CN113238826A - Dynamic change system for AOD screen display - Google Patents

Abstract

The invention discloses a dynamic change system of AOD screen-off display, which relates to the technical field of dynamic change of screen-off display and solves the technical problem that the efficiency of energy-saving electric quantity is reduced because the time period for screen-off display cannot be screened in the prior art, wherein a time selection unit is used for selecting the time period for screen-off display of a user mobile phone terminal, the screen-off time point and the screen-on time point of the user mobile phone terminal all day are obtained and marked as the screen-off time period, then the screen-off time period is divided into a plurality of detection time periods, a selection coefficient XZi of the detection time period is obtained through a formula, and if the selection coefficient XZi of the detection time period is less than the selection coefficient threshold of the detection time period, the screen-off display is judged to be required for the corresponding detection time period; the time periods needing screen display are screened, so that the efficiency of saving electric quantity is improved, and meanwhile, the use quality of screen display setting by a user is enhanced.

Description

Dynamic change system for AOD screen display

Technical Field

The invention relates to the technical field of dynamic change of information screen display, in particular to a dynamic change system of AOD information screen display.

Background

The screen-off display function is that when the mobile phone is in a locked state, a partial area of the screen keeps on being long and bright, and information such as time, notice and the like is displayed. Therefore, for the user who is used to check the time by the mobile phone, the mobile phone screen does not need to be frequently lightened, and the method is very convenient. Because oled can actively emit light, the clock and some common information are only lighted by individual pixels, so that a smart phone user can press a power key less frequently to light the whole screen to check whether the clock box has information such as incoming calls and short messages, and relatively speaking, the backlight of the whole screen can be turned on to save power compared with the traditional led screen.

However, in the prior art, the time period for displaying the information screen cannot be screened, which results in the efficiency of saving energy and electricity.

Disclosure of Invention

The invention aims to provide a dynamic change system of AOD screen-off display, which selects a time period of screen-off display of a user mobile phone terminal through a time selection unit, thereby setting screen-off display of the user mobile phone terminal, acquiring a screen-off time point and a screen-on time point of the user mobile phone terminal all day, marking the screen-off time points as screen-off time periods, dividing the screen-off time periods into a plurality of detection time periods, acquiring a selection coefficient XZi of the detection time periods through a formula, and comparing a selection coefficient XZi of the detection time periods with a selection coefficient threshold of the detection time periods: if the selection coefficient XZi of the detection time period is not less than the selection coefficient threshold of the detection time period, judging that the corresponding detection time period does not need to be displayed on the screen, namely marking the corresponding detection time period as a non-screen display time period, and sending the non-screen display time period to the dynamic management platform; if the selection coefficient XZi of the detection time period is less than the selection coefficient threshold of the detection time period, judging that the corresponding detection time period needs to be subjected to screen displaying, namely marking the corresponding detection time period as a screen displaying time period, and sending the screen displaying time period to the dynamic management platform; the time periods needing screen display are screened, so that the efficiency of saving electric quantity is improved, and meanwhile, the use quality of screen display setting by a user is enhanced.

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

a dynamic change system for AOD screen display comprises a dynamic management platform, a position replacement unit, a display selection unit, a time selection unit, an influence detection unit, a registration unit and a database;

the time selection unit is used for selecting the time period for displaying the screen of the user mobile phone terminal, so that the screen of the user mobile phone terminal is displayed, and the specific selection process is as follows:

step S1: acquiring a screen-off time point and a screen-on time point of a user mobile phone terminal all day, marking the screen-off time points as screen-off time periods, dividing the screen-off time periods into a plurality of detection time periods, and marking the detection time periods as i, i is 1, 2, … …, n, and n is a positive integer;

step S2: acquiring the frequency of using the mobile phone by the user in the detection time period, and marking the frequency of using the mobile phone by the user in the detection time period as PLi;

step S3: acquiring the quantity of information received by a user in a detection time period, and marking the quantity of the information received by the user in the detection time period as SLi;

step S4: by the formula

Obtaining a selection coefficient XZi of a detection time period, wherein a1, a2 and a3 are all proportional coefficients, a1 is more than a2 is more than a3 is more than 0, and beta is an error correction factor and is 2.3021251;

step S5: compare the selection coefficient XZi for the detection time period to a selection coefficient threshold for the detection time period:

if the selection coefficient XZi of the detection time period is not less than the selection coefficient threshold of the detection time period, judging that the corresponding detection time period does not need to be displayed on the screen, namely marking the corresponding detection time period as a non-screen display time period, and sending the non-screen display time period to the dynamic management platform;

if the selection coefficient XZi of the detection time period is less than the selection coefficient threshold of the detection time period, it is determined that the corresponding detection time period needs to be displayed on the screen, that is, the corresponding detection time period is marked as a screen display time period, and the screen display time period is sent to the dynamic management platform.

Further, after receiving the message screen display time period, the dynamic management platform generates a display content selection signal and sends the display content selection signal to the display selection unit, after receiving the display content selection signal, analyzing software use information in a user mobile phone terminal so as to select display content, wherein the display content is represented by push information of software in the mobile phone terminal, the software use information comprises duration data, interval data and frequency data, the duration data is the average single use duration of the software in the user mobile phone terminal, the interval data is the interval duration between the last use time and the current time of the software in the user mobile phone terminal, the frequency data is the use frequency of the software in the user mobile phone terminal, and the software is marked as o, o is 1, 2, … …, m, and m is a positive integer, and the specific analysis and detection process comprises the following steps:

step SS 1: acquiring the average single use time length of software in a user mobile phone terminal, and marking the average single use time length of the software in the user mobile phone terminal as SCo;

step SS 2: acquiring the interval duration of the last time of software in the user mobile phone terminal and the current time, and marking the interval duration of the last time of software in the user mobile phone terminal and the current time as JGo;

step SS 3: acquiring the use frequency of software in a user mobile phone terminal, and marking the use frequency of the software in the user mobile phone terminal as PLo;

step SS 4: by the formula

Obtaining display selection coefficients FXo of the software, wherein b1, b2 and b3 are all proportionality coefficients, and b1 is more than b2 is more than b3 is more than 0;

step SS 5: the display selection factor FXo of the software is compared to a display selection factor threshold:

if the display selection coefficient FXo of the software is larger than or equal to the display selection coefficient threshold, judging that the corresponding software is suitable for display content, generating a display content determination signal, marking the corresponding software as the display software, and then sending the display content determination signal and the display software to the dynamic management platform;

if the display selection coefficient FXo of the software is less than the display selection coefficient threshold, the corresponding software is judged to be not suitable for the display content, a display content exclusion signal is generated, the corresponding software is marked as non-display software, and then the display content exclusion signal and the non-display software are sent to the dynamic management platform.

Further, after receiving the display content determination signal and the display software, the dynamic management platform generates a position replacement signal and sends the position replacement signal to the position replacement unit, and after receiving the position replacement signal, the position replacement unit replaces the position displayed on the screen, and the specific replacement process is as follows:

step T1: dividing a mobile phone terminal screen of a user into a plurality of areas, marking the divided areas as display areas and setting a number k, wherein k is 1, 2, … …, p and p are positive integers, then acquiring the display duration of the display areas, and marking the display duration of the display areas as XSk;

step T2: acquiring the use interval duration of the display area, and marking the use interval duration of the display area as JGk;

step T3: acquiring the temperature in the display process of the display area, and marking the temperature in the display process of the display area as WDk;

step T4: by the formula

Acquiring a replacement coefficient GHk of a display area, wherein s1, s2 and s3 are proportional coefficients, s1 is more than s2 is more than s3 is more than 0, and e is a natural constant;

step T5: compare the replacement factor GHk for the display area to the replacement factor threshold for the display area:

if the replacement coefficient GHk of the display area is not less than the replacement coefficient threshold of the display area, judging that the corresponding display area needs to be replaced, generating a display position replacement signal and sending the display position replacement signal to the dynamic management platform, and the dynamic management platform receives the display position replacement signal and controls the display area of the mobile phone terminal information screen to be replaced;

if the replacement coefficient GHk of the display area is less than the replacement coefficient threshold of the display area, it is determined that the corresponding display area does not need to be replaced, a display position non-replacement signal is generated, and the display position non-replacement signal is sent to the dynamic management platform.

Further, the influence detection unit is used for analyzing the operation information displayed by the message screen, so as to detect the use of the message screen, the operation information displayed by the message screen comprises evaluation data, use data and growth data, the evaluation data is the ratio of the good evaluation quantity to the bad evaluation quantity of the user for the message screen, the use data is the total number of the users for setting the message screen, the growth data is the growth speed of the number of the users for displaying the message screen, and the specific analysis and detection process is as follows:

step TT 1: acquiring the ratio of the number of good comments to the number of bad comments of a user on the information screen display, and marking the ratio of the number of good comments to the number of bad comments of the user on the information screen display as HBZ;

step TT 2: acquiring the total number of the users who set the information screen display, and marking the total number of the users who set the information screen display as ZRS;

step TT 3: acquiring the number of people who use the information screen to display the user and marking the number of people who use the information screen to display the user as ZSD;

step TT 4: by the formula

Acquiring a user influence coefficient XY displayed by a screen, wherein f1, f2 and f3 are all proportional coefficients, and f1 is greater than f2 is greater than f3 is greater than 0;

step TT 5: comparing the user influence coefficient XY of the information screen display with the user influence coefficient threshold of the information screen display:

if the user influence coefficient XY displayed in the screen-off display is not less than the user influence coefficient threshold displayed in the screen-off display, judging that the use effect of the screen-off display is good, generating a signal with a good effect and sending the signal with the good effect to the dynamic management platform;

and if the user influence coefficient XY displayed on the screen is less than the user influence coefficient threshold displayed on the screen, judging that the use effect of the screen is not good, generating an effect general signal and sending the effect general signal to the dynamic management platform.

Further, the registration login unit is used for the manager and the user to submit manager information and user information for registration through the mobile phone terminal, and sending the manager information and the user information which are successfully registered to the database for storage, wherein the manager information comprises the name, the age, the time of entry and the mobile phone number of the real name authentication of the person, and the user information comprises the name, the age, the mobile phone purchasing time of the user information and the mobile phone number of the real name authentication of the person.

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

1. in the invention, a time period for displaying screen saving of a user mobile phone terminal is selected through a time selection unit, so that screen saving display setting is carried out on the user mobile phone terminal, a screen saving time point and a screen lightening time point of the user mobile phone terminal all day are obtained and marked as screen saving time periods, then the screen saving time periods are divided into a plurality of detection time periods, a selection coefficient XZi of the detection time periods is obtained through a formula, and a selection coefficient XZi of the detection time periods is compared with a selection coefficient threshold of the detection time periods: if the selection coefficient XZi of the detection time period is not less than the selection coefficient threshold of the detection time period, judging that the corresponding detection time period does not need to be displayed on the screen, namely marking the corresponding detection time period as a non-screen display time period, and sending the non-screen display time period to the dynamic management platform; if the selection coefficient XZi of the detection time period is less than the selection coefficient threshold of the detection time period, judging that the corresponding detection time period needs to be subjected to screen displaying, namely marking the corresponding detection time period as a screen displaying time period, and sending the screen displaying time period to the dynamic management platform; the time period needing information screen display is screened, so that the efficiency of saving electric quantity is improved, and the use quality of the information screen display set by a user is improved;

2. in the invention, after a position replacing signal is received by a position replacing unit, the position displayed by an information screen is replaced, a mobile phone terminal screen of a user is divided into a plurality of areas, the divided areas are marked as display areas, then the display duration, the use interval duration and the temperature in the display process of the display areas are obtained, a replacing coefficient GHk of the display areas is obtained through a formula, if the replacing coefficient GHk of the display areas is more than or equal to the replacing coefficient threshold of the display areas, the corresponding display areas are judged to be replaced, a display position replacing signal is generated and sent to a dynamic management platform, the dynamic management platform receives the display position replacing signal and controls the information screen display areas of the mobile phone terminal to be replaced; if the replacement coefficient GHk of the display area is less than the replacement coefficient threshold of the display area, judging that the corresponding display area does not need to be replaced, generating a display position non-replacement signal and sending the display position non-replacement signal to the dynamic management platform; the position displayed by the screen is changed in time, so that the circuit board is prevented from being damaged, and the service life of the mobile phone screen is shortened.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

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

Detailed Description

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

As shown in fig. 1, a dynamic change system for AOD information screen display includes a dynamic management platform, a location changing unit, a display selecting unit, a time selecting unit, an influence detecting unit, a registration unit, and a database;

the registration login unit is used for the manager and the user to submit manager information and user information through the mobile phone terminal for registration, and sending the manager information and the user information which are successfully registered to the database for storage, wherein the manager information comprises the name, the age, the time of entry and the mobile phone number for real-name authentication of the manager, and the user information comprises the name, the age, the mobile phone purchase time and the mobile phone number for real-name authentication of the user;

the time selection unit is used for selecting the time period for displaying the screen of the user mobile phone terminal, so that the screen of the user mobile phone terminal is displayed, and the specific selection process is as follows:

step S1: acquiring a screen-off time point and a screen-on time point of a user mobile phone terminal all day, marking the screen-off time points as screen-off time periods, dividing the screen-off time periods into a plurality of detection time periods, and marking the detection time periods as i, i is 1, 2, … …, n, and n is a positive integer;

step S2: acquiring the frequency of using the mobile phone by the user in the detection time period, and marking the frequency of using the mobile phone by the user in the detection time period as PLi;

step S3: acquiring the quantity of information received by a user in a detection time period, and marking the quantity of the information received by the user in the detection time period as SLi;

step S4: by the formula

Obtaining a selection coefficient XZi of a detection time period, wherein a1, a2 and a3 are all proportional coefficients, a1 is more than a2 is more than a3 is more than 0, and beta is an error correction factor and is 2.3021251;

step S5: compare the selection coefficient XZi for the detection time period to a selection coefficient threshold for the detection time period:

if the selection coefficient XZi of the detection time period is not less than the selection coefficient threshold of the detection time period, judging that the corresponding detection time period does not need to be displayed on the screen, namely marking the corresponding detection time period as a non-screen display time period, and sending the non-screen display time period to the dynamic management platform;

if the selection coefficient XZi of the detection time period is less than the selection coefficient threshold of the detection time period, judging that the corresponding detection time period needs to be subjected to screen displaying, namely marking the corresponding detection time period as a screen displaying time period, and sending the screen displaying time period to the dynamic management platform;

after receiving the message screen display time period, the dynamic management platform generates a display content selection signal and sends the display content selection signal to the display selection unit, analyzing software use information in a user mobile phone terminal so as to select display content, wherein the display content is represented by push information of software in the mobile phone terminal, the software use information comprises duration data, interval data and frequency data, the duration data is the average single use duration of the software in the user mobile phone terminal, the interval data is the interval duration between the last use time and the current time of the software in the user mobile phone terminal, the frequency data is the use frequency of the software in the user mobile phone terminal, and the software is marked as o, o is 1, 2, … …, m, and m is a positive integer, and the specific analysis and detection process comprises the following steps:

step SS 1: acquiring the average single use time length of software in a user mobile phone terminal, and marking the average single use time length of the software in the user mobile phone terminal as SCo;

step SS 2: acquiring the interval duration of the last time of software in the user mobile phone terminal and the current time, and marking the interval duration of the last time of software in the user mobile phone terminal and the current time as JGo;

step SS 3: acquiring the use frequency of software in a user mobile phone terminal, and marking the use frequency of the software in the user mobile phone terminal as PLo;

step SS 4: by the formula

Obtaining display selection coefficients FXo of the software, wherein b1, b2 and b3 are all proportionality coefficients, and b1 is more than b2 is more than b3 is more than 0;

step SS 5: the display selection factor FXo of the software is compared to a display selection factor threshold:

if the display selection coefficient FXo of the software is larger than or equal to the display selection coefficient threshold, judging that the corresponding software is suitable for display content, generating a display content determination signal, marking the corresponding software as the display software, and then sending the display content determination signal and the display software to the dynamic management platform;

if the display selection coefficient FXo of the software is less than the display selection coefficient threshold value, judging that the corresponding software is not suitable for display content, generating a display content exclusion signal, marking the corresponding software as non-display software, and then sending the display content exclusion signal and the non-display software to the dynamic management platform;

after receiving the display content determination signal and the display software, the dynamic management platform generates a position replacement signal and sends the position replacement signal to the position replacement unit, and after the position replacement unit receives the position replacement signal, the position displayed on the screen is replaced, and the specific replacement process is as follows:

step T1: dividing a mobile phone terminal screen of a user into a plurality of areas, marking the divided areas as display areas and setting a number k, wherein k is 1, 2, … …, p and p are positive integers, then acquiring the display duration of the display areas, and marking the display duration of the display areas as XSk;

step T2: acquiring the use interval duration of the display area, and marking the use interval duration of the display area as JGk;

step T3: acquiring the temperature in the display process of the display area, and marking the temperature in the display process of the display area as WDk;

step T4: by the formula

Acquiring a replacement coefficient GHk of a display area, wherein s1, s2 and s3 are proportional coefficients, s1 is more than s2 is more than s3 is more than 0, and e is a natural constant;

step T5: compare the replacement factor GHk for the display area to the replacement factor threshold for the display area:

if the replacement coefficient GHk of the display area is not less than the replacement coefficient threshold of the display area, judging that the corresponding display area needs to be replaced, generating a display position replacement signal and sending the display position replacement signal to the dynamic management platform, and the dynamic management platform receives the display position replacement signal and controls the display area of the mobile phone terminal information screen to be replaced;

if the replacement coefficient GHk of the display area is less than the replacement coefficient threshold of the display area, judging that the corresponding display area does not need to be replaced, generating a display position non-replacement signal and sending the display position non-replacement signal to the dynamic management platform;

influence detecting element is used for analyzing the operation information that the news screen shows to the use that the news screen shows detects, the operation information that the news screen shows includes evaluation data, use data and growth data, evaluation data show for the news screen and receive the user's good rate quantity and the bad rate quantity's ratio, use data are the total number of users that set up the news screen display, growth data are the number growth rate that uses the news screen display user, concrete analysis testing process is as follows:

step TT 1: acquiring the ratio of the number of good comments to the number of bad comments of a user on the information screen display, and marking the ratio of the number of good comments to the number of bad comments of the user on the information screen display as HBZ;

step TT 2: acquiring the total number of the users who set the information screen display, and marking the total number of the users who set the information screen display as ZRS;

step TT 3: acquiring the number of people who use the information screen to display the user and marking the number of people who use the information screen to display the user as ZSD;

step TT 4: by the formula

Acquiring a user influence coefficient XY displayed by a screen, wherein f1, f2 and f3 are all proportional coefficients, and f1 is greater than f2 is greater than f3 is greater than 0;

step TT 5: comparing the user influence coefficient XY of the information screen display with the user influence coefficient threshold of the information screen display:

if the user influence coefficient XY displayed in the screen-off display is not less than the user influence coefficient threshold displayed in the screen-off display, judging that the use effect of the screen-off display is good, generating a signal with a good effect and sending the signal with the good effect to the dynamic management platform;

and if the user influence coefficient XY displayed on the screen is less than the user influence coefficient threshold displayed on the screen, judging that the use effect of the screen is not good, generating an effect general signal and sending the effect general signal to the dynamic management platform.

The working principle of the invention is as follows:

a dynamic change system of AOD screen-off display is characterized in that when the system works, a time period of screen-off display of a user mobile phone terminal is selected through a time selection unit, so that screen-off display setting is carried out on the user mobile phone terminal, a screen-off time point and a screen-on time point of the user mobile phone terminal all day are obtained and are marked as screen-off time periods, then the screen-off time periods are divided into a plurality of detection time periods, the frequency of using a mobile phone by a user in the detection time periods and the information quantity received by the user in the detection time periods are obtained, a selection coefficient XZi of the detection time periods is obtained through a formula, and a selection coefficient XZi of the detection time periods is compared with a selection coefficient threshold of the detection time periods: if the selection coefficient XZi of the detection time period is not less than the selection coefficient threshold of the detection time period, judging that the corresponding detection time period does not need to be displayed on the screen, namely marking the corresponding detection time period as a non-screen display time period, and sending the non-screen display time period to the dynamic management platform; if the selection coefficient XZi of the detection time period is less than the selection coefficient threshold of the detection time period, it is determined that the corresponding detection time period needs to be displayed on the screen, that is, the corresponding detection time period is marked as a screen display time period, and the screen display time period is sent to the dynamic management platform.

The above formulas are all calculated by taking the numerical value of the dimension, the formula is a formula which obtains the latest real situation by acquiring a large amount of data and performing software simulation, and the preset parameters in the formula are set by the technical personnel in the field according to the actual situation.

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.

Claims (4)

1. A dynamic change system for AOD screen-turning display is characterized by comprising a dynamic management platform, a position replacement unit, a display selection unit, a time selection unit, an influence detection unit, a registration unit and a database;

the time selection unit is used for selecting the time period for displaying the screen of the user mobile phone terminal, so that the screen of the user mobile phone terminal is displayed, and the specific selection process is as follows:

step S1: acquiring a screen-off time point and a screen-on time point of a user mobile phone terminal all day, marking the screen-off time points as screen-off time periods, dividing the screen-off time periods into a plurality of detection time periods, and marking the detection time periods as i, i is 1, 2, … …, n, and n is a positive integer;

step S2: acquiring the frequency of using the mobile phone by the user in the detection time period, and marking the frequency of using the mobile phone by the user in the detection time period as PLi;

step S3: acquiring the quantity of information received by a user in a detection time period, and marking the quantity of the information received by the user in the detection time period as SLi;

step S4: by the formula

Obtaining a selection coefficient XZi of a detection time period, wherein a1, a2 and a3 are all proportional coefficients, a1 is more than a2 is more than a3 is more than 0, and beta is an error correction factor and is 2.3021251;

step S5: compare the selection coefficient XZi for the detection time period to a selection coefficient threshold for the detection time period:

if the selection coefficient XZi of the detection time period is not less than the selection coefficient threshold of the detection time period, judging that the corresponding detection time period does not need to be displayed on the screen, namely marking the corresponding detection time period as a non-screen display time period, and sending the non-screen display time period to the dynamic management platform;

if the selection coefficient XZi of the detection time period is less than the selection coefficient threshold of the detection time period, judging that the corresponding detection time period needs to be subjected to screen displaying, namely marking the corresponding detection time period as a screen displaying time period, and sending the screen displaying time period to the dynamic management platform;

the dynamic management platform generates a display content selection signal and sends the display content selection signal to the display selection unit after receiving the message screen display time period, after the display selection unit receives the display content selection signal, analyzing software use information in a user mobile phone terminal so as to select display content, wherein the display content is represented by push information of software in the mobile phone terminal, the software use information comprises duration data, interval data and frequency data, the duration data is the average single use duration of the software in the user mobile phone terminal, the interval data is the interval duration between the last use time and the current time of the software in the user mobile phone terminal, the frequency data is the use frequency of the software in the user mobile phone terminal, and the software is marked as o, o is 1, 2, … …, m, and m is a positive integer, and the specific analysis and detection process comprises the following steps:

step SS 1: acquiring the average single use time length of software in a user mobile phone terminal, and marking the average single use time length of the software in the user mobile phone terminal as SCo;

step SS 2: acquiring the interval duration of the last time of software in the user mobile phone terminal and the current time, and marking the interval duration of the last time of software in the user mobile phone terminal and the current time as JGo;

step SS 3: acquiring the use frequency of software in a user mobile phone terminal, and marking the use frequency of the software in the user mobile phone terminal as PLo;

step SS 4: by the formula

Obtaining display selection coefficients FXo of the software, wherein b1, b2 and b3 are all proportionality coefficients, and b1 is more than b2 is more than b3 is more than 0;

step SS 5: the display selection factor FXo of the software is compared to a display selection factor threshold:

if the display selection coefficient FXo of the software is larger than or equal to the display selection coefficient threshold, judging that the corresponding software is suitable for display content, generating a display content determination signal, marking the corresponding software as the display software, and then sending the display content determination signal and the display software to the dynamic management platform;

if the display selection coefficient FXo of the software is less than the display selection coefficient threshold, the corresponding software is judged to be not suitable for the display content, a display content exclusion signal is generated, the corresponding software is marked as non-display software, and then the display content exclusion signal and the non-display software are sent to the dynamic management platform.

2. The dynamic change system of AOD screen-saving display according to claim 1, wherein the dynamic management platform generates a position change signal and sends the position change signal to the position change unit after receiving the display content determination signal and the display software, and the position change unit changes the position of screen-saving display after receiving the position change signal, and the specific change process is as follows:

step T1: dividing a mobile phone terminal screen of a user into a plurality of areas, marking the divided areas as display areas and setting a number k, wherein k is 1, 2, … …, p and p are positive integers, then acquiring the display duration of the display areas, and marking the display duration of the display areas as XSk;

step T2: acquiring the use interval duration of the display area, and marking the use interval duration of the display area as JGk;

step T3: acquiring the temperature in the display process of the display area, and marking the temperature in the display process of the display area as WDk;

step T4: by the formula

Acquiring a replacement coefficient GHk of the display area, wherein s1, s2 and s3 are all proportionality coefficients, and s1 >s2 is more than s3 is more than 0, and e is a natural constant;

step T5: compare the replacement factor GHk for the display area to the replacement factor threshold for the display area:

if the replacement coefficient GHk of the display area is not less than the replacement coefficient threshold of the display area, judging that the corresponding display area needs to be replaced, generating a display position replacement signal and sending the display position replacement signal to the dynamic management platform, and the dynamic management platform receives the display position replacement signal and controls the display area of the mobile phone terminal information screen to be replaced;

if the replacement coefficient GHk of the display area is less than the replacement coefficient threshold of the display area, it is determined that the corresponding display area does not need to be replaced, a display position non-replacement signal is generated, and the display position non-replacement signal is sent to the dynamic management platform.

3. The system according to claim 1, wherein the influence detection unit is configured to analyze operation information of the osd to detect the usage of the osd, the operation information of the osd includes evaluation data, usage data, and growth data, the evaluation data is a ratio of a good evaluation number to a bad evaluation number of users of the osd, the usage data is a total number of users of the osd, and the growth data is a growth rate of the number of users of the osd, and the specific analysis and detection process includes:

step TT 1: acquiring the ratio of the number of good comments to the number of bad comments of a user on the information screen display, and marking the ratio of the number of good comments to the number of bad comments of the user on the information screen display as HBZ;

step TT 2: acquiring the total number of the users who set the information screen display, and marking the total number of the users who set the information screen display as ZRS;

step TT 3: acquiring the number of people who use the information screen to display the user and marking the number of people who use the information screen to display the user as ZSD;

step TT 4: by the formula

Acquiring a user influence coefficient XY displayed by a screen, wherein f1, f2 and f3 are all proportional coefficients, and f1 is greater than f2 is greater than f3 is greater than 0;

step TT 5: comparing the user influence coefficient XY of the information screen display with the user influence coefficient threshold of the information screen display:

if the user influence coefficient XY displayed in the screen-off display is not less than the user influence coefficient threshold displayed in the screen-off display, judging that the use effect of the screen-off display is good, generating a signal with a good effect and sending the signal with the good effect to the dynamic management platform;

and if the user influence coefficient XY displayed on the screen is less than the user influence coefficient threshold displayed on the screen, judging that the use effect of the screen is not good, generating an effect general signal and sending the effect general signal to the dynamic management platform.

4. The system of claim 1, wherein the login unit is configured to enable a manager and a user to submit manager information and user information through a mobile phone terminal for registration, and send the manager information and the user information that are successfully registered to the database for storage, the manager information includes a name, an age, an enrollment time of the manager and a mobile phone number for authenticating a real name of the person, and the user information includes a name, an age, a mobile phone purchase time of the user information and a mobile phone number for authenticating a real name of the person.

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