阅读说明：本技术 基于互联网和移动终端的在线教育课程共享分配系统 (Online education course sharing and distributing system based on Internet and mobile terminal ) 是由 李厚德 于 2021-11-16 设计创作，主要内容包括：本发明涉及课程共享分配技术领域,具体为基于互联网和移动终端的在线教育课程共享分配系统,包括用户端、安验单元、服务端、课处单元、课分单元和馈更单元；用户端用于用户登录和输入需要学习相关的登录信息和需课信息,将登录信息传输至安验单元,将需课信息传输至馈更单元；服务端内存储有用户以往登录以及输入相关的记录信息,记录信息包括记账信息和记课信息；本发明是通过用户以往数据的进行关联分析,将数据中的数值进行反复结合计算,从而计算出用户的相关习性以及学习的能力,并依据相关的学习习性进行用户课程分配的一次筛选,增加数据分析的精确性,增加课程分配的准确性。(The invention relates to the technical field of course sharing and distribution, in particular to an online education course sharing and distribution system based on the Internet and a mobile terminal, which comprises a user side, an authentication unit, a server side, a course unit, a course sub-unit and a feedback unit; the user side is used for logging in and inputting relevant login information and lesson-needing information which need to be learned by a user, transmitting the login information to the security check unit and transmitting the lesson-needing information to the feedback unit; the server stores the related record information of the user which is logged in and input in the past, and the record information comprises the accounting information and the lesson recording information; according to the invention, the relevant data of the user is subjected to correlation analysis, and the numerical values in the data are repeatedly combined and calculated, so that the relevant habits and the learning ability of the user are calculated, and the course distribution of the user is screened once according to the relevant learning habits, so that the accuracy of data analysis is increased, and the accuracy of course distribution is increased.)

1. The online education course sharing and distributing system based on the Internet and the mobile terminal is characterized by comprising a user side, an authentication unit, a server side, a course unit, a course sub-unit and a feedback unit;

the user side is used for logging in and inputting relevant login information and lesson-needing information which need to be learned by a user, transmitting the login information to the safety check unit and transmitting the lesson-needing information to the feedback unit;

the server stores the related record information of the user which is logged in and input in the past, and the record information comprises accounting information and lesson recording information;

the safety check unit acquires the accounting information from the server side, and performs login check on the account number together with the accounting information and the login information, so that the user jumps to an input interface or a login interface;

the course unit is internally stored with real course information, acquires course recording information from the server, performs course analysis operation on the course recording information and the real course information to obtain a real positive proportion value, a real negative proportion value, a real free proportion value, a result influence factor u1, basic result data, a difficulty average value, a mean value, a re-occupation average value, a real-time average value and a time-demand average value, and transmits the real course information and the mean value to the feedback unit;

the feedback unit is used for performing feedback judgment operation on the course information, the actual positive ratio, the actual negative ratio, the actual free ratio, the basic result data, the result influence factor u1, the difficulty average, the mean value, the occupation ratio, the real-time mean value, the time average value and the actual course information to obtain distribution data and sending the distribution data to the user side;

the user side is also used for the user to select the distribution data.

2. The internet-and-mobile-terminal-based online education course sharing and distribution system of claim 1, wherein the course information includes word-requiring data and time-requiring data;

the lesson recording information comprises word recording data, time recording data, real data, demand recording data, written data, difficult data, inscription data and journey recording data;

the real course information comprises course name data, course length data and course difficulty data.

3. The internet-and-mobile-terminal-based online education course sharing and distribution system as claimed in claim 2, wherein the course analysis operation is performed by the following specific operation procedures:

selecting corresponding real course information, word recording data, time recording data, real recording data, required recording data, recorded data, difficult recording data, inscription data and journey recording data according to the input account data;

according to the input account data, extracting corresponding marking data and inscription data, recording inscription data corresponding to the data required for each marking, marking the time point of the data required for each marking, marking a plurality of time points, calculating the time difference between every two adjacent marking data, and marking the time difference between every two adjacent marking data as the time required difference;

extracting a plurality of time demand difference values, and calculating the mean value of the time demand difference values by carrying out mean value calculation on the plurality of time demand difference values;

extracting a plurality of corresponding time-keeping data and real-keeping data according to input account data, performing difference value calculation on the time-keeping data and the real-keeping data to calculate a plurality of real-time difference values, performing mean value calculation on the real-time difference values according to a calculation mode of a time-required mean value to calculate a real-time mean value, selecting the real-time mean value, and performing positive and negative value calibration on the real-time mean value to obtain a real positive occupation ratio, a real negative occupation ratio and a real free occupation ratio;

extracting corresponding word recording data and program recording data according to the input account data, marking each character of the word recording data to obtain a word recording character group, marking each character of the program recording data to obtain a program recording character group, and matching the word recording character group with the program recording character group to obtain a recollection mean value;

and extracting corresponding recorded data and difficulty recording data according to the input account data, and performing influence analysis on the recorded data according to different difficulty recording data to obtain a result influence factor u1, a difficulty recording average value and basic result data.

4. The system for sharing and distributing online education courses based on internet and mobile terminals as claimed in claim 3, wherein the specific process of calibrating the real-time mean value is as follows:

comparing the real-time mean value with a numerical value of zero, judging that the user completes learning in advance within a specified time when the real-time mean value is larger than zero, calibrating the corresponding real-time mean value as a real-time positive mean value, judging that the user does not complete learning within the specified time when the real-time mean value is smaller than zero, calibrating the corresponding real-time mean value as a real-time negative mean value, judging that the user completes learning within the specified time when the real-time mean value is equal to zero, and calibrating the corresponding real-time mean value as a real-time mean-free value;

counting the occurrence times of the real-time positive average value, the real-time negative average value and the real-time free average value, and according to the proportion calculation formula: the ratio = the number of times/total number of times of the corresponding numerical value, the ratio values corresponding to the real-time positive average value, the real-time negative average value and the real-time free average value are calculated and respectively designated as a real positive ratio, a real negative ratio and a real free ratio.

5. The internet-and-mobile-terminal-based online education course sharing and distribution system of claim 4, wherein the specific matching process for matching the mnemonic character set and the mnemonic character set is:

respectively extracting each character in the word-recording character group, matching the character with the stroke-recording character group, marking the character with the consistent matching result as a key character, counting the number of the key characters, and marking the number of the key characters as key times;

and calculating the ratio of the key times to the number of characters in the stroke character group so as to calculate a ratio of the weight, calculating a plurality of ratios according to the same calculation method of the ratio of the weight, calculating the mean value of the plurality of ratios, and calculating the mean value of the weight.

6. The system for sharing and distributing online education courses based on internet and mobile terminals as claimed in claim 5, wherein the specific process of analyzing the credit data according to different credit data is:

keeping other data the same according to the difficulty recording data, selecting corresponding difficulty recording data, carrying out difficulty difference calculation on different difficulty recording data, calculating difficulty recording difference, carrying out corresponding numerical processing calculation on the difficulty recording difference and the difficulty recording difference, and calculating a result influence factor u1, wherein the calculation formula of the processing calculation is as follows: recording difference = difficulty recording difference u1, calculating the mean value of difficulty recording data, calculating the difficulty recording mean value, calculating the mean value of difficulty recording data, and calculating the mean value of difficulty recording data;

keeping all other values the same, selecting different difficult-to-remember mean values, keeping the notation data unchanged, and marking the notation data as basic achievement data.

7. The internet and mobile terminal based online education course sharing and distribution system according to claim 6 wherein the specific operation process of the feed judgment operation is:

acquiring program name data, program length data and program difficulty data;

selecting data needing words, matching the data needing words with program name data to obtain characters of which the data needing words are the same as the program name data, counting the number of the same characters, performing proportion calculation according to the corresponding program name data, and calculating a name proportion value;

calculating the difference value of the name occupation ratio value and the weight occupation mean value, calculating a two-occupation difference value, setting a preset value of the occupation ratio, generating a matching signal when the two-occupation difference value is smaller than the preset value, otherwise generating an error signal, identifying the matching signal and the error signal, generating an error-free signal when the error signal is identified, performing reacquisition of the data needing words, when the matching signal is identified, calibrating the process name data belonging to the matching requirement as alternative data, performing alternative judgment on the alternative data to obtain a conventional signal and a lagging signal, and assigning values to the conventional signal and the lagging signal to obtain assigned data FZi, i =1, 2;

and extracting corresponding journey length data, journey difficulty data and time demand data according to the alternative data, substituting the journey length data, journey difficulty data and time demand data and the achievement influence factor u1, the difficulty recording mean value, the basic achievement data, the real-time mean value, the assigned value data and the recorded mean value into a selected journey length value calculation formula, and performing data processing to obtain distribution data.

8. The system for sharing and distributing online education courses based on internet and mobile terminals as claimed in claim 7, wherein the specific process of making alternative decision on the alternative data is:

selecting a real positive proportion value, a real negative proportion value, a real-free proportion value and a real-time average value, respectively carrying out numerical calculation on the real positive proportion value, the real negative proportion value and the real-free proportion value and the real-time average value, calculating numerical values corresponding to the real positive proportion value, the real negative proportion value and the real-free proportion value, respectively marking the numerical values as a positive value, a negative value and a zero value, selecting the positive value and the negative value, and marking the positive value and the negative value as range adjustment values;

selecting a time demand mean value, selecting a time point of last learning according to inscription data, extracting a time point of current input, calculating a difference value of the two time points to generate a learning time difference, comparing the learning time difference with the time demand mean value, judging that learning is performed according to progress when the learning time difference is less than or equal to the time demand mean value to generate a conventional signal, judging that the learning time difference is longer when the learning time difference is greater than the time demand mean value to generate a lagging signal, extracting the conventional signal or the lagging signal, carrying out identification marking on the conventional signal or the lagging signal, endowing the value u2 with the conventional signal when the conventional signal is identified, endowing the conventional signal with a value u3, and uniformly marking u2 and u3 as endowed data FZi, i =1, 2.

9. The system for sharing and distributing education courses based on internet and mobile terminal as claimed in claim 8, wherein the specific process of the program length value calculation and data processing is:

substituting the journey length data, the journey difficulty data and the time demand data with the achievement influence factor u1, the difficulty recording mean value, the basic achievement data, the real-time mean value, the assigned value data and the recorded mean value into a selected journey length value calculation formula:

；

calculating an unknown data selection path length value CC according to a known value in a calculation formula, wherein JC is expressed as a mean value, JN is expressed as a difficulty-in-memory mean value, CN is expressed as difficulty-in-memory data, u1 is expressed as a path influence factor, CJ is expressed as basic path data, FZi is expressed as assigned data, XS is expressed as time-required data, CC is expressed as a selection path length value, SJ is expressed as a time-required mean value, and e1 is expressed as a time-length image conversion factor;

extracting the calculated selected path length value CC, and performing data matching in the alternative data according to the selected path length value CC, wherein the method specifically comprises the following steps:

setting a preset selection value R1, respectively carrying out addition and subtraction calculation on the preset selection value R1 and the selection path length value, calibrating the value obtained by subtracting R1 from the selection path length value as a positive selection value, calibrating the value obtained by adding R1 to the selection path length value as a negative selection value, carrying out range selection on the positive selection value, the negative selection value and the alternative data, and selecting the positive selection value which is less than or equal to the alternative data and less than or equal to the negative selection value;

and extracting corresponding alternative data, and calibrating the corresponding alternative data as distribution data.

Technical Field

The invention relates to the technical field of course sharing and distribution, in particular to an online education course sharing and distribution system based on the Internet and a mobile terminal.

Background

The online learning is a mode of giving lessons and learning with a teacher in a network virtual classroom through a computer internet or a mobile phone wireless network, the current online learning is not limited to the online learning, and people do not have regular time to perform online learning along with the development of the society, so that the learning videos are stored on corresponding network platforms for people to learn in real time;

at present, after people input keywords on some learning platforms, a system automatically provides related teaching courses for users to automatically select, but the current system can only identify the keywords input by the users to query the courses and cannot distribute and recommend the courses according to the current time of the users, so that the users often cannot learn one complete course at a time, and the learning efficiency of the users is influenced;

to this end, we propose an online education course sharing and distribution system based on the internet and mobile terminals.

Disclosure of Invention

The invention aims to provide an online education course sharing and distributing system based on the Internet and a mobile terminal, which ensures the safety of an account by carrying out account safety verification on related data input by a user, and avoids the problem that the distribution accuracy of the system is influenced by the deviation of system analysis of the user caused by the fact that other people log in the user; the relevant data of the user is subjected to correlation analysis, and the numerical values in the data are repeatedly combined and calculated, so that the relevant habits and the learning ability of the user are calculated, the course distribution of the user is screened once according to the relevant learning habits, the accuracy of data analysis is improved, and the accuracy of course distribution is improved; the course is integrally processed through course screening input by a user in real time, reverse derivation is carried out according to the learning ability and the understanding ability of the user, secondary screening is carried out, corresponding learning duration is calculated, course selection is carried out according to the learning duration, time consumed by data analysis is reduced, and working efficiency is improved.

The purpose of the invention can be realized by the following technical scheme:

the online education course sharing and distributing system based on the Internet and the mobile terminal comprises a user side, an authentication unit, a server side, a course unit, a course sub-unit and a feedback unit;

the user side is used for logging in and inputting relevant login information and lesson-needing information which need to be learned by a user, transmitting the login information to the safety check unit and transmitting the lesson-needing information to the feedback unit;

the server stores the related record information of the user which is logged in and input in the past, and the record information comprises accounting information and lesson recording information;

the safety check unit acquires the accounting information from the server side, and performs login check on the account number together with the accounting information and the login information, so that the user jumps to an input interface or a login interface;

the course unit is internally stored with real course information, acquires course recording information from the server, performs course analysis operation on the course recording information and the real course information to obtain a real positive proportion value, a real negative proportion value, a real free proportion value, a result influence factor u1, basic result data, a difficulty average value, a mean value, a re-occupation average value, a real-time average value and a time-demand average value, and transmits the real course information and the mean value to the feedback unit;

the feedback unit is used for performing feedback judgment operation on the course information, the actual positive ratio, the actual negative ratio, the actual free ratio, the basic result data, the result influence factor u1, the difficulty average, the mean value, the occupation ratio, the real-time mean value, the time average value and the actual course information to obtain distribution data and sending the distribution data to the user side;

the user side is also used for the user to select the distribution data.

Further, the course information comprises word-needing data and time-needing data;

the lesson recording information comprises word recording data, time recording data, real data, demand recording data, written data, difficult data, inscription data and journey recording data;

the real course information comprises course name data, course length data and course difficulty data.

Further, the specific operation process of the course analysis operation is as follows:

selecting corresponding real course information, word recording data, time recording data, real recording data, required recording data, recorded data, difficult recording data, inscription data and journey recording data according to the input account data;

according to the input account data, extracting corresponding marking data and inscription data, recording inscription data corresponding to the data required for each marking, marking the time point of the data required for each marking, marking a plurality of time points, calculating the time difference between every two adjacent marking data, and marking the time difference between every two adjacent marking data as the time required difference;

extracting a plurality of time demand difference values, and calculating the mean value of the time demand difference values by carrying out mean value calculation on the plurality of time demand difference values;

extracting a plurality of corresponding time-keeping data and real-keeping data according to input account data, performing difference value calculation on the time-keeping data and the real-keeping data to calculate a plurality of real-time difference values, performing mean value calculation on the real-time difference values according to a calculation mode of a time-required mean value to calculate a real-time mean value, selecting the real-time mean value, and performing positive and negative value calibration on the real-time mean value to obtain a real positive occupation ratio, a real negative occupation ratio and a real free occupation ratio;

extracting corresponding word recording data and program recording data according to the input account data, marking each character of the word recording data to obtain a word recording character group, marking each character of the program recording data to obtain a program recording character group, and matching the word recording character group with the program recording character group to obtain a recollection mean value;

and extracting corresponding recorded data and difficulty recording data according to the input account data, and performing influence analysis on the recorded data according to different difficulty recording data to obtain a result influence factor u1, a difficulty recording average value and basic result data.

Further, the specific process of performing positive and negative value calibration on the real-time mean value is as follows:

comparing the real-time mean value with a numerical value of zero, judging that the user completes learning in advance within a specified time when the real-time mean value is larger than zero, calibrating the corresponding real-time mean value as a real-time positive mean value, judging that the user does not complete learning within the specified time when the real-time mean value is smaller than zero, calibrating the corresponding real-time mean value as a real-time negative mean value, judging that the user completes learning within the specified time when the real-time mean value is equal to zero, and calibrating the corresponding real-time mean value as a real-time mean-free value;

counting the occurrence times of the real-time positive average value, the real-time negative average value and the real-time free average value, and according to the proportion calculation formula: the ratio = the number of times/total number of times of the corresponding numerical value, the ratio values corresponding to the real-time positive average value, the real-time negative average value and the real-time free average value are calculated and respectively designated as a real positive ratio, a real negative ratio and a real free ratio.

Further, the specific matching process for matching the word-keeping character group and the stroke-keeping character group is as follows:

respectively extracting each character in the word-recording character group, matching the character with the stroke-recording character group, marking the character with the consistent matching result as a key character, counting the number of the key characters, and marking the number of the key characters as key times;

and calculating the ratio of the key times to the number of characters in the stroke character group so as to calculate a ratio of the weight, calculating a plurality of ratios according to the same calculation method of the ratio of the weight, calculating the mean value of the plurality of ratios, and calculating the mean value of the weight.

Further, the specific process of analyzing the influence of the written data according to different difficult data is as follows:

keeping other data the same according to the difficulty recording data, selecting corresponding difficulty recording data, carrying out difficulty difference calculation on different difficulty recording data, calculating difficulty recording difference, carrying out corresponding numerical processing calculation on the difficulty recording difference and the difficulty recording difference, and calculating a result influence factor u1, wherein the calculation formula of the processing calculation is as follows: recording difference = difficulty recording difference u1, calculating the mean value of difficulty recording data, calculating the difficulty recording mean value, calculating the mean value of difficulty recording data, and calculating the mean value of difficulty recording data;

keeping all other values the same, selecting different difficult-to-remember mean values, keeping the notation data unchanged, and marking the notation data as basic achievement data.

Further, the specific operation process of the feed judgment operation is as follows:

acquiring program name data, program length data and program difficulty data;

selecting data needing words, matching the data needing words with program name data to obtain characters of which the data needing words are the same as the program name data, counting the number of the same characters, performing proportion calculation according to the corresponding program name data, and calculating a name proportion value;

calculating the difference value of the name occupation ratio value and the weight occupation mean value, calculating a two-occupation difference value, setting a preset value of the occupation ratio, generating a matching signal when the two-occupation difference value is smaller than the preset value, otherwise generating an error signal, identifying the matching signal and the error signal, generating an error-free signal when the error signal is identified, performing reacquisition of the data needing words, when the matching signal is identified, calibrating the process name data belonging to the matching requirement as alternative data, performing alternative judgment on the alternative data to obtain a conventional signal and a lagging signal, and assigning values to the conventional signal and the lagging signal to obtain assigned data FZi, i =1, 2;

and extracting corresponding journey length data, journey difficulty data and time demand data according to the alternative data, substituting the journey length data, journey difficulty data and time demand data and the achievement influence factor u1, the difficulty recording mean value, the basic achievement data, the real-time mean value, the assigned value data and the recorded mean value into a selected journey length value calculation formula, and performing data processing to obtain distribution data.

Further, the specific process of performing alternative determination on the alternative data is as follows:

selecting a real positive proportion value, a real negative proportion value, a real-free proportion value and a real-time average value, respectively carrying out numerical calculation on the real positive proportion value, the real negative proportion value and the real-free proportion value and the real-time average value, calculating numerical values corresponding to the real positive proportion value, the real negative proportion value and the real-free proportion value, respectively marking the numerical values as a positive value, a negative value and a zero value, selecting the positive value and the negative value, and marking the positive value and the negative value as range adjustment values;

selecting a time demand mean value, selecting a time point of last learning according to inscription data, extracting a time point of current input, calculating a difference value of the two time points to generate a learning time difference, comparing the learning time difference with the time demand mean value, judging that learning is performed according to progress when the learning time difference is less than or equal to the time demand mean value to generate a conventional signal, judging that the learning time difference is longer when the learning time difference is greater than the time demand mean value to generate a lagging signal, extracting the conventional signal or the lagging signal, carrying out identification marking on the conventional signal or the lagging signal, endowing the value u2 with the conventional signal when the conventional signal is identified, endowing the conventional signal with a value u3, and uniformly marking u2 and u3 as endowed data FZi, i =1, 2.

Further, the specific process of the calculation formula of the path length value and the data processing is as follows:

substituting the journey length data, the journey difficulty data and the time demand data with the achievement influence factor u1, the difficulty recording mean value, the basic achievement data, the real-time mean value, the assigned value data and the recorded mean value into a selected journey length value calculation formula:

；

calculating an unknown data selection path length value CC according to a known value in a calculation formula, wherein JC is expressed as a mean value, JN is expressed as a difficulty-in-memory mean value, CN is expressed as difficulty-in-memory data, u1 is expressed as a path influence factor, CJ is expressed as basic path data, FZi is expressed as assigned data, XS is expressed as time-required data, CC is expressed as a selection path length value, SJ is expressed as a time-required mean value, and e1 is expressed as a time-length image conversion factor;

extracting the calculated selected path length value CC, and performing data matching in the alternative data according to the selected path length value CC, wherein the method specifically comprises the following steps:

setting a preset selection value R1, respectively carrying out addition and subtraction calculation on the preset selection value R1 and the selection path length value, calibrating the value obtained by subtracting R1 from the selection path length value as a positive selection value, calibrating the value obtained by adding R1 to the selection path length value as a negative selection value, carrying out range selection on the positive selection value, the negative selection value and the alternative data, and selecting the positive selection value which is less than or equal to the alternative data and less than or equal to the negative selection value;

and extracting corresponding alternative data, and calibrating the corresponding alternative data as distribution data.

The invention has the beneficial effects that:

(1) the safety verification of the account is carried out on the related data input by the user, so that the safety of the account is ensured, and the problem that the system analysis of the user is deviated due to the fact that other people log in the user, and the distribution accuracy of the system is influenced is avoided;

(2) the relevant data of the user is subjected to correlation analysis, and the numerical values in the data are repeatedly combined and calculated, so that the relevant habits and the learning ability of the user are calculated, the course distribution of the user is screened once according to the relevant learning habits, the accuracy of data analysis is improved, and the accuracy of course distribution is improved;

the course is integrally processed through course screening input by a user in real time, reverse derivation is carried out according to the learning ability and the understanding ability of the user, secondary screening is carried out, corresponding learning duration is calculated, course selection is carried out according to the learning duration, time consumed by data analysis is reduced, and working efficiency is improved.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a system block diagram of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious 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, the present invention is an online education course sharing and distributing system based on internet and mobile terminal, including a user terminal, an authentication unit, a service terminal, a course unit, a course division unit and a feedback unit;

the user side is used for a user to log in a related account and input course information needing learning, the user logs in the related account and inputs the course information needing learning to be calibrated into log-in information and course information needing learning, the course information needing learning comprises word-needing data and time-needing data, the word-needing data refers to course keywords input by the user and interested by the user, the time-needing data refers to the time needing learning by the user, and the log-in information is transmitted to the security unit;

the server stores related recorded information which is logged in and input by a user in the past, the recorded information comprises accounting information and lesson recording information, the lesson recording information comprises word recording data, time recording data, real data, required data, recorded data, difficulty recording data, inscription data and program recording data, the word recording data refers to keywords input by the user when the user needs to learn each time in the past, the time recording data refers to the time when the user needs to learn each time in the past, the real data refers to the actual learning time of the user when the user learns each time in the past, the required data refers to the times of courses which the user needs in the past, the recorded data refers to the grades after learning each time in the past, the difficulty recording data refers to the difficulty classifications of the user learning courses in the past (and the difficulty classifications are obtained by classifying according to a set classification method, namely division for pre-examination), the inscription data refers to a time point which is used in the past time and needs course training each time, the programming data refers to courses which are learned by a user in the past time, the security and verification unit obtains accounting information from the server side and performs security and verification operation on the accounting information and the login information together, and the specific operation process of the security and verification operation is as follows:

obtaining login information, calibrating a user input account in the login information into input account data, and calibrating a password corresponding to the user input account in the login information into input password data;

acquiring accounting information, calibrating a user account recorded in the accounting information into recording account data, and calibrating a password corresponding to the user account recorded in the accounting information into recording password data;

extracting input account data and record account data, matching the input account data with the record account data, judging that the input account data exists when data corresponding to the input account data are matched from the record account data, selecting record password data corresponding to the record account data, generating a password verification signal, judging that the input account data do not exist when the data corresponding to the input account data cannot be matched from the record account data, generating an account error signal, and sending the account error signal to a user terminal;

the user side automatically skips to an account registration interface after receiving the account error signal, reminds the user to provide registration-related data and performs account registration;

after the password verification signal is identified, extracting the recorded password data corresponding to the recorded account data and the input password data corresponding to the input account data, and performing password verification on the corresponding recorded password data and the corresponding input password data, specifically:

when the matching result of the corresponding recorded password data is consistent with the matching result of the corresponding input password data, judging that the password is correct, and generating a login input signal;

extracting a login input signal and a login signal, identifying the login input signal and the login signal, automatically jumping to a login interface when the login signal is identified, jumping out a bullet frame with a wrong password, re-logging, and automatically jumping to the input interface when the login input signal is identified so that a user can input related data needing to be learned;

the course unit is internally stored with real course information, acquires the word recording data, the time recording data, the real data, the data required for recording, the difficult data, the data engraved by recording and the data programmed by recording from the server, and transmits the real course information, the word recording data, the time recording data, the real data, the data required for recording, the data engraved by recording, the data difficult to record, the data engraved by recording and the data programmed to the course sub-units;

the course sub-unit is used for carrying out course analysis operation on real course information, word recording data, timing data, real recording data, data required for recording, data recording, difficult recording data, carving data and programming data together, and the specific operation process of the course analysis operation is as follows:

selecting corresponding real course information, word recording data, time recording data, real recording data, required recording data, recorded data, difficult recording data, inscription data and journey recording data according to the input account data;

according to the input account data, extracting corresponding marking data and inscription data, recording inscription data corresponding to the data required for each marking, marking the time point of the data required for each marking, marking a plurality of time points, calculating the time difference between every two adjacent marking data, and marking the time difference between every two adjacent marking data as the time required difference;

extracting a plurality of time demand difference values, summing the plurality of time demand difference values to calculate the sum of the total time demand difference values, and dividing the total time demand difference values by the number of the plurality of time demand difference values to calculate a time demand mean value (counting the time interval for carrying out one-time learning);

according to the input account data, extracting a plurality of corresponding time data and recorded data, and performing difference value calculation on the time data and the recorded data to calculate a plurality of real-time difference values, performing mean value calculation on the real-time difference values according to a calculation mode of a time-required mean value to calculate a real-time mean value, selecting the real-time mean value, and performing positive and negative value calibration on the real-time mean value, wherein the method specifically comprises the following steps:

comparing the real-time mean value with a numerical value of zero, judging that the user completes learning in advance within a specified time when the real-time mean value is larger than zero, calibrating the corresponding real-time mean value as a real-time positive mean value, judging that the user does not complete learning within the specified time when the real-time mean value is smaller than zero, calibrating the corresponding real-time mean value as a real-time negative mean value, judging that the user completes learning within the specified time when the real-time mean value is equal to zero, and calibrating the corresponding real-time mean value as a real-time mean-free value; (calculating the difference between the input time and the actual time, and judging whether the input time and the actual time are positive or negative);

counting the occurrence times of the real-time positive average value, the real-time negative average value and the real-time free average value, and according to the proportion calculation formula: the ratio = the number of times/total number of times of the corresponding numerical value, the ratio values corresponding to the real-time positive average value, the real-time negative average value and the real-time free average value are calculated and respectively marked as a real positive ratio, a real negative ratio and a real free ratio;

according to the input account data, extracting corresponding word recording data and program recording data, marking each character of the word recording data to obtain a word recording character group, marking each character of the program recording data to obtain a program recording character group, and matching the word recording character group with the program recording character group, wherein the specific steps are as follows:

extracting each character in the word-recording character group respectively, matching the character with the stroke-recording character group, marking the character with the consistent matching result as a key character, counting the number of the key characters, marking the number of the key characters as key times, carrying out proportion calculation on the key times and the number of the characters in the stroke-recording character group so as to calculate a proportion value, calculating a plurality of proportion values according to the same proportion value calculation method, carrying out mean value calculation on the plurality of proportion values, and calculating the proportion value;

according to the input account data, extracting corresponding marked data and difficult data, and analyzing the influence of the marked data according to different difficult data, specifically:

keeping other data the same according to the difficulty recording data, selecting corresponding difficulty recording data, carrying out difficulty difference calculation on different difficulty recording data, calculating difficulty recording difference, carrying out corresponding numerical processing calculation on the difficulty recording difference and the difficulty recording difference, and calculating a result influence factor u1, wherein the calculation formula of the processing calculation is as follows: recording difference = difficulty recording difference u1, calculating the mean value of difficulty recording data, calculating the difficulty recording mean value, calculating the mean value of difficulty recording data, and calculating the mean value of difficulty recording data;

keeping all other numerical values the same, selecting different difficult-to-remember mean values, keeping the remembered data unchanged, and marking the remembered data as basic performance data;

extracting an actual positive occupation ratio value, an actual negative occupation ratio value, an actual free occupation ratio value, a result influence factor u1, recording a difficult mean value, recording a mean value, a heavy occupation mean value, a real-time mean value and a time demand mean value, and transmitting the actual positive occupation ratio value, the actual negative occupation ratio value, the actual free occupation ratio value, the result influence factor u1, basic result data, the difficult occupation mean value, the recording mean value, the heavy occupation ratio value, the real-time mean value and the time demand mean value and the actual course information to a feedback unit;

the feedback unit acquires the required word data and the time demand data from the user side, and performs feedback judgment operation on the required word data and the time demand data, the real-positive ratio, the real-negative ratio, the real-free ratio, the basic result data, the result influence factor u1, the difficulty average, the occupation ratio, the real-time average, the time demand average and the real course information, wherein the specific operation process of the feedback judgment operation is as follows:

acquiring real course information, calibrating the course name in real course data as course name data, calibrating the course length in real course data as course length data, and calibrating the course difficulty in real course data as course difficulty data;

selecting required word data, matching the required word data with program name data, selecting program name data corresponding to the required word data, performing character marking on the required word data and the program name data, selecting characters with the same matching result as the program name data, counting the number of the same characters, performing proportion calculation according to the corresponding program name data, and calculating a name proportion value;

the name ratio and the weight average value are subjected to difference calculation, a two-account difference value is calculated, a ratio preset value is set, when the two-account difference value is smaller than the preset value, a matching signal is generated, otherwise, an error signal is generated, the matching signal and the error signal are identified, when the error signal is identified, an error-free signal is generated, word-requiring data is collected again, when the matching signal is identified, the process name data belonging to the matching requirement is marked as alternative data, and alternative judgment is carried out on the alternative data, specifically:

selecting a real positive proportion value, a real negative proportion value, a real-free proportion value and a real-time average value, respectively carrying out numerical calculation on the real positive proportion value, the real negative proportion value and the real-free proportion value and the real-time average value, calculating numerical values corresponding to the real positive proportion value, the real negative proportion value and the real-free proportion value, respectively marking the numerical values as a positive value, a negative value and a zero value, selecting the positive value and the negative value, and marking the positive value and the negative value as range adjustment values;

selecting a time demand mean value, selecting a time point of last learning according to the inscription data, and extracting the time point of current input, wherein the time point of current input can be subjected to data extraction through a timing unit arranged in a feedback unit, the corresponding time point of last learning in the inscription data is selected by sequencing the time points of the inscription data, namely the last inscription data, performing difference calculation on the two to generate a learning time difference, comparing the learning time difference with the time demand mean value, judging that learning is performed according to progress when the learning time difference is less than or equal to the time demand mean value to generate a conventional signal, judging that the learning time difference is long when the learning time difference is greater than the time demand mean value, generating a lagging signal, extracting the conventional signal or the lagging signal, performing identification marking on the conventional signal or the lagging signal, and giving a value u2 to the lagging signal when the conventional signal is identified, then the conventional signal is assigned a value u3, u2 and u3 are collectively labeled as assigned data FZi, i =1,2, and u2 is a positive value and u3 is a negative value;

extracting corresponding journey length data, journey difficulty data and time demand data according to the alternative data, substituting the journey length data, journey difficulty data and time demand data and the achievement influence factor u1, the difficulty recording mean value, the basic achievement data, the real-time mean value, the assigned value data and the recorded mean value into a calculation formula:

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calculating unknown data run-length data CC according to known values in a calculation formula, wherein JC is expressed as a mean value, JN is expressed as a difficult-to-remember mean value, CN is expressed as run-difficult data, u1 is expressed as a run-length influence factor, CJ is expressed as basic run data, FZi is expressed as assigned data, XS is expressed as time-required data, CC is expressed as run-length data, SJ is expressed as a time-required mean value, and e1 is expressed as a time-length image conversion factor;

extracting the calculated path length data CC, calibrating the path length data CC into a selected path length value, and performing data matching in the alternative data according to the selected path length value, wherein the method specifically comprises the following steps:

setting a preset selection value R1, respectively carrying out addition and subtraction calculation on the preset selection value R1 and the selection path length value, calibrating the value obtained by subtracting R1 from the selection path length value as a positive selection value, calibrating the value obtained by adding R1 to the selection path length value as a negative selection value, carrying out range selection on the positive selection value, the negative selection value and the alternative data, and selecting the positive selection value which is less than or equal to the alternative data and less than or equal to the negative selection value;

and extracting corresponding alternative data, calibrating the corresponding alternative data into distribution data, and sending the distribution data to a user side for selection by a user.

When the invention works, a user at a user end logs in a related account and inputs course information needing to be learned, the user logs in the related account and inputs the course information needing to be learned to be calibrated into login information and course information, a server end stores related recorded information which is logged in and input by the user in the past, the recorded information comprises accounting information and course recording information, an authentication unit acquires the accounting information from the server end, the accounting information and the login information are verified together to obtain login input signals and login signals, the login input signals and the login signals jump to an input interface and a login interface respectively according to the login input signals and the login signals, a course processing unit stores real course information, word recording data, time recording data, real data, demand recording data, formation data, difficult recording data, inscription data and course recording data are acquired from the server end, and the real course information, the word recording data, the time recording data, the real course recording data and the course recording data, The lesson division unit carries out lesson analysis operation on the actual lesson information, the word-recording data, the time-recording data, the actual data, the need-recording data, the difficulty-recording data, the carving data and the stroke-recording data together to obtain an actual positive occupation ratio, an actual negative occupation ratio, an actual free occupation ratio, a score influence factor u1, a difficulty-recording average, a mean value, a re-occupation average, a real-time average value and a time-demand average value, and transmits the actual positive occupation ratio, the actual negative occupation ratio, the score influence factor u1, the difficulty-recording average value, the mean value, the re-occupation ratio, the real-time average value, the time-demand average value and the actual score data together to a feedback and updating unit which carries out feedback judgment operation on the required word data, the time-demand data, the actual positive occupation ratio, the actual negative occupation ratio, the actual free occupation ratio, the basic score data, the score influence factor u1, the hard-recording average value, the mean value, the re-occupation ratio, the real-time average value and the actual lesson information, and obtaining distribution data, sending the distribution data to the user side, and selecting courses by the user side according to the distribution data.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.