clicks a statistical task to obtain the task;

s3: the task issuing module calculates the task value of the student, and the specific calculation steps are as follows:

SS 1: setting the student as Rk, k is 1, … …, n; setting the total number of task pickup times of students as B_Rk(ii) a Setting the total value of task integration as J_Rk；

SS 2: calculating the registration time of the student and the current time of the system to obtain the registration time length and marking the registration time length as T_Rk；

SS 3: using formula U_Rk＝T_Rk*c1+B_Rk*c2+J_Rk*c3-D_Rk*c4+Z_RkC5 obtaining student task value U_Rk(ii) a Wherein c1, c2, c3, c4 and c5 are all preset proportionality coefficients; d_RkThe total number of mistakes of the student; z_RkThe position of the student position;

s4: setting a preset quantity product value as JZ; using formula U_RkJZ and get the number of tasks of student, mark the number of tasks as K_Rk；

S5: acquiring the number of picked up students, and when the number of picked up students is equal to the number of tasks, the task picking up fails, generating a failure instruction and sending the failure instruction to the mobile phone terminal of the students; when the number of the accepted students is smaller than the number of the tasks, the accepting is successful, a success instruction is generated and is sent to the mobile phone terminal of the student together with the counting task, and meanwhile, the number of the accepted students is increased by one; the total times of task acquisition is increased once; the statistical task is marked as a picked task;

s6: the student inputs picture data of pictures AFi and BFi in the statistical task through the mobile phone terminal; the picture data are names, school numbers and total scores of students on the pictures AFi and BFi; the picture data comprises characters and numbers; mark the picture data as TAFi and TBFi;

s7: the students send the pictures AFi and BFi in the statistical tasks and the corresponding picture data to the management verification module through the mobile phone terminals;

the management verification module is used for auditing the pictures AFi and BFi sent by the students and the corresponding picture data by managers and calculating the total value of the task integral of the students, and the specific calculation steps are as follows:

SSS 1: the method comprises the following steps that a manager accesses pictures AFi and BFi sent by students and corresponding picture data through a mobile phone terminal and conducts auditing;

SSS 2: when the student basic information and the total score in the pictures AFi and BFi are the same as the corresponding picture data, the manager sends a '1' instruction to the management verification module through the mobile phone terminal; when the student basic information and the total score in the pictures AFi and BFi are different from the corresponding picture data, the manager modifies the picture data and sends the modified picture data and the '0' instruction to the management verification module through the mobile phone terminal;

SSS 3: the management verification module counts the number corresponding to the 1 instruction and the number of the 0 instructions sent in the statistical tasks sent by the students, and the numbers are marked as H1 and H2 respectively;

SSS 4: obtaining the student single task integral value H3 by using the formula H3 ═ (H1+ H2) × a1-H2 × a2

SSS 5: summing all task-integral values, i.e. J_RkObtaining the task point total value J of the student as ∑ H3_Rk(ii) a Summing all of the students' H2, i.e. D_RkObtaining the total error times D of students_Rk；

SSS 6: the management verification module sends the modified picture data to a server; and the server replaces the picture data which is correspondingly stored in the server with the modified picture data.

Further, the score counting module is used for acquiring the pictures AFi and BFi stored in the server and the corresponding picture data, performing score counting, and combining the picture data corresponding to the pictures AFi and BFi to obtain the test paper score of the student; the score counting module sends the test paper scores of the students to the server for storage.

Furthermore, the student login module is used for submitting student information for registration and sending the student information which is successfully registered to the server; the student information comprises names, school numbers, classes, identification numbers, mobile phone numbers and student position names; the student position names comprise a shift, a branch book, a literature committee, a health committee, a sports committee and a life committee, and each student position corresponds to a student position value; and the positions of the students of the class leader, the group branch office, the literature committee, the health committee, the sports committee and the life committee are reduced in turn; the management login module is used for the management personnel to submit management information for registration and send the successfully registered management information to the server for storage, and the management information comprises names, identity card numbers and mobile phone numbers.

Further, the reservation inquiry module is used for reserving the student inquiry scores, and the specific inquiry steps are as follows:

the method comprises the following steps: the students make an appointment to log in an appointment inquiry module through a mobile phone terminal and input names and school numbers; the reservation inquiring module acquires the task value of the reservation student through the server;

step two: converting the task value of the reservation student into a certain proportional quantity to obtain an adding query quantity, and sending the adding query quantity to a mobile phone terminal of the reservation student;

step three: the appointed students add names and school numbers of other students through the mobile phone terminal; when the adding quantity is equal to the adding query quantity, the adding cannot be carried out; the appointed students send the names and the school numbers of the other students to the appointed inquiry module through the mobile phone terminal;

step four: the appointment inquiry module receives names and school numbers of other students added by the appointment students and processes the names and the school numbers, and the specific processing steps are as follows:

a1: acquiring mobile phone numbers of other students stored in the server through the school numbers of the other students; when the mobile phone number is not acquired, deleting the other students, generating a deleting instruction and sending the deleting instruction to the mobile phone terminal of the appointed student;

a2: when the mobile phone number is obtained, sending the name of the appointed student and an appointment request query instruction to the mobile phone number; after receiving the appointment request query instruction and the name of the appointment student, the mobile phone terminals of other students send an agreement instruction or an disagreement instruction to the appointment query module;

a3: when the appointment inquiry module receives the agreement instruction, marking other students as the students to be inquired;

a4: establishing a query text for the study number of the student to be queried and the study number of the appointed student;

step five: the reservation query module sends the query text to the server; the server receives the query text and acquires a corresponding school number in the query text; the server acquires a score corresponding to the school number through the school number and correspondingly adds the score to the query text to obtain a score text; the server sends the score text to an appointment query module;

step six: and the reservation inquiring module receives the score text and sends the score text to the mobile phone terminal of the reservation student corresponding to the score text.

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

1. the method comprises the steps that a segmentation module acquires and segments a test paper picture in a server, the test paper picture is segmented into two pictures, and the segmentation module sends the segmented pictures to a task issuing module; the task issuing module is used for issuing tasks and distributing the tasks; randomly disordering and equally dividing the received divided picture into a plurality of statistical tasks, and accessing a task issuing module by a student through a mobile phone terminal and clicking the statistical tasks to obtain the tasks; the task issuing module calculates the task value of the student and obtains the task value of the student by using a formula; obtaining the task quantity of the students by using a formula and rounding, obtaining the received quantity of the students, and when the received quantity of the students is equal to the task quantity, failing to receive the tasks, generating a failure instruction and sending the failure instruction to the mobile phone terminals of the students; when the number of the picked up pictures of the students is smaller than the number of the tasks, the picking up is successful, and the students input picture data for counting the pictures in the tasks through the mobile phone terminal; the student sends the pictures in the statistical task and the corresponding picture data to the management verification module through the mobile phone terminal; the method has the advantages that the photographed and corrected student test paper pictures are divided, randomly disordered and subjected to task release, students take tasks through the mobile phone terminals and input basic student information and general scores on the pictures through the mobile phone terminals, so that score input efficiency is improved, and slow score input and low efficiency caused by insufficient hands of teachers or managers are avoided;

2. the reservation inquiry module is used for reserving the inquiry scores of students, and the students log in the reservation inquiry module through the mobile phone terminal and input names and school numbers; the reservation inquiring module acquires the task value of the reservation student through the server; converting the task value of the reservation student into a certain proportional quantity to obtain an adding query quantity, and sending the adding query quantity to a mobile phone terminal of the reservation student; the appointed students add names and school numbers of other students through the mobile phone terminal; when the adding quantity is equal to the adding query quantity, the adding cannot be carried out; the appointed students send the names and the school numbers of the other students to the appointed inquiry module through the mobile phone terminal; the appointment inquiring module receives and processes names and school numbers of other students added by the appointment student, and sends the inquiring text to the server; the server receives the query text and acquires a corresponding school number in the query text; the server acquires a score corresponding to the school number through the school number and correspondingly adds the score to the query text to obtain a score text; the server sends the score text to an appointment query module; the reservation inquiring module receives the score text and sends the score text to the mobile phone terminal of the reservation student corresponding to the score text; the students can conveniently help other students to inquire the scores through reservation inquiry, and the problem that when the scores are inquired, too many students log in the educational administration management system at the same time, so that a server cannot work normally, and the score inquiry is slow is avoided.

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 an intelligent office educational administration management system based on big data according to 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 intelligent office educational administration management system based on big data comprises a shooting module, a segmentation module, a task issuing module, a student login module, a management login module, a server, a management verification module, a score counting module and an appointment query module;

the shooting module is used for shooting the corrected student test paper pictures and sending the test paper pictures to the server; the test paper picture comprises basic information and total scores of students; the basic information includes name, class and school number; the segmentation module is used for acquiring and segmenting the test paper picture in the server, and the steps are as follows:

the method comprises the following steps: marking the test paper pictures as Fi, i is 1, … … and n;

step two: dividing the test paper picture into two pictures which are respectively marked as AFi and BFi; the picture of the AFi only comprises the basic information of students; only the total score of the students is included in the picture of the BFi;

step three: the segmentation module sends the segmented pictures AFi and BFi to the task issuing module;

the task issuing module is used for issuing tasks and distributing the tasks; the method comprises the following specific steps:

s1: randomly disordering and equally dividing the received divided pictures AFi and BFi into a plurality of statistical tasks, and marking the statistical tasks as Rj, wherein j is 1, … … and n; the statistical task comprises a plurality of pictures AFi and BFi;

s2: a student accesses the task issuing module through a mobile phone terminal and clicks a statistical task to obtain the task;

s3: the task issuing module calculates the task value of the student, and the specific calculation steps are as follows:

SS 1: setting the student as Rk, k is 1, … …, n; setting the total number of task pickup times of students as B_Rk(ii) a Setting the total value of task integration as J_Rk；

SS 2: calculating the registration time of the student and the current time of the system to obtain the registration time length and marking the registration time length as T_Rk；

SS 3: using formula U_Rk＝T_Rk*c1+B_Rk*c2+J_Rk*c3-D_Rk*c4+Z_RkC5 obtaining student task value U_Rk(ii) a Wherein c1, c2, c3, c4 and c5 are all preset proportionality coefficients; d_RkThe total number of mistakes of the student; z is a linear or branched member_RkThe position of the student position; the task total score of the student is larger, the larger the task value is, and the more tasks can be obtained by the student; the longer the registration time of the student is, the larger the task value is; the more the total number of task acquisition of students is, the larger the task value is; the smaller the total error times of the students are, the larger the task value is, and the larger the position value of the students is; the larger the task value;

s4: setting a preset quantity product value as JZ; using formula U_RkJZ and get the number of tasks of student, mark the number of tasks as K_Rk；

S5: acquiring the number of picked up students, and when the number of picked up students is equal to the number of tasks, the task picking up fails, generating a failure instruction and sending the failure instruction to the mobile phone terminal of the students; when the number of the accepted students is smaller than the number of the tasks, the accepting is successful, a success instruction is generated and is sent to the mobile phone terminal of the student together with the counting task, and meanwhile, the number of the accepted students is increased by one; the total times of task acquisition is increased once; the statistical task is marked as a picked task;

s6: the student inputs picture data of pictures AFi and BFi in the statistical task through the mobile phone terminal; the picture data are names, school numbers and total scores of students on the pictures AFi and BFi; the picture data comprises characters and numbers; mark the picture data as TAFi and TBFi;

s7: the students send the pictures AFi and BFi in the statistical tasks and the corresponding picture data to the management verification module through the mobile phone terminals;

the management verification module is used for auditing the pictures AFi and BFi sent by the students and the corresponding picture data by managers and calculating the total value of the task integral of the students, and the specific calculation steps are as follows:

SSS 1: the method comprises the following steps that a manager accesses pictures AFi and BFi and corresponding picture data sent by students through a mobile phone terminal and conducts auditing;

SSS 2: when the student basic information and the total score in the pictures AFi and BFi are the same as the corresponding picture data, the manager sends a '1' instruction to the management verification module through the mobile phone terminal; when the student basic information and the total score in the pictures AFi and BFi are different from the corresponding picture data, the manager modifies the picture data and sends the modified picture data and the '0' instruction to the management verification module through the mobile phone terminal;

SSS 3: the management verification module counts the number corresponding to the 1 instruction and the number of the 0 instructions sent in the statistical tasks sent by the students, and the numbers are marked as H1 and H2 respectively;

SSS 4: obtaining the student single task integral value H3 by using the formula H3 ═ (H1+ H2) × a1-H2 × a2

SSS 5: summing all task-integral values, i.e. J_RkObtaining the task point total value J of the student as ∑ H3_Rk(ii) a Summing all of the students' H2, i.e. D_RkObtaining the total error times D of students_Rk；

SSS 6: the management verification module sends the modified picture data to a server; and the server replaces the picture data which is correspondingly stored in the server with the modified picture data.

The score counting module is used for acquiring the pictures AFi and BFi stored in the server and the corresponding picture data, carrying out score counting, and combining the picture data corresponding to the pictures AFi and BFi to obtain the test paper score of the student; the score counting module sends the test paper scores of the students to the server for storage.

The student login module is used for submitting student information for registration and sending the student information which is successfully registered to the server; the student information comprises names, school numbers, classes, identification numbers, mobile phone numbers and student position names; the student position names comprise a shift, a branch book, a literature committee, a health committee, a sports committee and a life committee, and each student position corresponds to a student position value; and the positions of the students of the class leader, the group branch office, the literature committee, the health committee, the sports committee and the life committee are reduced in turn; the management login module is used for the management personnel to submit management information for registration and send the successfully registered management information to the server for storage, and the management information comprises names, identity card numbers and mobile phone numbers.

The reservation inquiry module is used for reserving the inquiry scores of the students, and the specific inquiry steps are as follows:

the method comprises the following steps: the students make an appointment to log in an appointment inquiry module through a mobile phone terminal and input names and school numbers; the reservation inquiring module acquires the task value of the reservation student through the server;

step two: converting the task value of the reservation student into a certain proportional quantity to obtain an adding query quantity, and sending the adding query quantity to a mobile phone terminal of the reservation student;

step three: the appointed students add names and school numbers of other students through the mobile phone terminal; when the adding quantity is equal to the adding query quantity, the adding cannot be carried out; the appointed students send the names and the school numbers of the other students to the appointed inquiry module through the mobile phone terminal;

step four: the appointment inquiry module receives names and school numbers of other students added by the appointment students and processes the names and the school numbers, and the specific processing steps are as follows:

a1: acquiring mobile phone numbers of other students stored in the server through the school numbers of the other students; when the mobile phone number is not acquired, deleting the other students, generating a deleting instruction and sending the deleting instruction to the mobile phone terminal of the appointed student;

a2: when the mobile phone number is obtained, sending the name of the appointed student and an appointment request query instruction to the mobile phone number; after receiving the appointment request query instruction and the name of the appointment student, the mobile phone terminals of other students send an agreement instruction or an disagreement instruction to the appointment query module;

a3: when the appointment inquiry module receives the agreement instruction, marking other students as the students to be inquired;

a4: establishing a query text for the study number of the student to be queried and the study number of the appointed student;

step five: the reservation query module sends the query text to the server; the server receives the query text and acquires a corresponding school number in the query text; the server acquires a score corresponding to the school number through the school number and correspondingly adds the score to the query text to obtain a score text; the server sends the score text to an appointment query module;

step six: and the reservation inquiring module receives the score text and sends the score text to the mobile phone terminal of the reservation student corresponding to the score text.

The working principle of the invention is as follows: the method comprises the steps that a segmentation module acquires and segments a test paper picture in a server, the test paper picture is segmented into two pictures, and the segmentation module sends the segmented pictures AFi and BFi to a task issuing module; the task issuing module is used for issuing tasks and distributing the tasks; randomly disordering and equally dividing the received divided pictures AFi and BFi into a plurality of statistical tasks, and accessing a task issuing module by a student through a mobile phone terminal and clicking the statistical tasks to pick up the tasks; the task issuing module calculates the task value of the student by using a formula U_Rk＝T_Rk*c1+B_Rk*c2+J_Rk*c3-D_Rk*c4+Z_RkC5 obtaining student task value U_Rk(ii) a Using formula U_RkJZ and get the number of tasks of student, mark the number of tasks as K_Rk(ii) a Acquiring the number of picked up students, and when the number of picked up students is equal to the number of tasks, the task picking up fails, generating a failure instruction and sending the failure instruction to the mobile phone terminal of the students;when the number of the picked up pictures of the students is less than the number of the tasks, the picking up is successful, and the students input picture data through the mobile phone terminal to count the pictures AFi and BFi in the tasks; the students send the pictures AFi and BFi in the statistical tasks and the corresponding picture data to the management verification module through the mobile phone terminals; the method has the advantages that the photographed and corrected student test paper pictures are divided, randomly disordered and task issued, students receive tasks through the mobile phone terminals and input basic information and total scores of the students on the pictures through the mobile phone terminals, so that score input efficiency is improved, and slow score input and low efficiency caused by insufficient hands of teachers or managers are avoided; the reservation inquiry module is used for reserving the inquiry scores of students, and the students log in the reservation inquiry module through the mobile phone terminal and input names and school numbers; the reservation inquiring module acquires the task value of the reservation student through the server; converting the task value of the reservation student into a certain proportional quantity to obtain an adding query quantity, and sending the adding query quantity to a mobile phone terminal of the reservation student; the appointed students add names and school numbers of other students through the mobile phone terminal; when the adding quantity is equal to the adding query quantity, the adding cannot be carried out; the appointed students send the names and the school numbers of the other students to the appointed inquiry module through the mobile phone terminal; the appointment inquiry module receives names and school numbers of other students added by the appointment students and processes the names and school numbers, and the appointment inquiry module sends the inquiry text to the server; the server receives the query text and acquires a corresponding school number in the query text; the server acquires a score corresponding to the school number through the school number and correspondingly adds the score to the query text to obtain a score text; the server sends the score text to an appointment query module; the reservation inquiring module receives the score text and sends the score text to the mobile phone terminal of the reservation student corresponding to the score text; the students can conveniently help other students to inquire the scores through reservation inquiry, and the problem that when the scores are inquired, too many students log in the educational administration management system at the same time, so that a server cannot work normally, and the score inquiry is slow is avoided.

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. An intelligent office educational administration management system based on big data is characterized by comprising a shooting module, a segmentation module, a task release module, a student login module, a management login module, a server, a management verification module, a score counting module and an appointment query module;

the shooting module is used for shooting the corrected student test paper pictures and sending the test paper pictures to the server; the test paper picture comprises basic information and total scores of students; the basic information includes name, class and school number; the segmentation module is used for acquiring and segmenting the test paper picture in the server, and the steps are as follows:

the method comprises the following steps: marking the test paper pictures as Fi, i is 1, … … and n;

step two: dividing the test paper picture into two pictures which are respectively marked as AFi and BFi; the picture of the AFi only comprises the basic information of students; only the total score of the students is included in the picture of the BFi;

step three: the segmentation module sends the segmented pictures AFi and BFi to the task issuing module;

the task issuing module is used for issuing tasks and distributing the tasks; the method comprises the following specific steps:

s1: randomly disordering and equally dividing the received divided pictures AFi and BFi into a plurality of statistical tasks, and marking the statistical tasks as Rj, wherein j is 1, … … and n; the statistical task comprises a plurality of pictures AFi and BFi;

s2: a student accesses the task issuing module through a mobile phone terminal and clicks a statistical task to obtain the task;

s3: the task issuing module calculates the task value of the student, and the specific calculation steps are as follows:

SS 1: setting the student as Rk, k is 1, … …, n; setting the total number of task pickup times of students as B_Rk(ii) a Setting the total value of task integration as J_Rk；

SS 2: calculating the registration time of the student and the current time of the system to obtain the registration time length and marking the registration time length as T_Rk；

SS 3: using formula U_Rk＝T_Rk*c1+B_Rk*c2+J_Rk*c3-D_Rk*c4+Z_RkC5 obtaining student task value U_Rk(ii) a Wherein c1, c2, c3, c4 and c5 are all preset proportionality coefficients; d_RkThe total number of mistakes of the student; z_RkThe position of the student position;

s4: setting a preset quantity product value as JZ; using formula U_RkJZ and get the number of tasks of student, mark the number of tasks as K_Rk；

S5: acquiring the number of picked up students, and when the number of picked up students is equal to the number of tasks, the task picking up fails, generating a failure instruction and sending the failure instruction to a mobile phone terminal of the students; when the number of the accepted students is smaller than the number of the tasks, the accepting is successful, a success instruction is generated and is sent to the mobile phone terminal of the student together with the counting task, and meanwhile, the number of the accepted students is increased by one; the total times of task acquisition is increased once; the statistical task is marked as a picked task;

s6: the student inputs picture data of pictures AFi and BFi in the statistical task through the mobile phone terminal; the picture data are names, school numbers and total scores of students on the pictures AFi and BFi; the picture data comprises characters and numbers; mark the picture data as TAFi and TBFi;

s7: the students send the pictures AFi and BFi in the statistical tasks and the corresponding picture data to the management verification module through the mobile phone terminals;

the management verification module is used for auditing the pictures AFi and BFi sent by the students and the corresponding picture data by managers and calculating the total value of the task integral of the students, and the specific calculation steps are as follows:

SSS 1: the method comprises the following steps that a manager accesses pictures AFi and BFi sent by students and corresponding picture data through a mobile phone terminal and conducts auditing;

SSS 2: when the student basic information and the total score in the pictures AFi and BFi are the same as the corresponding picture data, the manager sends a '1' instruction to the management verification module through the mobile phone terminal; when the student basic information and the total score in the pictures AFi and BFi are different from the corresponding picture data, the manager modifies the picture data and sends the modified picture data and the '0' instruction to the management verification module through the mobile phone terminal;

SSS 3: the management verification module counts the number corresponding to the 1 instruction and the number of the 0 instructions sent in the statistical tasks sent by the students, and the numbers are marked as H1 and H2 respectively;

SSS 4: obtaining a student single task integral value H3 by using a formula H3 ═ (H1+ H2) × a1-H2 × a 2;

SSS 5: summing all task-integral values, i.e. J_RkObtaining the task point total value J of the student as ∑ H3_Rk(ii) a Summing all of the students' H2, i.e. D_RkObtaining the total error times D of students from ∑ H2_Rk；

SSS 6: the management verification module sends the modified picture data to a server; and the server replaces the picture data which is correspondingly stored in the server with the modified picture data.

2. The intelligent office educational administration management system based on big data as claimed in claim 1, wherein the score counting module is configured to obtain pictures AFi and BFi stored in the server and corresponding picture data, perform score counting, and combine the picture data corresponding to the pictures AFi and BFi to obtain a test paper score of the student; the score counting module sends the test paper scores of the students to the server for storage.

3. The intelligent office educational administration management system based on big data as claimed in claim 1, wherein the student login module is used for students submitting student information for registration and sending the student information with successful registration to the server; the student information comprises names, school numbers, classes, identification numbers, mobile phone numbers and student position names; the student position names comprise a shift, a branch book, a literature committee, a health committee, a sports committee and a life committee, and each student position corresponds to a student position value; and the positions of the students of the class leader, the group branch office, the literature committee, the health committee, the sports committee and the life committee are reduced in turn; the management login module is used for the management personnel to submit management information for registration and send the successfully registered management information to the server for storage, and the management information comprises names, identity card numbers and mobile phone numbers.

4. The intelligent office educational administration management system based on big data as claimed in claim 1, wherein the reservation query module is used for reserving student query scores, and the specific query steps are as follows:

the method comprises the following steps: the students make an appointment to log in an appointment inquiry module through a mobile phone terminal and input names and school numbers; the reservation inquiry module acquires the task value of the reservation student through the server;

step two: converting the task value of the reservation student into a certain proportional quantity to obtain an adding query quantity, and sending the adding query quantity to a mobile phone terminal of the reservation student;

step three: the appointed students add names and school numbers of other students through the mobile phone terminal; when the adding quantity is equal to the adding query quantity, the adding cannot be carried out; the appointed students send the names and the school numbers of the other students to the appointed inquiry module through the mobile phone terminal;

step four: the appointment inquiry module receives names and school numbers of other students added by the appointment students and processes the names and the school numbers, and the specific processing steps are as follows:

a1: acquiring mobile phone numbers of other students stored in the server through the school numbers of the other students; when the mobile phone number is not acquired, deleting the other students, generating a deleting instruction and sending the deleting instruction to the mobile phone terminal of the appointed student;

a2: when the mobile phone number is obtained, sending the name of the appointed student and an appointment request query instruction to the mobile phone number; after receiving the appointment request query instruction and the name of the appointment student, the mobile phone terminals of other students send an agreement instruction or an disagreement instruction to the appointment query module;

a3: when the appointment inquiry module receives the agreement instruction, marking other students as the students to be inquired;

a4: establishing a query text for the study number of the student to be queried and the study number of the appointed student;

step five: the reservation query module sends the query text to the server; the server receives the query text and acquires a corresponding school number in the query text; the server acquires a score corresponding to the school number through the school number and correspondingly adds the score to the query text to obtain a score text; the server sends the score text to an appointment query module;

step six: and the reservation inquiring module receives the score text and sends the score text to the mobile phone terminal of the reservation student corresponding to the score text.

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