CN106201157B - Application window adjusting method and device - Google Patents

Abstract

The application discloses an application window adjusting method and device, wherein the method comprises the following steps: adjusting the current window area parameter of the application window according to the activity parameter of the application window and a preset strategy; and the client equipment updates the current window area of the application window according to the window area parameter of the application window obtained after adjustment. By the method and the device, the window area parameters of the application window can be adjusted in a self-adaptive mode.

Description

Application window adjusting method and device

Technical Field

The present application relates to the field of network technologies, and in particular, to a method and an apparatus for adjusting an application window.

Background

In recent years, touch devices such as smart phones, tablet computers, PADs, and the like are used by more and more people, and multi-point touch is also widely applied to such devices, so that the operation experience of users is enhanced.

Currently, many intelligent devices start to support browsing multiple applications on the same display interface at the same time, which is a multi-window display technology. For example, for a vehicle-mounted touch screen, a plurality of application windows are generally loaded on the same display interface to respectively display information such as weather, navigation, music, and the like.

In the prior art, when a multi-window display technology is adopted, the height value of each applied display window is set by default and is fixed, and the height of the application window cannot be adjusted in a self-adaptive manner.

Disclosure of Invention

The application provides an application window adjusting method and device, which can realize self-adaptive adjustment of the height of an application window.

According to an aspect of an embodiment of the present application, there is provided an application window adjusting method, including:

adjusting the current window area parameter of the application window according to the activity parameter of the application window and a preset strategy;

and the client equipment updates the current window area of the application window according to the window area parameter of the application window obtained after adjustment.

In a second aspect of this embodiment, there is provided a method for adjusting an application window, the method including:

adjusting the current window area parameter of the application window according to the activity parameter of the application window and a preset strategy;

and sending the window area parameters of the application window obtained after adjustment to client equipment so that the client equipment updates the current window area of the application window.

In a third aspect of the embodiments of the present application, there is provided an apparatus for adjusting an application window, including:

the processing module is used for adjusting the current window area parameter of the application window according to the activity parameter of the application window and a preset strategy;

and the display module is used for updating the current window area of the application window according to the window area parameter of the application window obtained after adjustment.

In a fourth aspect of the embodiments of the present application, there is provided an apparatus for adjusting an application window, including:

the processing module is used for adjusting the current window area parameter of the application window according to the activity parameter of the application window and a preset strategy;

and the communication module is used for sending the window area parameters of the application window obtained after adjustment to client equipment so as to enable the client equipment to update the current window area of the application window.

In the embodiment of the application, for a certain client device, the height of an application window is adjusted according to a predetermined strategy by combining with an activity parameter of the application window, so that the client device can rearrange the display interface of the client device according to an ideal height value of each application, and when a user restarts the interface, the rearranged interface is displayed to the user. Because the activity parameter of the application window can reflect the condition that the application window is used and can reflect the use habit of a user corresponding to certain client equipment to a certain extent, the size of each application window in the whole interface after rearrangement can reflect the condition that the application window is used according to the application, the use habit of the current user is closed, and the self-adaptive adjustment of the height of the application window aiming at the differentiation of the application program window is realized to a great extent.

Drawings

FIG. 1 is a flow chart of one embodiment of an application window adjustment method of the present application;

fig. 2 is a flowchart of an application scenario of the application window adjustment method according to the present application;

fig. 3 is a hardware structure diagram of a device in which the application window adjusting apparatus of the present application is located;

FIG. 4 is a block diagram of one embodiment of an apparatus for adjusting an application window of the present application;

fig. 5 is a block diagram of another embodiment of an application window adjustment apparatus of the present application.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

It is to be understood that although the terms first, second, third, etc. may be used herein to describe various information, such information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present application. The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination", depending on the context.

For a mobile phone, a PDA, a vehicle-mounted touch screen, or the like, a user enters an application detail page through an application ICON, a desktop widget, an application window, or the like. The application details page typically displays all applications to the user in turn in the form of a drop down list. Assuming that the current interface displays applications one to five, the five applications are sequentially displayed from top to bottom. For the current page, the width of the display window of each application is determined, and is generally equal to the display width of the interface, and the height of each application window can be the same or different.

In the conventional technology, for a tabular multi-window display form, the height value of each application window in the same interface is generally set by default and is fixed and unchangeable. Assume that the current setting is to display five application windows within the same interface. In the conventional technology, the system generally defaults to setting the height values of the five application windows to be equal, that is, the five application windows are divided into the whole display interface.

For a tabular multi-window display format, the height of the default application window is typically the minimum height value that is convenient for the user to manipulate. However, in practical applications, in order to best meet the use requirements of the user and improve the use experience of the user, it is desirable that the display window of the application is large for applications that the user likes and often uses, so that the user can search and use the application conveniently.

For example, for a car touch screen, it is assumed that for a certain user a, who is accustomed to relying on a navigation system and likes listening to music while driving, the user a is not concerned about weather conditions at all, and rarely or even does not use information displayed by a weather window. Then, for the user a, the area of the window where the navigation and music are located can be enlarged according to the habit of the user a. Since the width of each application window is fixed for the tabular multi-window display form, it cannot be changed any more.

The application provides an application window adjusting method and device, which can dynamically and adaptively adjust the window area of each application window during list-type multi-window display according to the difference of using habits of a user so as to solve the problems in the prior art.

Referring to fig. 1, a flowchart of an embodiment of an application window adjusting method according to the present application is shown.

As shown in fig. 1, when a window area related parameter (e.g., an application window height value, an application window width value, an application window display scale, etc.) of a certain application window on a client device needs to be adjusted, a current window area parameter of the certain application window is adjusted according to a predetermined policy according to an activity parameter of the application window (S100); the client device updates the current window area of the application window according to the window area parameter of the application window obtained after adjustment (S120).

It should be noted that the step S100 may be applied to an operating system of the client device, or may be applied to a device independent from the client device, such as a cloud server; if the client device is operated in a device other than the client device, the method may further include the following step before executing step S120: and the device independent of the client device sends the window area parameters of the application window obtained after adjustment to the client device so that the client device updates the current window area of the application window.

It can be seen that, in the embodiment illustrated in fig. 1, the reference condition for adjusting a parameter of an application window region is mainly an activity parameter of the application window, the activity parameter represents a parameter capable of reflecting user usage difference in the present application, and according to different angles concerned by a designer, different factors can be used as the activity parameter to be considered.

For example, a designer may only pay attention to usage habits of a single user on each application window, and may collect statistics on operation parameters of the application window by the single user, where the more common parameters of the collected statistics may include the number of clicks of the application window by the single user in a first statistical period; generally, an operating system of a client device can acquire click events at any position, and the click events of a user on a certain application window are provided for an application through the operating system, so that the client device can collect click events of the user using the device on each application window and send the click events to a server, the server generates an application click record corresponding to an account name of the user or the client device, and establishes a corresponding relation between the click times of each application and the account name of the user or an identifier of the client device, and the corresponding relation is stored in a database.

The vehicle-mounted touch screen is taken as an example for explanation. Assume that applications displayed in a list-type multi-window on the vehicle-mounted touch screen of the current user include weather, navigation, music, and radio. After the user logs in through the vehicle-mounted touch screen, every time the user clicks one application window, the clicking action is uploaded to the server through the network, and the server generates application clicking records of the user. Assuming that the first statistical period is 30 days, the server obtains, according to the application click record statistics of the user, that the total number of clicks of the user in 30 days is 150, wherein the number of clicks of the weather window is 5, the number of clicks of the navigation window is 78, the number of clicks of the music window is 2, and the number of clicks of the radio window is 65.

In addition, the activity parameter representing the use habit of the single user can also comprise the times of logging in the application by the single user through the application window in the second statistical period; during a third statistical period, the duration of time that a single user uses the application through the application window, and so on. The parameters can be obtained by monitoring the login condition of the account corresponding to the user and recorded in a database of the cloud server.

One or more of the above parameters may be selected as the activity parameter. The length of each statistical period can be freely set, and the same value or different values can be set, for example, 1 day, 1 week, 1 month, and the like.

As another embodiment, the designer may also comprehensively evaluate the importance of the application window in consideration of the usage habits of a single user in combination with the usage habits of other users on the application window, and at this time, the server in the cloud end is required to collect activity parameters of multiple users on the application window. The activity parameter may further include: the number of users clicking the application window at least once in a fourth statistical period; in a fifth statistical period, logging in the number of the users of the application through the application window; the total duration of time that the application is used by the plurality of users through the application window in the sixth statistical period, and so on. The length of each statistical period can be freely set, the specific value set is not limited, and the same value or different values can be set, such as 1 day, 1 week, 1 month and the like.

The predetermined policy in step S100 can be implemented in various ways, and some of them are listed below, and it is easy to understand that the present invention can be implemented in other ways besides the several ways listed below. It should be noted that the activity parameter related to the application window according to the predetermined policy may be a suitable activity parameter selected according to the needs of the designer, and may be one of the activity parameters or multiple activity parameters. For example, in a certain application scenario, as a simplified implementation, only the number of clicks of a single user on an application window in a first statistical period may be used as an evaluation criterion of the activity level. For another example, different weights may be set for multiple activity parameters according to their importance degrees, assuming that the number of clicks of a single user on an application window is taken as parameter 1, and the weight is set to 0.5; taking the number of users clicking the application window at least once in a fourth statistical period as a parameter 2, and setting the weight value to be 0.3; and in a sixth statistical period, a total duration of the application used by the plurality of users through the application window is used as a parameter 3, the weight is set to be 0.2, and then values obtained after the specific values of the parameter 1, the parameter 2 and the parameter 3 collected by a certain application are weighted and averaged according to the weight are used as evaluation bases of the activity level of each application window.

Strategy one: and increasing or decreasing the current application window parameter value of each application window by a preset fixed value according to the activity parameter of each application window.

When the strategy one is realized, the parameter variation quantity required to be adjusted each time can be set in advance, and the parameter variation quantity is simple and can be set to be a fixed value or a fixed proportion. Taking a fixed value as an example, the fixed value may be one fixed value or may be a plurality of fixed values. For example, the application window with the highest activity (for example, the application window with the largest number of clicks in the first statistical period) may be obtained according to the activity parameter of each application window, the current application window parameter value of the application window is increased by a fixed value, and the other application windows are all decreased by a fixed value. For another example, the application windows may be prioritized according to the activity level of the active parameter of each application window, the current application window parameter value of the application window at the high priority level is increased by two fixed values, the current application window parameter value of the application window at the medium priority level is increased by one fixed value, and the current application window parameter value of the application window at the low priority level is decreased by one fixed value.

And (2) strategy two: determining an application window with the highest activity according to the activity parameter of each application window, and increasing the application window with the highest activity by a fixed value; or determining the application window with the lowest activity according to the activity parameter of each application window, and reducing the application window with the lowest activity by a fixed value.

In the strategy, the current application window parameter value of one application window is increased or decreased according to the activity parameter, and the current application window parameter values of other application windows can be kept unchanged.

Strategy three: calculating the parameter variation of each application window according to the activity parameter of each application window; and adjusting the current application window parameter value of the application window according to the parameter variation.

In the strategy, the parameter variation adjusted by each application window is not fixed, but calculated according to the activity parameter of each application window, so that the characteristic of self-adaptive adjustment according to the user use differentiation can be better embodied than the strategy I and the strategy II.

As an example of a specific implementation, taking the adjustment of the window height value in the application window parameter value as an example, policy three may obtain the adjusted height value through the following formula:

wherein, Hj is the height value of the j-th application window after adjustment; mj is the current height value of the jth application window; pj is the number of clicks of a single user on the application window in the first statistical period of the jth application window; DAUj is the number of users clicking the jth application window at least once in the fourth statistical period; n is the number of applications displayed on the display interface of the client equipment where each application window is positioned; c1 is an adjustment factor, typically the value of C1 is greater than 1.

In one embodiment, the manner in which C1 is calculated may be implemented by:

acquiring the number MAUj of users clicking the jth application window at least once in the seventh statistical period; wherein the seventh statistical period is greater than the fourth statistical period; the adjustment coefficient C1 is calculated according to the following formula:

the threshold values for each of the parameters in the above two equations are analyzed below. Specifically, the following are described:

first, for the adjustment coefficient C1, since the fourth statistical period is set to be smaller than the seventh statistical period in the embodiment of the present application, the number of all users clicking the jth application window at least once in the fourth statistical period is inevitably smaller than the number of all users clicking the jth application window at least once in the seventh statistical period. Therefore, there are:

then, in conjunction with equation (3), one can derive:

that is, in the embodiment of the present application, the adjustment coefficient C1 is in the range of 1 to 1.3.

For equation (1), wherein,

for in formula (1)

For example, the average value of the default height values of all application windows that need to be displayed in the interface is as follows:

wherein, the Mmin is the minimum value of the default height values of all application windows needing to be displayed on the interface; mmax is the maximum value of the default height values of all application windows that the interface needs to display.

Simultaneously, the method also comprises the following steps:

in combination with the above equations (4), (5), (6) and (7), it can be deduced that:

Hj∈(Mj，Mj+Mmax×1.95) (8)

as can be seen from equation (8), in the embodiment of the present application, the finally calculated adjusted height value of the jth application window may not exceed the current height value of the application window and the maximum value of 1.95 times of the height values of all application windows. And the ideal height value of the jth application window can only obtain the maximum value under an extreme condition, wherein the extreme condition is that the current user only uses the jth application window, and for the application, the number of all users clicking the jth application window at least once in the seventh statistical period is equal to the number of all users clicking the jth application window at least once in the second statistical period.

It is worth pointing out that, in this embodiment of the present application, dynamically adjusting a current application window parameter value of an application window of a client device of a certain user may be initiated by the user, specifically, when the client device detects that a preset condition is met, a trigger instruction requesting to adjust a height value of the application window may be initiated to a server by the client device, the server is requested to adjust a display height of the application window of the client device currently used by the user according to an activity parameter of the application window, and the preset condition may be that the client device is started, the user newly starts an application, the user closes the application, and the number of times that the user clicks a certain application window in a first statistical period exceeds a set threshold. In addition, a timer may also be set inside the client device or the cloud server, and when the timer is overtime, a trigger instruction is initiated. For example, if the timer sets a period of 30 days, the trigger command is issued when the 30-day period is reached.

In the embodiment of the present application, for the list-type multi-window display form, the total number of application windows displayed in the drop-down list is generally set by default by the system, and may be set by the user.

Typically, the total number of application windows that need to be displayed within the drop down list is set by system default. For example, for a vehicle-mounted touch screen, the number of application windows displayed in a drop-down list of the touch screen is generally set at the factory, and may include weather, navigation, music, radio station, and the like. For this case, the system will set a default value for the height of each application window based on the display interface. When a user starts the touch screen, each application window on the main interface is displayed to the user according to a default mode of the system.

With the increasing development of the personalized settings of the intelligent terminal, when the list type multi-window display is performed, the total number and the height value of the application windows needing to be displayed in the same list can be freely set when a user logs in. For example, for a vehicle touch screen, upon user initialization, the system may prompt the user to autonomously select the number of applications that need to be displayed in the list, while providing the user with a list of all applications available for selection. Assume that currently available applications include weather, navigation, music, radio, car phone, bluetooth, etc. The user can select the corresponding application to be displayed on the main interface according to the requirement and the use habit of the user. In the process that a user uses the vehicle-mounted touch screen, the number and the types of the applications displayed on the main interface can be increased, decreased and replaced according to actual needs. For this case, although the number and categories of applications displayed in the main interface are set by the user himself, the display height of each application window is still set by the system default once the user selects to determine. In general, the system defaults that the height values of the windows are equal, that is, the windows are divided into the display space of the whole main interface.

In practical applications, the total number of all application windows that need to be displayed and the default height value of each application window may be different for different users. Therefore, when the user initializes or registers an account, the use data such as the total number of all application windows needing to be displayed of the terminal device corresponding to the user and the default height value of each application window can be uploaded to the server through the network. And the server positioned at the cloud receives the own use data uploaded by each user, associates the use data of each user with the account name of the user, and stores the use data in the database.

Taking policy three as an example, the following two application examples in the application scenario are listed respectively.

Fig. 2 is a flow chart of calculating a current height value of an adjustment application window in a cloud server. In this example, the activity parameter is the number of clicks of a single user on the application window in the first statistical period, and the number of users clicking the application window at least once in the fourth statistical period and the seventh statistical period; it is possible to set the first/seventh statistical period to 30 days and the second statistical period to 1 day.

Step S201, when the server or the client device receives a trigger instruction for adjusting the height value of the application window, the total number n of all the application windows needing to be displayed on the client device and the default height Mj, j ═ 1, 2 · · · · · · · · · · · · · · · · · · · · · · · · · · · · · ·.

When a trigger instruction for adjusting the current height value of the application window is received, the server located at the cloud searches the database, and finds the use data of the user by using the account name of the user, wherein the use data comprises the total number n of all application windows needing to be displayed corresponding to the user and the default height Mj of each application window.

Step 202, the server or the client device obtains the times Pj, j 1 and 2, n of clicking of each application window on the client device of the user by the current user within 30 days from a database of the cloud server.

Step 203: the server or the client device obtains the number MAUj of users that have clicked the application window at least once in 30 days of each application from the cloud server.

Step 204: the server or the client device obtains the number of users DAUj of each application, which have clicked the application window at least once in 1 day, from the cloud server.

Step 205: and the server or the client device calculates the adjusted height value Hj, j-1 and 2-n of each application window according to the formula (9) by using the parameters obtained in the previous steps.

The expression of the formula (9) is as follows:

wherein, Hj is the height value of the j-th application window after adjustment; mj is the current height value of the jth application window; pj is the number of times that the jth application window is clicked by the current user within 30 days; DAUj is the number of all users clicking the jth application window at least once in 1 day; n is the number of all applications needing to be displayed on the current interface; c1 is the adjustment factor.

In this example, the adjustment coefficient C1 can be calculated by the following equation (10):

wherein, DAUj is the number of all users clicking the jth application window at least once in 1 day; MAUj is the number of all users that click on the jth application window at least once in 30 days.

Step 206: when the server or the client device receives the login information of the user again, the adjusted height value of each application window calculated in step 105 is sent to the display module of the client device corresponding to the user.

Step 207: and the display module of the client equipment of the user rearranges the display interface according to the received ideal height value of each application and displays the rearranged interface to the user.

In this application example, when the user logs in the interface again through the client device, the server located in the cloud calculates the ideal height value of each application window in the display interface according to the formula (9), and performs rearrangement on the entire interface according to the ideal height value of each application window. And displaying the interface to the user according to the rearranged interface.

In the embodiment of the application, aiming at a current user of an interface, parameters such as the number of current user clicks within a certain time period of each application window needing to be displayed in the interface and the number of active users of each application within a certain time period are obtained by a cloud server, and an ideal height value of each application window needing to be displayed in the interface of the current user is obtained by calculation by combining with adjustment parameters; and the whole interface is rearranged according to the ideal height value of each application, and when the current user restarts the interface, the rearranged interface is displayed to the user.

Therefore, the method of the embodiment of the application can adjust the height value of each application window to be displayed on the interface according to the use habit of the current user of the interface, and rearrange the whole interface according to the adjusted height value of each application window, so that the size of each application window in the rearranged whole interface can be well close to the use habit of the current user, the differentiation requirements of different users are met to a great extent, and the user experience is improved.

Corresponding to embodiments of the method of the present application, embodiments of an apparatus are also provided.

The embodiment of the device can be applied to a server or a client device. The device embodiments may be implemented by software, or by hardware, or by a combination of hardware and software. The software implementation is taken as an example, and is formed by reading corresponding computer program instructions in the nonvolatile memory into the memory for operation through the processor of the device where the software implementation is located as a logical means. From a hardware level, as shown in fig. 3, a hardware structure diagram of a device in which an adjusting apparatus of an application window is located in the present application window is shown, except for a processor, a memory, a network interface, and a nonvolatile memory shown in fig. 3, the device in which the apparatus is located in the embodiment may further include other hardware, for example, for a client device, a camera, a touch screen, a communication component, and the like may be included, and for a server, a forwarding chip responsible for processing a message may be included, and the like, according to an actual function of the device.

Referring to fig. 4, a block diagram of an embodiment of an apparatus for adjusting an application window is provided. The adjusting means 400 of the application window may be located on the client device or the server. The method comprises the following steps:

a processing module 401, configured to adjust a current window area parameter of an application window according to a predetermined policy according to an activity parameter of the application window;

a display module 402, configured to update the current window area of the application window according to the window area parameter of the application window obtained after adjustment.

In one embodiment, the activity parameter of the application window comprises an activity parameter of an application window corresponding to a single user and/or an activity parameter of an application window corresponding to a non-single user;

wherein the activity parameter of the application window corresponding to the single user comprises one or more of the following parameters:

in a first statistical period, the click times of a single user to the application window;

the number of times that the single user logs in the application through the application window in a second statistical period;

within a third statistical period, the single user uses the duration of the application through the application window;

the first statistical period, the second statistical period and the third statistical period are the same or different;

wherein the activity parameter of the application window corresponding to the non-single user comprises one or more of the following parameters:

the number of users clicking the application window at least once in a fourth statistical period;

in a fifth statistical period, logging in the number of the users of the application through the application window;

in a sixth statistical period, the total duration of the application used by a plurality of users through the application window;

the fourth statistical period, the fifth statistical period and the sixth statistical period are the same or different.

In one embodiment, the number of application windows displayed on the display interface of the client device is multiple, and the predetermined policy may include any one of:

increasing or decreasing the current window area of each application window by a preset fixed value according to the activity parameter of each application window; or

Determining the application window with the highest activity according to the activity parameter of each application window, and increasing the application window with the highest activity by a fixed value; or

Determining the application window with the lowest activity according to the activity parameter of each application window, and reducing the application window with the lowest activity by a fixed value; or

Calculating the variable quantity of the window area parameters of each application window according to the activity parameter of each application window; and adjusting the current window area of the application window according to the parameter variation.

As an embodiment, the activity parameter of the application window may include: the number of clicks of a single user on the application window in a first statistical period, and the number of users clicking the application window at least once in a fourth statistical period; the window region parameter comprises a height value of the application window;

the predetermined policy may include: calculating the parameter variation of each application window according to the following formula, and adjusting the current height value of the application window according to the parameter variation:

wherein, Hj is the height value of the j-th application window after adjustment; mj is the current height value of the jth application window; pj is the number of clicks of a single user on the application window in the first statistical period of the jth application window; DAUj is the number of users clicking the jth application window at least once in the fourth statistical period; n is the number of applications displayed on the display interface of the client equipment where each application window is positioned; c1 is an adjustment coefficient, and C1 is greater than 1.

The adjustment coefficient C1 can be calculated according to the following formula:

wherein MAUj is the number of users clicking the jth application window at least once in the seventh statistical period; and the seventh statistical period is greater than the fourth statistical period.

In addition, the display module is further configured to receive a trigger instruction requesting to adjust a current window area of the application window, where the trigger instruction includes one or more of the following:

a triggering instruction sent by the client device;

a trigger instruction is sent when the timer is overtime;

and the client equipment detects a trigger instruction sent after meeting a set condition.

In one embodiment, the current window region parameter of the application window is an initial value,

the initial value is a default value set by the client device according to a display interface; or

A recommended value set through a historical data statistical result; or

And window area parameters set when the user logs in the application window.

In one embodiment, the apparatus may further include a communication module independent of a device of the client device; the communication module is configured to: and sending the window area parameters of the application window obtained after adjustment to the display module so that the display module updates the current window area of the application window.

FIG. 5 is another application window adjustment apparatus 500 of the present application, which is independent of a client device; the method comprises the following steps:

a processing module 501, configured to adjust a current window area parameter of an application window according to a predetermined policy according to an activity parameter of the application window;

the communication module 502 is configured to send the window area parameter of the application window obtained after the adjustment to the client device, so that the client device updates the current window area of the application window.

In the apparatus shown in fig. 5, the activity parameter and the predetermined policy of the application window may refer to the method described above and the specific contents described in the apparatus of fig. 4, which are not repeated herein.

The implementation process of the functions and actions of each unit in the above device is specifically described in the implementation process of the corresponding step in the above method, and is not described herein again.

For the device embodiments, since they substantially correspond to the method embodiments, reference may be made to the partial description of the method embodiments for relevant points. The above-described embodiments of the apparatus are merely illustrative, and the units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules can be selected according to actual needs to achieve the purpose of the scheme of the application. One of ordinary skill in the art can understand and implement it without inventive effort.

In the embodiment of the application, aiming at a current user of an interface, parameters such as the number of current user clicks within a certain time period of each application window needing to be displayed in the interface and the number of active users of each application within a certain time period are obtained by a cloud server, and an ideal height value of each application window needing to be displayed in the interface of the current user is obtained by calculation by combining with adjustment parameters; and the whole interface is rearranged according to the ideal height value of each application, and when the current user restarts the interface, the rearranged interface is displayed to the user.

Therefore, by adopting the embodiment of the application, the height values of the application windows needing to be displayed on the interface can be adjusted according to the use habits of the current user on the interface, and the whole interface is rearranged according to the adjusted height values of the application windows, so that the size of each application window in the whole interface after rearrangement can be well close to the use habits of the current user, the differentiation requirements of different users can be met to a great extent, and the user experience is improved.

Other embodiments of the present application will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the application and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the application being indicated by the following claims.

It will be understood that the present application is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the application is limited only by the appended claims.

Claims (22)

1. A method for adjusting an application window, the method comprising:

adjusting the current window area parameter of the application window according to the activity parameter of the application window and a preset strategy; wherein adjusting the current window area parameter of the application window according to a predetermined policy comprises: adjusting the area parameter of the current window of the application window according to parameter variation, wherein the parameter variation is calculated and obtained based on the number of clicks of a single user on the application window in a preset time period and the number of users clicking the application window at least once;

and the client equipment updates the current window area of the application window according to the window area parameter of the application window obtained after adjustment.

2. The method according to claim 1, wherein the activity parameter of the application window comprises an activity parameter of an application window corresponding to a single user and/or an activity parameter of an application window corresponding to a non-single user;

wherein the activity parameter of the application window corresponding to the single user comprises one or more of the following parameters:

in a first statistical period, the click times of a single user to the application window;

the number of times that the single user logs in the application through the application window in a second statistical period;

within a third statistical period, the single user uses the duration of the application through the application window;

the first statistical period, the second statistical period and the third statistical period are the same or different;

wherein the activity parameter of the application window corresponding to the non-single user comprises one or more of the following parameters:

the number of users clicking the application window at least once in a fourth statistical period;

in a fifth statistical period, logging in the number of the users of the application through the application window;

in a sixth statistical period, the total duration of the application used by a plurality of users through the application window;

the fourth statistical period, the fifth statistical period and the sixth statistical period are the same or different.

3. The method according to claim 1 or 2, wherein the number of the application windows displayed on the display interface of the client device is plural, and the predetermined policy includes any one of:

increasing or decreasing the current window area of each application window by a preset fixed value according to the activity parameter of each application window; or

Determining the application window with the highest activity according to the activity parameter of each application window, and increasing the application window with the highest activity by a fixed value; or

And determining the application window with the lowest activity according to the activity parameter of each application window, and reducing the application window with the lowest activity by a fixed value.

4. The method of claim 3, wherein the activity parameter of the application window comprises: the number of clicks of a single user on the application window in a first statistical period, and the number of users clicking the application window at least once in a fourth statistical period; the window region parameter comprises a height value of the application window;

the predetermined policy includes: calculating the parameter variation of each application window according to the following formula, and adjusting the current height value of the application window according to the parameter variation:

wherein, Hj is the height value of the j-th application window after adjustment; mj is the current height value of the jth application window; pj is the number of clicks of a single user on the application window in the first statistical period of the jth application window; DAUj is the number of users clicking the jth application window at least once in the fourth statistical period; n is the number of applications displayed on the display interface of the client equipment where each application window is positioned; c1 is an adjustment coefficient, and C1 is greater than 1.

5. The method of claim 4, further comprising:

acquiring the number MAUj of users clicking the jth application window at least once in the seventh statistical period; wherein the seventh statistical period is greater than the fourth statistical period;

then, the adjustment coefficient C1 is calculated according to the following formula:

6. the method according to claim 1, characterized in that the method further comprises the step of: receiving a trigger instruction for requesting to adjust the current window area of the application window, wherein the trigger instruction comprises one or more of the following:

a triggering instruction sent by the client device;

a trigger instruction is sent when the timer is overtime;

and the client equipment detects a trigger instruction sent after meeting a set condition.

7. The method of claim 1, wherein the current window region parameter of the application window is an initial value,

the initial value is a default value set by the client device according to a display interface; or

A recommended value set through a historical data statistical result; or

And window area parameters set when the user logs in the application window.

8. The method of claim 1, wherein the step of adjusting the current window area parameter of the application window according to a predetermined policy based on the activity parameter of the application window is performed by a device separate from the client device; the method further comprises the following steps:

and the device independent of the client device sends the window area parameter of the application window obtained after adjustment to the client device, so that the client device updates the current window area of the application window.

9. A method for adjusting an application window, the method comprising:

adjusting the current window area parameter of the application window according to a predetermined strategy according to the activity parameter of the application window, wherein the adjusting the current window area parameter of the application window according to the predetermined strategy comprises: adjusting the area parameter of the current window of the application window according to parameter variation, wherein the parameter variation is calculated based on the number of clicks of a single user on the application window in a preset period and the number of users clicking the application window at least once;

and sending the window area parameters of the application window obtained after adjustment to client equipment so that the client equipment updates the current window area of the application window.

10. The method according to claim 9, wherein the activity parameter of the application window comprises an activity parameter of an application window corresponding to a single user and/or an activity parameter of an application window corresponding to a non-single user;

wherein the activity parameter of the application window corresponding to the single user comprises one or more of the following parameters:

in a first statistical period, the click times of a single user to the application window;

the number of times that the single user logs in the application through the application window in a second statistical period;

within a third statistical period, the single user uses the duration of the application through the application window;

the first statistical period, the second statistical period and the third statistical period are the same or different;

wherein the activity parameter of the application window corresponding to the non-single user comprises one or more of the following parameters:

the number of users clicking the application window at least once in a fourth statistical period;

in a fifth statistical period, logging in the number of the users of the application through the application window;

in a sixth statistical period, the total duration of the application used by a plurality of users through the application window;

the fourth statistical period, the fifth statistical period and the sixth statistical period are the same or different.

11. The method according to claim 9 or 10, wherein the number of the application windows displayed on the display interface of the client device is plural, and the predetermined policy includes any one of:

increasing or decreasing the current window area of each application window by a preset fixed value according to the activity parameter of each application window; or

Determining the application window with the highest activity according to the activity parameter of each application window, and increasing the application window with the highest activity by a fixed value; or

And determining the application window with the lowest activity according to the activity parameter of each application window, and reducing the application window with the lowest activity by a fixed value.

12. An apparatus for adjusting an application window, comprising:

a processing module, configured to adjust a current window area parameter of an application window according to a predetermined policy according to an activity parameter of the application window, where adjusting the current window area parameter of the application window according to the predetermined policy includes: adjusting the area parameter of the current window of the application window according to parameter variation, wherein the parameter variation is calculated and obtained on the basis of the number of clicks of a single user on the application window in a first statistical period and the number of users clicking the application window at least once in a fourth statistical period;

and the display module is used for updating the current window area of the application window according to the window area parameter of the application window obtained after adjustment.

13. The apparatus according to claim 12, wherein the activity parameter of the application window comprises an activity parameter of an application window corresponding to a single user and/or an activity parameter of an application window corresponding to a non-single user;

wherein the activity parameter of the application window corresponding to the single user comprises one or more of the following parameters:

in a first statistical period, the click times of a single user to the application window;

the number of times that the single user logs in the application through the application window in a second statistical period;

within a third statistical period, the single user uses the duration of the application through the application window;

the first statistical period, the second statistical period and the third statistical period are the same or different;

wherein the activity parameter of the application window corresponding to the non-single user comprises one or more of the following parameters:

the number of users clicking the application window at least once in a fourth statistical period;

in a fifth statistical period, logging in the number of the users of the application through the application window;

in a sixth statistical period, the total duration of the application used by a plurality of users through the application window;

the fourth statistical period, the fifth statistical period and the sixth statistical period are the same or different.

14. The apparatus according to claim 12 or 13, wherein the number of the application windows displayed on the display interface of the client device is plural, and the predetermined policy includes any one of:

increasing or decreasing the current window area of each application window by a preset fixed value according to the activity parameter of each application window; or

Determining the application window with the highest activity according to the activity parameter of each application window, and increasing the application window with the highest activity by a fixed value; or

And determining the application window with the lowest activity according to the activity parameter of each application window, and reducing the application window with the lowest activity by a fixed value.

15. The apparatus of claim 14, wherein the activity parameter of the application window comprises: the number of clicks of a single user on the application window in a first statistical period, and the number of users clicking the application window at least once in a fourth statistical period; the window region parameter comprises a height value of the application window;

the predetermined policy includes: calculating the parameter variation of each application window according to the following formula, and adjusting the current height value of the application window according to the parameter variation:

wherein, Hj is the height value of the j-th application window after adjustment; mj is the current height value of the jth application window; pj is the number of clicks of a single user on the application window in the first statistical period of the jth application window; DAUj is the number of users clicking the jth application window at least once in the fourth statistical period; n is the number of applications displayed on the display interface of the client equipment where each application window is positioned; c1 is an adjustment coefficient, and C1 is greater than 1.

16. The apparatus of claim 15,

the adjustment coefficient C1 is calculated according to the following formula:

wherein MAUj is the number of users clicking the jth application window at least once in the seventh statistical period; and the seventh statistical period is greater than the fourth statistical period.

17. The apparatus of claim 12, wherein the display module is further configured to receive a trigger instruction requesting to adjust a current window area of the application window, and the trigger instruction includes one or more of the following:

a triggering instruction sent by the client device;

a trigger instruction is sent when the timer is overtime;

and the client equipment detects a trigger instruction sent after meeting a set condition.

18. The apparatus of claim 17, wherein a current window region parameter of the application window is an initial value,

the initial value is a default value set by the client device according to a display interface; or

A recommended value set through a historical data statistical result; or

And window area parameters set when the user logs in the application window.

19. The apparatus of claim 17, further comprising a communication module, the communication module being independent of a device of the client device; the communication module is configured to: and sending the window area parameters of the application window obtained after adjustment to the display module so that the display module updates the current window area of the application window.

20. An apparatus for adjusting an application window, comprising:

a processing module, configured to adjust a current window area parameter of an application window according to a predetermined policy according to an activity parameter of the application window, where adjusting the current window area parameter of the application window according to the predetermined policy includes: adjusting the area parameter of the current window of the application window according to parameter variation, wherein the parameter variation is calculated and obtained on the basis of the number of clicks of a single user on the application window in a first statistical period and the number of users clicking the application window at least once in a fourth statistical period;

and the communication module is used for sending the window area parameters of the application window obtained after adjustment to client equipment so as to enable the client equipment to update the current window area of the application window.

21. The apparatus according to claim 20, wherein the activity parameter of the application window comprises an activity parameter of an application window corresponding to a single user and/or an activity parameter of an application window corresponding to a non-single user;

wherein the activity parameter of the application window corresponding to the single user comprises one or more of the following parameters:

in a first statistical period, the click times of a single user to the application window;

the number of times that the single user logs in the application through the application window in a second statistical period;

within a third statistical period, the single user uses the duration of the application through the application window;

the first statistical period, the second statistical period and the third statistical period are the same or different;

wherein the activity parameter of the application window corresponding to the non-single user comprises one or more of the following parameters:

the number of users clicking the application window at least once in a fourth statistical period;

in a fifth statistical period, logging in the number of the users of the application through the application window;

in a sixth statistical period, the total duration of the application used by a plurality of users through the application window;

the fourth statistical period, the fifth statistical period and the sixth statistical period are the same or different.

22. The apparatus according to claim 20 or 21, wherein the number of the application windows displayed on the display interface of the client device is plural, and the predetermined policy includes any one of:

increasing or decreasing the current window area of each application window by a preset fixed value according to the activity parameter of each application window; or

Determining the application window with the highest activity according to the activity parameter of each application window, and increasing the application window with the highest activity by a fixed value; or

And determining the application window with the lowest activity according to the activity parameter of each application window, and reducing the application window with the lowest activity by a fixed value.

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