CN116541119A - Split screen display system based on android system - Google Patents

Abstract

The invention relates to a split-screen display system based on an android system, which is characterized in that: the system comprises a split screen operation module, a storage module, an identification module, an action acquisition module, a judging module, a sequencing module and a display control module, wherein the identification module is used for identifying the number of split screens in a split screen mode and identifying application programs running in each split screen area, and feeding back the identification information to the sequencing module and the action acquisition module; the sorting module obtains the display priorities of the application programs from the storage module according to the identified application programs. When a user needs to use the input method in the split screen mode, the system can automatically select a partition where the application program with lower display priority is located as a display area of the input method interface, so that the application program with higher display priority is not blocked by the input method, the situation that the input method interface simultaneously blocks the application program and other application programs which are interacted currently is avoided, and the user can more conveniently check information and operate.

Description

Split screen display system based on android system

Technical Field

The invention relates to the technical field of display control, in particular to a split-screen display system based on an android system.

Background

Under the current trend of the mature and popular internet technology, people receive a large amount of information through mobile terminals every day, and in order to more efficiently display information to users, the screen size of the mobile terminals is larger and larger.

In some scenarios one has not satisfied that the display of a mobile terminal only displays a picture of one application, but rather wants to display pictures of two or even more applications on the screen of the mobile terminal. In order to improve the use experience of users, many factories are equipped with split screen display functions for their own mobile terminals. After the split screen display function is started, a user can select application programs to be displayed simultaneously and can perform operations such as clicking, touching and the like on each application program on a screen, and the user does not need to frequently switch among a background, a desktop and the application programs in a split screen mode, so that the operation efficiency and the information display efficiency can be greatly improved.

However, there is a significant problem with existing split screen display systems: in the split screen mode, when a user needs to input characters in one application program, the system automatically calls out the input method after clicking a search box of the application program, at least two application programs on a screen can be covered by an interface of the input method, so that a large area of the screen can be shielded, the user does not want to simultaneously shield the currently operated application program and other application programs by the interface of the input method when operating one application program, and obviously, the conventional split screen display system brings inconvenience for the user to view information and operate under the scene, influences the use experience and needs to be improved.

Disclosure of Invention

Based on the expression, the invention provides a split screen display system based on an android system, so as to solve the problem that an input method can simultaneously shade an application program and other application programs in the current operation when the input method is called out in the existing split screen display system.

The technical scheme for solving the technical problems is as follows:

the split screen display system based on the android system comprises a split screen operation module, a storage module, an identification module, an action acquisition module, a judgment module, a sequencing module and a display control module,

the split screen operation module is used for enabling a split screen mode to be started by a user and enabling the user to conduct interactive operation in a screen partition, and the storage module is provided with identification information of each application program and display priority thereof in advance; the identification module is used for identifying the number of split screens in the split screen mode and identifying the application programs running in each split screen area, and feeding the identified information back to the sequencing module and the action acquisition module; the sorting module acquires the display priorities of the application programs from the storage module according to the identified application programs, sequentially downgrades and sorts the application programs according to the display priorities, and feeds sorting information back to the display control module; the action acquisition module is used for acquiring interaction actions of a user on the application programs in each partition, and the interaction actions comprise the times and positions of clicking and sliding the application programs; when the action acquisition module acquires the interaction action, the judgment module identifies the position of the interaction action acquired each time so as to judge whether the current action of the user clicks a search box of a certain application program; the display control module determines the display priority corresponding to the application program needing to use the input method according to the ordering information fed back by the ordering module and the feedback instruction sent by the judging module, and accordingly selects the partition for displaying the input method; when the application program is the lowest priority, the display control module automatically moves the input method interface to the partition where the application program with the previous display priority is located.

As a preferable scheme: the split screen display system further comprises an adjusting module, the action collecting module feeds back the collected times of clicking and sliding of each application program to the adjusting module, and the adjusting module is used for adjusting the display priority of each application program according to the times of clicking and sliding of each application program under the split screen mode.

As a preferable scheme: the adjusting module is preset with a priority adjusting algorithm: f0 =a×m0+b×n0, f=a×m+b×n, f1=a×m1+b×n1; wherein a and b are weight coefficients, and f0, M0 and N0 respectively represent the interaction frequency, click times and sliding times of the application program with the next display priority; f. m and N respectively represent the interaction frequency, click frequency and sliding frequency of the target application program; f1, M1 and N1 respectively represent the interaction frequency, click frequency and sliding frequency of the application program with the next display priority; and respectively calculating the interaction frequency f of the target application program, calculating the interaction frequency f0 of the next display priority application program with the highest association degree with the target application program and the previous display priority application program, and calculating the interaction frequency f1 of the next display priority application program with the highest association degree with the target application program. Comparing the sizes of f and f0 and comparing the sizes of f and f1, and if f is smaller than f0, reducing the display priority of the target application program by one step; comparing the sizes of f and f1, and if f > f0, increasing the display priority of the target application program by one step; if f0> f1, the display priority of the target application is not adjusted.

As a preferable scheme: and counting the number of times of displaying the target application program in the partition in the split screen mode, identifying other application programs which are simultaneously displayed in the split screen with the target application program each time, and counting the number of times N of the occurrence of a certain application program when the number of times of displaying the target application program in the split screen reaches A times, wherein the value of N represents the association degree of the application program and the target application program, and the higher the value of N is, the higher the association degree of the application program and the target application program is considered.

As a preferable scheme: the split screen display system also comprises a marking module; when the user triggers the split screen mode and selects the application programs of all the partitions, the marking module displays a marking button in each partition, wherein the marking button is used for enabling the user to select the application program of each partition to assign display priorities, and the assigned display priorities comprise two grades of 'assigned display' and 'assigned non-display'; after the user selects 'designated display' for the application program in a certain partition by touching a marking button, marking the application program as a 'designated display' program by a marking module pair; after the user selects 'designated not to be displayed' for the application program in a certain partition by touching a marking button, marking the application program as a 'designated not to be displayed' program by a marking module; when the split screen mode is used next time, as long as the user selects an application program with 'appointed display', the sequencing module does not sequence the display priority of the application program selected by the user, but directly selects a partition where the application program is positioned as a display area of the input method interface, namely an appointed display area, and when judging that the current action point of the user presses a search box of a certain application program, the display control module controls the input method interface to be displayed in the appointed display area; when the split screen mode is used next time, as long as the user selects the application program which is not designated to be displayed, the sorting module does not sort the display priority of the application program selected by the user, but directly selects the partition where the application program is positioned as the area where the input method interface is not displayed, namely the designated non-display area, and when judging that the current action point of the user presses the search box of a certain application program, the display control module controls the input method interface to be displayed in other partitions except the designated non-display area.

As a preferable scheme: the split screen display system also comprises a template generation module and a template display module, wherein the template generation module is used for counting the frequency of each application program in a frequency division mode according to the identification result of the identification module, the template generation module sorts the application programs according to the frequency of occurrence, and selects N application programs before the sorting of the frequency of occurrence, the template generation module randomly selects two or more application programs from the N application programs to generate a split screen template, and the generated split screen template information is stored in the storage module; when the user triggers the split screen mode, the template display module automatically retrieves the template information generated before from the storage module and displays the template style in the split screen operation interface, the user can select one of the templates by himself, and the system automatically displays the split screen by the template after clicking the template.

Compared with the prior art, the technical scheme of the application has the following beneficial technical effects: when a user needs to use the input method in the split screen mode, the system can automatically select the partition where the application program with lower display priority is located as the display area of the input method interface, so that the application program with higher display priority is not blocked by the input method, the situation that the input method interface simultaneously blocks the application program and other application programs which are interacted currently is avoided, the user can more conveniently check information and operate, and the use experience is improved.

Drawings

FIG. 1 is a schematic diagram of a split-screen display system according to a first embodiment;

fig. 2 is a schematic diagram of a split-screen display system in the second embodiment.

Detailed Description

Embodiment one:

referring to fig. 1, a split-screen display system based on an android system includes a split-screen operation module, a storage module, an identification module, an action acquisition module, a judgment module, a sequencing module and a display control module.

The split screen operation module is used for enabling a split screen mode to be started by a user and enabling the user to conduct interactive operation in the screen partition.

After the user starts the split screen display mode by triggering the split screen action, the number of the screen partitions can be selected in the split screen operation interface, and the application programs needing to be operated in each screen partition can be selected.

The storage module is provided with identification information of each application program in advance and display priority thereof.

The split screen display system marks the types of all application programs in advance, and the types of the application programs are divided into music application programs, webpage application programs, social application programs and video application programs. The respective types of the application programs correspond to respective display priorities, for example, a music application program (such as music and listening application) has a display priority of 1, a web application program (such as browser and shopping application) has a display priority of 2, a social application program (instant messaging application) has a display priority of 3, and a video application program has a display priority of 4. Thus, the type of application and the display priority of the application programs can be marked, and the larger the numerical value is, the higher the display priority is.

The identification module is used for identifying the number of split screens in the split screen mode and identifying the application programs running in each split screen area, and feeding the identified information back to the ordering module and the action acquisition module.

After the user selects the number of the partitions and the application programs of each partition in the split screen mode, the identification module reads the number of the partitions and identifies the application programs in each partition so as to obtain identification information, and the identification module feeds the identification information back to the sequencing module and the action acquisition module.

The sorting module acquires the display priorities of the application programs from the storage module according to the identified application programs, sequentially downgrades and sorts the application programs according to the display priorities, and feeds the sorting information back to the display control module.

The action acquisition module is used for acquiring interaction actions of the user on the application programs in each partition, including the times and positions of clicking and sliding the application programs.

While the action acquisition module acquires the interaction actions, the judgment module identifies the positions of the interaction actions acquired each time so as to judge whether the current actions of the user click a search box of a certain application program.

The interactive action recognition process comprises the following steps: the coordinate range of the search frame of each application program in a split screen mode (comprising different partition numbers and the condition that the application program is in each partition) is calibrated in advance, so that the coordinate range information of the search frame of each application program is obtained, and the coordinate range information of the search frame is stored in the storage module. The action acquisition module can acquire position coordinates of click and sliding actions of a user on the application programs in each partition in a split screen mode. The judging module judges whether the position coordinates of each click and sliding action of the user are in the coordinate range of a search frame of a certain application program or not; if yes, judging that the user wants to use the input method in the application program. At this time, the judging module sends the feedback instruction containing the application program identification information to the display control module.

The display control module determines the display priority corresponding to the application program needing to use the input method according to the ordering information fed back by the ordering module and the feedback instruction sent by the judging module, and accordingly selects the partition displaying the input method. When the priority of the application program is not the lowest priority, the display control module automatically moves the input method interface to the partition where the application program with the next display priority is located; when the application program is the lowest priority, the display control module automatically moves the input method interface to the partition where the application program with the previous display priority is located.

Through the measures, when a user needs to use the input method in the split screen mode, the partition where the application program with lower display priority is located can be automatically selected as the display area of the input method interface, so that the application program with higher display priority is prevented from being blocked by the input method, the situation that the input method interface simultaneously blocks the application program and other application programs which are interacted currently is avoided, information checking and operation can be more convenient for the user, and the use experience is improved.

The split screen display system in this embodiment further includes an adjustment module, where the action acquisition module feeds back the acquired times of clicking and sliding of each application program to the adjustment module, and the adjustment module is configured to adjust the display priority of each application program according to the times of clicking and sliding of each application program by the user in the split screen mode.

The adjusting module is preset with a priority adjusting algorithm: f0 =a×m0+b×n0, f=a×m+b×n, f1=a×m1+b×n1; wherein a and b are weight coefficients, and f0, M0 and N0 respectively represent the interaction frequency, click times and sliding times of the application program with the next display priority; f. m and N respectively represent the interaction frequency, click frequency and sliding frequency of the target application program; f1, M1 and N1 respectively represent the interaction frequency, the click number and the sliding number of the next display priority application program.

And respectively calculating the interaction frequency f of the target application program, calculating the interaction frequency f0 of the next display priority application program with the highest association degree with the target application program and the previous display priority application program, and calculating the interaction frequency f1 of the next display priority application program with the highest association degree with the target application program. Comparing the sizes of f and f0 and comparing the sizes of f and f1, and if f is smaller than f0, reducing the display priority of the target application program by one step; comparing the sizes of f and f1, and if f > f0, increasing the display priority of the target application program by one step; if f0> f1, the display priority of the target application is not adjusted.

According to the method, the initial display priority of the application programs can be adjusted according to the interaction frequency of the application programs, so that the display priority of each application program is more consistent with the use habit of a user when the user uses the split screen mode, the input method interface is displayed on a partition where the application program with lower interaction frequency and lower display priority is located when the user calls the input method, and the split screen display system is more consistent with the use habit of the user.

The degree of association in this embodiment is defined as follows: and counting the display times of the target application program in the partition in the split screen mode, and identifying other application programs which are simultaneously present in the split screen with the target application program each time. When the number of times that the target application program appears in the split screen reaches A times, counting the number of times N, wherein the value of N represents the association degree of the application program and the target application program, and the larger the value of N is, the higher the association degree of the application program and the target application program is.

Embodiment two:

referring to fig. 2, the present embodiment differs from the first embodiment in that: the split-screen display system in this embodiment further includes a marking module. When the user triggers the split screen mode and selects the application programs of each partition, the marking module displays a marking button in each partition, wherein the marking button is used for enabling the user to select the application program of each partition to assign display priorities, and the assigned display priorities comprise two grades of 'assigned display' and 'assigned non-display'. After the user selects 'designated display' for the application program in a certain partition by touching a marking button, marking the application program as a 'designated display' program by a marking module pair; after the user selects "designate not to be displayed" for an application program in a certain partition by touching the marking button, the marking module marks the application program as a "designate not to be displayed" program.

When the split screen mode is used next time, as long as the user selects the application program with 'appointed display', the sequencing module does not sequence the display priority of the application program selected by the user, but directly selects the partition where the application program is positioned as the display area of the input method interface, namely the appointed display area, and when judging that the current action point of the user presses the search box of a certain application program, the display control module controls the input method interface to be displayed in the appointed display area.

When the split screen mode is used next time, as long as the user selects the application program which is not designated to be displayed, the sorting module does not sort the display priority of the application program selected by the user, but directly selects the partition where the application program is positioned as the area where the input method interface is not displayed, namely the designated non-display area, and when judging that the current action point of the user presses the search box of a certain application program, the display control module controls the input method interface to be displayed in other partitions except the designated non-display area.

Through the measures, the user can customize the interface display area of the input method, so that the split screen display system can meet the personalized use requirements of the user.

The split screen display system in this embodiment further includes a template generating module and a template displaying module, where the template generating module is configured to count, according to a recognition result of the recognition module, a frequency of occurrence of each application in the frequency division mode, the template generating module ranks each application according to the occurrence frequency, and selects N applications before the ranking of the occurrence frequency, the template generating module randomly selects two or more applications from the N applications to generate a split screen template, and stores the generated split screen template information in the storage module.

When the user triggers the split screen mode, the template display module automatically retrieves the template information generated before from the storage module and displays the template style in the split screen operation interface, the user can select one of the templates by himself, and after the user clicks the template, the system automatically displays the split screen by the template without manually selecting application programs for each partition by the user.

By the aid of the measures, convenience in use of the split-screen display system can be improved.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.

Claims (6)

1. A split screen display system based on an android system is characterized in that: comprises a split screen operation module, a storage module, an identification module, an action acquisition module, a judgment module, a sequencing module and a display control module,

the split screen operation module is used for enabling a split screen mode to be started by a user and enabling the user to conduct interactive operation in a screen partition, and the storage module is provided with identification information of each application program and display priority thereof in advance; the identification module is used for identifying the number of split screens in the split screen mode and identifying the application programs running in each split screen area, and feeding the identified information back to the sequencing module and the action acquisition module; the sorting module acquires the display priorities of the application programs from the storage module according to the identified application programs, sequentially downgrades and sorts the application programs according to the display priorities, and feeds sorting information back to the display control module; the action acquisition module is used for acquiring interaction actions of a user on the application programs in each partition, and the interaction actions comprise the times and positions of clicking and sliding the application programs; when the action acquisition module acquires the interaction action, the judgment module identifies the position of the interaction action acquired each time so as to judge whether the current action of the user clicks a search box of a certain application program; the display control module determines the display priority corresponding to the application program needing to use the input method according to the ordering information fed back by the ordering module and the feedback instruction sent by the judging module, and accordingly selects the partition for displaying the input method; when the application program is the lowest priority, the display control module automatically moves the input method interface to the partition where the application program with the previous display priority is located.

2. The android system-based split screen display system of claim 1, wherein: the split screen display system further comprises an adjusting module, the action collecting module feeds back the collected times of clicking and sliding of each application program to the adjusting module, and the adjusting module is used for adjusting the display priority of each application program according to the times of clicking and sliding of each application program under the split screen mode.

3. The android system-based split screen display system of claim 2, wherein: the adjusting module is preset with a priority adjusting algorithm: f0 =a×m0+b×n0, f=a×m+b×n, f1=a×m1+b×n1; wherein a and b are weight coefficients, and f0, M0 and N0 respectively represent the interaction frequency, click times and sliding times of the application program with the next display priority; f. m and N respectively represent the interaction frequency, click frequency and sliding frequency of the target application program; f1, M1 and N1 respectively represent the interaction frequency, click frequency and sliding frequency of the application program with the next display priority; respectively calculating the interaction frequency f of the target application program, calculating the interaction frequency f0 of the next display priority application program with the highest association degree with the target application program and the previous display priority application program, and calculating the interaction frequency f1 of the next display priority application program with the highest association degree with the target application program; comparing the sizes of f and f0 and comparing the sizes of f and f1, and if f is smaller than f0, reducing the display priority of the target application program by one step; comparing the sizes of f and f1, and if f > f0, increasing the display priority of the target application program by one step; if f0> f1, the display priority of the target application is not adjusted.

4. The android system-based split screen display system of claim 3, wherein: and counting the number of times of displaying the target application program in the partition in the split screen mode, identifying other application programs which are simultaneously displayed in the split screen with the target application program each time, and counting the number of times N of the occurrence of a certain application program when the number of times of displaying the target application program in the split screen reaches A times, wherein the value of N represents the association degree of the application program and the target application program, and the higher the value of N is, the higher the association degree of the application program and the target application program is considered.

5. The android system-based split screen display system of claim 1, wherein: the split screen display system also comprises a marking module; when the user triggers the split screen mode and selects the application programs of all the partitions, the marking module displays a marking button in each partition, wherein the marking button is used for enabling the user to select the application program of each partition to assign display priorities, and the assigned display priorities comprise two grades of 'assigned display' and 'assigned non-display'; after the user selects 'designated display' for the application program in a certain partition by touching a marking button, marking the application program as a 'designated display' program by a marking module pair; after the user selects 'designated not to be displayed' for the application program in a certain partition by touching a marking button, marking the application program as a 'designated not to be displayed' program by a marking module; when the split screen mode is used next time, as long as the user selects an application program with 'appointed display', the sequencing module does not sequence the display priority of the application program selected by the user, but directly selects a partition where the application program is positioned as a display area of the input method interface, namely an appointed display area, and when judging that the current action point of the user presses a search box of a certain application program, the display control module controls the input method interface to be displayed in the appointed display area; when the split screen mode is used next time, as long as the user selects the application program which is not designated to be displayed, the sorting module does not sort the display priority of the application program selected by the user, but directly selects the partition where the application program is positioned as the area where the input method interface is not displayed, namely the designated non-display area, and when judging that the current action point of the user presses the search box of a certain application program, the display control module controls the input method interface to be displayed in other partitions except the designated non-display area.

6. The android system-based split screen display system of claim 1, wherein: the split screen display system also comprises a template generation module and a template display module, wherein the template generation module is used for counting the frequency of each application program in a frequency division mode according to the identification result of the identification module, the template generation module sorts the application programs according to the frequency of occurrence, and selects N application programs before the sorting of the frequency of occurrence, the template generation module randomly selects two or more application programs from the N application programs to generate a split screen template, and the generated split screen template information is stored in the storage module; when the user triggers the split screen mode, the template display module automatically retrieves the template information generated before from the storage module and displays the template style in the split screen operation interface, the user can select one of the templates by himself, and the system automatically displays the split screen by the template after clicking the template.