CN112380014A

CN112380014A - System resource allocation system and method based on big data

Info

Publication number: CN112380014A
Application number: CN202011285891.1A
Authority: CN
Inventors: 莫雪华
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-17
Filing date: 2020-11-17
Publication date: 2021-02-19

Abstract

The invention discloses a system resource allocation system and a method based on big data, wherein the system resource allocation system comprises two display screens arranged on the front side and the back side of a terminal device, a priority database and a program operation monitoring module, the priority database is used for setting a front-level program and a back-level program for storing each application program, the application program with the priority higher than a certain application program is the front-level program of the application program, the application program with the priority lower than the certain application program is the back-level program of the application program, and the program operation monitoring module controls the display conditions of the two display screens according to the operation condition of the application program.

Description

System resource allocation system and method based on big data

Technical Field

The invention relates to the technical field of big data, in particular to a system resource allocation system and a method based on big data.

Background

Along with the rapid development of science and technology, can only the double-sided screen begin to appear at mobile terminal, the double-sided screen indicates that the positive and negative possess the display screen simultaneously, satisfies the demand different to the screen, and when being in positive screen light, another screen then is closed, has reduced the power consumption that one more screen brought to a certain extent. The front side is a main screen and the back side is an auxiliary screen, the main screen is designed into a full screen, and the back screen is a common back panel in a screen-saving state. In the prior art, when a user plays a game, other application programs are often generated to interrupt a game interface, so that the user experience is influenced.

Disclosure of Invention

The present invention is directed to a system and method for allocating system resources based on big data, so as to solve the problems mentioned in the background art.

In order to solve the technical problems, the invention provides the following technical scheme: a system resource distribution system based on big data comprises two display screens arranged on the front side and the back side of a terminal device, a priority database and a program operation monitoring module, wherein the priority database is used for setting a front-level program and a back-level program for storing each application program, the application program with the priority higher than a certain application program is the front-level program of the application program, the application program with the priority lower than the certain application program is the back-level program of the application program, and the program operation monitoring module controls the display condition of the two display screens according to the operation condition of the application program.

Further, the program operation monitoring module comprises a foreground program detecting module, a program icon allocating module and a display screen displaying module, wherein the foreground program detecting module is used for detecting whether the foreground of the terminal device has application program operation, when the foreground of the terminal device does not have any application program, the program icon allocating module is used for displaying all application program icons in the terminal device on one of the front side or the back side of the display screen, when the foreground of the terminal device has application program operation, the application program is set as a first application program, the display screen on which the first application program operates is collected as the first display screen, the other display screen is a second display screen, the program icon allocating module is used for setting the application program icons of the front-stage program of the first application program on the first display screen, and setting the application program icons of the rear-stage program of the first application program on the second display screen, when the application programs except the first application program are passively triggered to run, the display module of the display screen sets the application program as a second application program, obtains the position of the display screen where the second application program icon is located and determines the display mode according to the position, wherein the passive triggering running is the running of the application program caused by the non-user active clicking.

Further, the display screen display module comprises an icon judgment module, a page content display module, a reminding module and a second display screen gesture acquisition module, when the icon judging module judges that the second application program icon is positioned on the first display screen, the page content display module enables the page content of the second application program to be displayed on the first application program interface through a small window, when the second application program icon is judged to be positioned on the second display screen, the page content display module enables the page content of the second application program to be directly displayed on the second display screen interface, the page content of the second application program is directly displayed on the second display screen interface, the reminding module enables the second display screen to carry out double-flashing screen-off, and in a second time period after the double flashing of the second display screen is finished, the gesture acquisition module of the second display screen acquires the gesture on the second display screen and performs corresponding operation on the second application program interface according to the gesture content.

Further, the program operation monitoring module further comprises a second display screen pressing and collecting module, a first display screen collecting and pressing module and a screen extinguishing control module, wherein the second display screen pressing and collecting module is used for collecting the pressing position of the second display screen, if the pressing position of the second display screen is unchanged in a preset first time period, the first display screen collecting and pressing module is used for collecting the pressing interval duration or the pressing position of the first display screen in the first time period, and the screen extinguishing control module is used for enabling the second display screen to extinguish the screen under the condition that the pressing interval duration is less than or equal to the interval duration threshold or the pressing position is changed.

A big data-based system resource allocation method comprises the following steps:

step S1: the two display screens are arranged on the front side and the back side of the terminal equipment;

presetting priorities among all application programs, wherein the application program with the priority higher than a certain application program is a front-level program of the application program, and the application program with the priority lower than the certain application program is a rear-level program of the application program;

step S2: detecting the running condition of an application program of the terminal equipment, and displaying all application program icons in the terminal equipment on one of the display screens on the front side or the back side when the foreground of the terminal equipment does not run any application program;

when an application program runs in a foreground of the terminal equipment, setting the application program as a first application program, acquiring a first display screen on which the first application program runs, and acquiring a first-level program and a second-level program of the first application program, wherein an application program icon of the first-level program is arranged on the first display screen, and an application program icon of the second-level program is arranged on the second display screen;

step S3: and when the application programs except the first application program run in a passive triggering mode, setting the application program as a second application program, acquiring the position of a display screen where a second application program icon is located, and determining a display mode according to the position, wherein the passive triggering mode is the application program running caused by the active clicking of a non-user.

Further, the step S2 further includes:

and acquiring the pressing position of the second display screen, acquiring the pressing interval duration or the pressing position of the first display screen in the first time period if the pressing position of the second display screen is unchanged in the preset first time period, and turning off the second display screen if the pressing interval duration is less than or equal to the interval duration threshold or the pressing position is changed.

Further, the step S3 of acquiring the position of the display screen where the second application icon is located and determining the display mode according to the position includes:

if the second application icon is located on the first display screen, the page content of the second application is displayed in a small window on the first application interface,

and if the second application program icon is positioned on the second display screen, directly displaying the page content of the second application program on the second display screen interface.

Further, the step S3 further includes:

when the page content of the second application program is directly displayed on the second display screen interface, the second display screen is double-flash-off;

during a second time period after the second display screen double flashes,

if the first gesture is acquired on the second display screen, transmitting the page content of the second application program on the second display screen interface to the first display screen, and displaying the page content on the first application program interface through a small window;

and if the second gesture is collected on the second display screen, carrying out voice broadcast on the page content of the second application program.

Further, the step S3 further includes:

and when the small window is displayed in a third time period of the first display screen, if a third gesture is acquired on the first display screen, transmitting the content displayed last time by the small window on the first display screen to the second display screen for displaying.

Further, when it is detected that the first application program exits from foreground operation, if it is detected that the second application program does not perform processing operation, the page content of the second application program on the interface of the second display screen is transmitted to the first display screen, and is displayed on the first display screen through the small window.

Compared with the prior art, the invention has the following beneficial effects: according to the method and the device, the priorities of the application programs are preset, the icons of the application programs are distributed on the two different display screens according to the different priorities of the application programs, and when other application programs interrupt the currently used application program, the positions of the display screens where the icons are distributed are read, and the display positions of the page contents of the other application programs are selected according to the positions, so that the experience of using the application programs is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a block diagram of a big data-based system resource allocation system according to 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 provides a technical solution: a system resource distribution system based on big data comprises two display screens arranged on the front side and the back side of a terminal device, a priority database and a program operation monitoring module, wherein the priority database is used for setting a front-level program and a back-level program for storing each application program, the application program with the priority higher than a certain application program is the front-level program of the application program, the application program with the priority lower than the certain application program is the back-level program of the application program, and the program operation monitoring module controls the display condition of the two display screens according to the operation condition of the application program.

The program operation monitoring module comprises a foreground program detection module, a program icon distribution module and a display screen display module, wherein the foreground program detection module is used for detecting whether the foreground of the terminal equipment has application program operation or not, when the foreground of the terminal equipment does not have any application program, the program icon distribution module is used for displaying all application program icons in the terminal equipment on one of the display screens on the front side or the back side, when the foreground of the terminal equipment has the application program operation, the application program is set to be a first application program, the display screen on which the first application program operates is collected to be a first display screen, the other display screen is a second display screen, the program icon distribution module is used for setting the application program icon of the front-stage program of the first application program on the first display screen, and setting the application program icon of the rear-stage program of the first application program on the second display screen, when the application programs except the first application program are passively triggered to run, the display module of the display screen sets the application program as a second application program, obtains the position of the display screen where the second application program icon is located and determines the display mode according to the position, wherein the passive triggering running is the running of the application program caused by the non-user active clicking.

The display screen display module comprises an icon judgment module, a page content display module, a reminding module and a second display screen gesture acquisition module, when the icon judging module judges that the second application program icon is positioned on the first display screen, the page content display module enables the page content of the second application program to be displayed on the first application program interface through a small window, when the second application program icon is judged to be positioned on the second display screen, the page content display module enables the page content of the second application program to be directly displayed on the second display screen interface, the page content of the second application program is directly displayed on the second display screen interface, the reminding module enables the second display screen to carry out double-flashing screen-off, and in a second time period after the double flashing of the second display screen is finished, the gesture acquisition module of the second display screen acquires the gesture on the second display screen and performs corresponding operation on the second application program interface according to the gesture content.

The program operation monitoring module further comprises a second display screen pressing and collecting module, a first display screen collecting and pressing module and a screen extinguishing control module, the second display screen pressing and collecting module is used for collecting the pressing position of the second display screen, if the pressing position of the second display screen is unchanged in a preset first time period, the first display screen collecting and pressing module is made to collect the pressing interval duration or the pressing position of the first display screen in the first time period, and the screen extinguishing control module is made to make the second display screen extinguish when the pressing interval duration is less than or equal to the interval duration threshold or the pressing position is changed.

step S2: detecting the running condition of an application program of the terminal equipment, and when no application program runs in the foreground of the terminal equipment, displaying all application program icons in the terminal equipment on one display screen on the front side or the back side, wherein the brightness of the environment where the display screen is located can be acquired, and all application program icons are displayed on the display screen with brighter environment; for example, when the terminal device is placed on a desk with the front side facing upwards, the environment brightness collected by the front side display screen is brighter, the environment brightness collected by the back side display screen is darker, and all nutrition program icons are displayed on the front side display screen;

Step S3: when the application programs except the first application program run in a passive triggering mode, setting the application program as a second application program, acquiring the position of a display screen where a second application program icon is located, and determining a display mode according to the position, wherein the passive triggering mode is the application program running caused by the active clicking of a non-user; as long as the application program which is not actively awakened by the user belongs to the application program passive triggering operation, for example, an incoming call, or other people initiate video communication or voice call to the user, or the application program pushes a message to the terminal equipment of the user belongs to the application program passive triggering operation;

the step S3 of acquiring the position of the display screen where the second application icon is located and determining the display mode according to the position includes:

and if the second application program icon is positioned on the second display screen, directly displaying the page content of the second application program on the second display screen interface. The method has the advantages that the method for judging how to display the page content of the second application program according to the display screen on which the application program icon is positioned is quicker than the method of judging the priority and then displaying, so that the operation calculation amount of the system is reduced, and the working efficiency of the system is improved;

the step S3 further includes:

during a second time period after the second display screen double flashes,

The step S3 further includes:

And when the first application program is detected to exit from the foreground operation, if the second application program is detected not to be processed, transmitting the page content of the second application program on the interface of the second display screen to the first display screen, and displaying the page content on the first display screen through the small window. When the fact that the user does not view the second application program or gestures are not collected on the second display screen is detected, the page content of the second application program is displayed on the first display screen, and therefore the user can be reminded conveniently.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The system resource distribution system based on the big data is characterized by comprising two display screens arranged on the front side and the back side of a terminal device, a priority database and a program operation monitoring module, wherein the priority database is used for setting a front-level program and a back-level program for storing each application program, the application program with the priority higher than a certain application program is the front-level program of the application program, the application program with the priority lower than the certain application program is the back-level program of the application program, and the program operation monitoring module controls the display conditions of the two display screens according to the operation condition of the application program.

2. The big data based system resource allocation system according to claim 1, wherein: the program operation monitoring module comprises a foreground program detection module, a program icon distribution module and a display screen display module, wherein the foreground program detection module is used for detecting whether the foreground of the terminal equipment has application program operation or not, when the foreground of the terminal equipment does not have any application program, the program icon distribution module is used for displaying all application program icons in the terminal equipment on one of the display screens on the front side or the back side, when the foreground of the terminal equipment has the application program operation, the application program is set to be a first application program, the display screen on which the first application program operates is collected to be a first display screen, the other display screen is a second display screen, the program icon distribution module is used for setting the application program icon of the front-stage program of the first application program on the first display screen, and setting the application program icon of the rear-stage program of the first application program on the second display screen, when the application programs except the first application program are passively triggered to run, the display module of the display screen sets the application program as a second application program, obtains the position of the display screen where the second application program icon is located and determines the display mode according to the position, wherein the passive triggering running is the running of the application program caused by the non-user active clicking.

3. The big data based system resource allocation system according to claim 2, wherein: the display screen display module comprises an icon judgment module, a page content display module, a reminding module and a second display screen gesture acquisition module, when the icon judging module judges that the second application program icon is positioned on the first display screen, the page content display module enables the page content of the second application program to be displayed on the first application program interface through a small window, when the second application program icon is judged to be positioned on the second display screen, the page content display module enables the page content of the second application program to be directly displayed on the second display screen interface, the page content of the second application program is directly displayed on the second display screen interface, the reminding module enables the second display screen to carry out double-flashing screen-off, and in a second time period after the double flashing of the second display screen is finished, the gesture acquisition module of the second display screen acquires the gesture on the second display screen and performs corresponding operation on the second application program interface according to the gesture content.

4. The big data based system resource allocation system according to claim 3, wherein: the program operation monitoring module further comprises a second display screen pressing and collecting module, a first display screen collecting and pressing module and a screen extinguishing control module, wherein the second display screen pressing and collecting module is used for collecting the pressing position of the second display screen, if the pressing position of the second display screen is unchanged in a preset first time period, the first display screen collecting and pressing module is enabled to collect the pressing interval duration or the pressing position of the first display screen in the first time period, and the screen extinguishing control module is enabled to enable the second display screen to extinguish the screen under the condition that the pressing interval duration is less than or equal to the interval duration threshold or the pressing position is changed.

5. A system resource allocation method based on big data is characterized in that: the resource allocation method comprises the following steps:

6. The big data based system resource allocation method according to claim 5, wherein: the step S2 further includes:

7. The big data based system resource allocation method according to claim 5, wherein: the step S3 of acquiring the position of the display screen where the second application icon is located and determining the display mode according to the position includes:

8. The big data based system resource allocation method according to claim 6, wherein: the step S3 further includes:

during a second time period after the second display screen double flashes,

9. The big-data based system resource allocation method according to claim 8, wherein: the step S3 further includes:

10. The big data based system resource allocation method according to claim 9, wherein: and when the first application program is detected to exit from the foreground operation, if the second application program is detected not to be processed, transmitting the page content of the second application program on the interface of the second display screen to the first display screen, and displaying the page content on the first display screen through the small window.