CN112799759A - Parameter adjusting method, intelligent terminal and computer readable storage medium - Google Patents

Abstract

The invention discloses a parameter adjusting method, an intelligent terminal and a computer readable storage medium, wherein the method comprises the following steps: monitoring a click event of a display interface; judging whether a click object of the click event is a preset setting selection frame or not according to the click coordinate of the click event; if so, loading a setting window corresponding to the setting selection frame and monitoring the setting window; and when a setting input event aiming at the setting window is monitored, determining the operating parameters corresponding to the display interface according to the setting input event. The invention can provide an effective and convenient parameter adjusting method in the application running process.

Description

Parameter adjusting method, intelligent terminal and computer readable storage medium

Technical Field

The present invention relates to the field of graphical user interfaces, and in particular, to a parameter adjusting method, an intelligent terminal, and a computer-readable storage medium.

Background

Nowadays, the intelligent terminals on sale in the market are gradually detailed and specialized, and the demands of consumers on the appearance color value, the game performance, the photographing level, the cruising ability and other performances of the intelligent terminals are gradually increased. Different applications can be set by users with different preferences in display and operation, and at this time, the users are generally required to manually adjust the setting window of the terminal when or before entering the applications.

At present, to solve this problem, display setting permissions are mainly opened for different applications, and applications entered by a user are monitored. If a user wants to enter a certain application of the intelligent terminal, the intelligent terminal can adjust the running parameters to a certain extent according to the type of the application. For example, if the entered application is a game, a game mode preset by the intelligent terminal is started, and a game experience feeling of the process is brought to the user. For example, if the application is a video application, the video mode is started, and the display parameters of the picture are adjusted. However, when the user is not satisfied with the display, the default mode of the application needs to be closed, and the setting interface of the terminal needs to be entered for adjustment, which is inconvenient. Therefore, it is still inconvenient to adjust the parameters for the display interface entering the application.

Disclosure of Invention

The invention mainly aims to provide a parameter adjusting method, an intelligent terminal and a computer readable storage medium, and aims to solve the problem that in the prior art, the parameter is inconvenient to adjust in the operation process.

In order to achieve the above object, the present invention provides a parameter adjusting method, which comprises the following steps:

monitoring a click event of a display interface;

judging whether a click object of the click event is a preset setting selection frame or not according to the click coordinate of the click event;

if so, loading a setting window corresponding to the setting selection frame and monitoring the setting window;

and when a setting input event aiming at the setting window is monitored, determining the operating parameters corresponding to the display interface according to the setting input event.

Optionally, in the parameter adjustment method, the display interface includes a game running interface.

Optionally, in the parameter adjustment method, the setting window includes a touch adjustment option and/or a display setting option.

Optionally, in the parameter adjusting method, the operation parameter includes a touch parameter; when a setting input event aiming at the setting window is monitored, determining the operation parameters corresponding to the display interface according to the setting input event, specifically comprising:

when a first input event aiming at the touch control adjustment option is monitored, loading a touch control adjustment window corresponding to the touch control adjustment option and monitoring the touch control adjustment window;

when a second input event aiming at the touch control adjusting window is monitored, determining a touch control parameter corresponding to the display interface according to the second input event.

Optionally, in the parameter adjustment method, the touch adjustment window includes a touch sensitivity adjustment bar, a smoothness adjustment bar, and an edge false touch prevention bar.

Optionally, the parameter adjusting method, wherein the operating parameter includes a display parameter; when a setting input event aiming at the setting window is monitored, determining the operation parameters corresponding to the display interface according to the setting input event, specifically comprising:

when a third input event aiming at the display setting option is monitored, loading a display setting window corresponding to the display setting option and monitoring the display setting window;

and when a fourth input event aiming at the display setting window is monitored, determining a display parameter corresponding to the display interface according to the fourth input event.

Optionally, in the parameter adjustment method, the display setting window includes a color adjustment bar, a refresh rate bar, and a picture mode bar.

Optionally, the parameter adjusting method, wherein, after determining the operation parameters corresponding to the display interface according to the setting input event when the setting input event for the setting window is monitored, the method further includes:

and adjusting the parameters of the display interface according to the operation parameters.

In addition, to achieve the above object, the present invention further provides an intelligent terminal, wherein the intelligent terminal includes: a memory, a processor and a parameter adjustment program stored on the memory and executable on the processor, the parameter adjustment program when executed by the processor implementing the steps of the parameter adjustment method as described above.

Further, to achieve the above object, the present invention also provides a computer-readable storage medium, wherein the computer-readable storage medium stores a parameter adjustment program, and the parameter adjustment program, when executed by a processor, implements the steps of the parameter adjustment method as described above.

The invention provides a parameter adjusting method, an intelligent terminal and a computer readable storage medium. When the parameter adjusting method is executed, a click event of a display interface is monitored, and then whether the click event clicks a setting-related option on the interface or not is determined according to a coordinate of the click event, namely the click coordinate, so that whether the click event is a preset setting event or not is judged. If so, directly displaying a preset setting window in the display interface, and then inputting the setting parameters expected by the user in the setting window through inputting events by the user, thereby determining the operation parameters of the display interface in the operation process. Therefore, the entry set by the method is set on the display interface, and the user can set the parameters without jumping to a setting window fixed by the intelligent terminal. Based on the invention, the setting button is added at the user interface end, so that the terminal use experience of the user is improved.

Drawings

FIG. 1 is a flow chart of a preferred embodiment of a parameter adjustment method according to the present invention;

FIG. 2 is a game playing interface of the preferred embodiment provided by the parameter adjustment method of the present invention;

FIG. 3 is a schematic view of a conventional setup interface;

FIG. 4 is a diagram illustrating a setup window in accordance with a preferred embodiment of the present invention;

FIG. 5 is a diagram illustrating a touch adjustment window according to an embodiment of the present invention;

FIG. 6 is a diagram illustrating a display setup window according to a preferred embodiment of the present invention;

fig. 7 is a schematic operating environment diagram of an intelligent terminal according to a preferred embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

According to the parameter adjusting method in the preferred embodiment of the invention, the parameter adjusting method can be executed through an intelligent terminal, and the intelligent terminal comprises a tablet, an intelligent mobile phone and other terminals. In this embodiment, a smart phone is taken as an example to describe a parameter adjustment process. As shown in fig. 1, the parameter adjusting method includes the following steps:

and S100, monitoring a click event of a display interface.

Specifically, the smart phone monitors the click event on the display interface in real time, so as to obtain the click coordinate of the click event.

The monitoring of the event can be realized by adding an event handler addEventListener () to the Window object, and can also be realized by Swing through creating an action event monitor, or realized by vue-on in the Vue framework.

In this embodiment, the display interface includes a game execution interface and a video display interface. The game running interface is a display interface when a game is played. Such as the game running interface shown in fig. 2, event monitoring is performed on the game running interface. In addition, the display interface also comprises a main interface or a setting interface and the like, namely, the scheme can be realized no matter the application is an operation interface or a non-operation interface.

And step S200, judging whether the click object of the click event is a preset setting selection box or not according to the click coordinate of the click event.

Specifically, after the click event is monitored, the object of the click event is determined according to the coordinate of the click event on the display screen, namely the click coordinate. In this embodiment, a setting frame is disposed on the display interface, and the setting frame may be directly displayed on the display interface or may be embedded in a popup component such as a dialog.

And step S300, if yes, loading a setting window corresponding to the setting selection frame and monitoring the setting window.

Specifically, if yes, it indicates that the user wants to enter the setting window of the application, and therefore the setting window corresponding to the setting selection box is loaded. The interface for setting up the window may be as shown in fig. 4. In this embodiment, the setting window occupies the entire display interface, and exists in the form of a setting interface, but may also be loaded in the form of a pop-up window or the like.

Further, the setting window provided by the embodiment can separately store the settings related to the application settings, and can also be merged with other settings. For example, the original display interface also has a setting window, but the setting window has only simple sound adjustment, brightness adjustment, and the like, and the setting window of the embodiment adds a setting selection frame related to application display touch on the original window interface, thereby simplifying the steps set by the user. In this embodiment, the setting window includes a touch adjustment option and/or a display setting option.

The touch adjustment option is mainly directed to the setting of touch related parameters, such as sensitivity, smoothness, and the like, by the user. The display setting options are primarily directed to user settings for display related parameters. The display setting that can be directly performed in the application is generally only one parameter of brightness, but in the present embodiment, the parameters in the display setting options may also include saturation, contrast, and the like.

And step S400, when a setting input event aiming at the setting window is monitored, determining the operation parameters corresponding to the display interface according to the setting input event.

Specifically, the setting input event refers to an event in which a user inputs a setting parameter. And after the setting window is opened, monitoring the interface continuously, and when a setting input event aiming at the setting window is detected, determining the expectation of the user on the parameter corresponding to the display interface according to the parameter set by the user in the setting input event, wherein the expectation parameter is the operation parameter.

Because the implementation of the embodiment mainly aims at the improvement of the software end, the terminal generated in the past can support the terminal without extra accessory cost, and better operation experience is brought to the user. And then iterative upgrade of products occurs, and multiple models can be synchronously updated based on software update.

As shown in fig. 3, there is no option for screen performance in the conventional setup interface. Most, if any, are directed to brightness adjustment. As shown in fig. 4, in a first implementation manner of this embodiment, the operation parameter includes a touch parameter. Besides different requirements for different applications on display, there are certain differences in the sensitivity of operations such as touch screen. Taking a game application as an example, research shows that some users are used to click or slide with fingertips, and some users are used to operate with fingertips, and the touch experience and the requirement are greatly different due to different areas and pressures of fingers contacting a screen. For example, shooting game applications need to slide the screen back and forth for many times, and the operation has high requirements on smooth hand following and sensitivity of touch control. Thus, conventional settings are limited to display settings for the interface, and do not provide the user with options and adjustments for operational aspects. In this embodiment, the setting window provides a touch adjustment option, so that the user can adjust the touch adjustment parameter through the touch adjustment option. The specific process is as follows:

when a first input event aiming at the touch control adjustment option is monitored, loading a touch control adjustment window corresponding to the touch control adjustment option and monitoring the touch control adjustment window;

when a second input event aiming at the touch control adjusting window is monitored, determining a touch control parameter corresponding to the display interface according to the second input event.

Specifically, whether a first input event for the touch adjustment option exists is monitored, and the first input event can be a click event, a sliding event and the like. In this embodiment, taking the first input event as a common click event as an example, when the user clicks the touch adjustment option, the first input event for the touch adjustment option is detected, and thus the touch adjustment window corresponding to the touch adjustment option is opened. The touch adjustment window may be as shown in fig. 5. Like the setting window, the touch adjustment window may exist in the form of an interface occupying the entire screen, or in the form of a pop-up window.

In this embodiment, the touch adjustment window includes a touch sensitivity adjustment bar, a smoothness adjustment bar, and an edge false touch prevention bar. The touch sensitivity adjusting bar adjusts the object to be touch sensitivity, the touch sensitivity is the sensitivity for responding to the touch screen of the user, and the higher the touch sensitivity is, the more sensitive the screen reacts to the touch operation of the user; the lower the touch sensitivity, the more dull the screen reacts to the touch operation of the user. The higher the touch sensitivity is typically set in gaming applications that require immediate response. When a user touches the display screen by using the abdomen of a finger to perform touch screen operation, the smaller the touch sensitivity is, the larger the range of the position which the user wants to touch is determined to be, and multiple components are likely to respond at the same time, so that the number of times of error reaction is increased; the greater the touch sensitivity, the more accurately the component that the user wants to control can be determined. For applications with low accuracy requirements, in order to enable the user to operate instantly, even if the user controls a plurality of components, the operation is not affected, and the user may reduce the touch sensitivity; for applications with higher accuracy requirements, the user can increase the accuracy of the response by increasing the touch sensitivity.

The adjustment target of the smoothness adjustment column is the smoothness of the operation. For example, a user quickly clicks at two different positions on a display screen, and if the smoothness is low, the operation performed by the user tends to be judged to be a single-click operation; if the smoothness is high, it may be preferable to determine that the operation made by the user is a slide, and the two points of quick click are the start point and the end point of the slide.

The adjustment object of the edge false touch prevention bar is an edge false touch range. As shown in fig. 5, the edge false touch prevention bar functions to set a false touch range for the user. When the smart phone is operated by two hands, a tiger's mouth of a user or a thumb holding the smart phone may touch the screen by mistake, especially for a full-screen and a 3D screen, and the wrong touch can easily cause wrong response of the smart phone. At the mistake of edge touch-proof fence, the user can freely set up the scope that oneself touched by mistake easily, in fig. 5 a section radian in intelligent terminal's lower left corner and lower right corner promptly. In addition, the user can set different areas as the range of preventing the edge from being touched by mistake.

According to the statistical observation of the actual operation of the game application, the touch sensitivity, smoothness and the edge anti-false touch range can be adjusted to effectively meet the requirements of most of current users on game operation, and the game experience of the users is greatly improved.

Besides the three parameters, the options can be increased or decreased according to the application type and the terminal. For example, for the application of a drawing game, the option of increasing the correction index can be added at the convenience of touch control. The larger the correction index is, the larger the correction degree is to the line input by the user, and when the requirement on details is higher, the smoothness of the drawn line is improved by adjusting the correction index to a larger degree, so that the display result is more in line with the expectation.

And after the touch control adjusting window is displayed, monitoring the touch control adjusting window so as to detect whether a second input event exists, wherein the second input event is an input event of the pointer to the touch control adjusting window. And if so, determining the touch parameter expected by the user according to the second input event. In this embodiment, the left side of the adjustment bar is the minimum value and the right side is the maximum value.

If the user wants to improve the touch sensitivity, the touch sensitivity adjusting bar can be adjusted to the right; if the touch sensitivity is required to be reduced, the touch sensitivity adjustment bar can be adjusted to the left. If the user wants to improve the smoothness, the smoothness adjusting fence is adjusted rightwards; if it is desired to reduce the smoothness, the smoothness adjustment bar is adjusted to the left. If the user wants to increase the edge false touch range, the user adjusts the edge false touch bar rightwards; and if the user wants to reduce the edge false touch range, adjusting the edge false touch bar leftwards.

The setting of the touch parameters In this embodiment is not limited by the type of the touch screen, that is, the touch screen can be implemented by a GFF (Glass + Film) touch screen, an OGS (One Glass Solution) touch screen, an One-Cell (manufactured by embedding the touch screen between a color filter substrate and a polarizer of a display screen) touch screen, or an In-Cell (manufactured by embedding the touch panel function into a liquid crystal pixel), and thus has a wide application range.

In a second implementation form of this embodiment, the operating parameter comprises a display parameter. The display parameter refers to a parameter relating to display. At present, display parameters which can be provided by an application interface on an intelligent terminal are mainly adjusted according to display brightness, and the intelligent terminal is single in function and limited. In the present embodiment, as shown in fig. 6, the display setting window includes a color adjustment field, a refresh rate field, and a screen mode field.

The color adjustment bar is used to adjust the displayed color, and besides the color saturation in fig. 6, it can also set the related parameters such as contrast, white balance, etc.

The refresh rate field is primarily for gaming applications, and the refresh rate refers to the number of times an image on the display screen is refreshed per second. The higher the refresh rate, the smoother the screen, the clearer and more stable the image, the less the damage to the glasses, but the higher the power consumption. And the lower the refresh rate, the more flickering and dithering of the image, the faster the glasses are fatigued, but the lower the power consumption. For action-like gaming applications or video applications, the refresh rate is typically set higher because image updates are faster. For gaming applications that are most often static, such as storyline gaming applications. The refresh rate can be reduced appropriately to reduce power consumption. In the present embodiment, the refresh rate column provides three refresh rates of 60Hz, 90Hz, and 120Hz as selectable objects. In addition, a higher or lower number of frames may also be set depending on the performance of the smart terminal and the type of game.

The picture mode field refers to rendering and correction effects outside of the color parameters. The screen mode field in this embodiment includes three modes, i.e., an original screen, a game HDR (High-Dynamic Range image), and a vivid screen. The original picture is the original color of the image. The game HDR mainly depends on whether the game supports HDR, the HDR is stored by 16 bits float, and more colors and details can be stored. If the game supports game HDR, then turning on game HDR may show more color fineness, provide more details, bring better game experience to users, but game HDR also needs whether the display itself supports, the color of HDR is excessive for some users, and so whether to turn on game HDR is decided by users themselves. The vivid mode is that the displayed picture color is more full and vivid through the color rendering function of the intelligent terminal. In the embodiment, only three screen modes in fig. 6 are taken as an example, and other options related to the screen modes may be added or reduced according to the actual requirements, the performance of the game itself, and the functions of the smart terminal itself.

In fig. 6, the refresh rate field and the screen mode field are in the form of boxes, but both fields may be changed to the form of adjustment fields as needed. Meanwhile, the adjustment columns such as the touch sensitivity adjustment column and the smoothness adjustment column can be changed into a frame selection form.

Further, the color adjustment field, the refresh rate field, and the screen mode field mentioned in this embodiment are only options provided by this embodiment, and these options may be added or subtracted according to the user's own needs and the needs of the manufacturer. For example, rendering-related options may also be added, such as rendering mode boxes, including standard mode, pixilated mode, partially pixilated mode, and so forth.

When a third input event aiming at the display setting option is monitored, loading a display setting window corresponding to the display setting option and monitoring the display setting window;

and when a fourth input event aiming at the display setting window is monitored, determining a display parameter corresponding to the display interface according to the fourth input event.

Specifically, for the monitoring of the setting window, when the user clicks the display setting option, a third input event for the display setting option is monitored, which represents that the user clicks the display setting option. Thus, the display setting window corresponding to the display setting option is loaded, as shown in fig. 6, and the displayed display setting window is monitored.

And when the user clicks or slides on the display setting window, the user inputs a fourth input event to the display setting window, and the display parameters corresponding to the display interface can be determined by monitoring the fourth input event. For example, whether the user clicks on an object in the display image field as a vivid option or as an original option, thereby determining which type of display mode is among the display parameters desired by the user.

Through statistical analysis, it is found that under the same interface, the refresh rate, the mode of the picture, the color and the like have certain influence on the experience of the user on the application, and the size of different application influences is different.

In a third implementation manner of this embodiment, the operation parameters include a display parameter and a touch parameter, that is, the first implementation manner and the second implementation manner of this embodiment are combined.

Therefore, the third implementation mode can solve the problems of smoothness of touch sliding, sensitivity of operation, display touch experience differences of picture image colors and the like caused by different use habits and preferences of users under various conditions such as games, videos and the like.

The invention is mainly improved in a software level, so that a User Interface design (UI) end screen parameter adjusting method is equivalently provided, and the User can define and adjust parameters by himself according to User habits and different application scenes to find display parameters and touch parameters which are most suitable for the User's own requirements. The user can set display parameters such as color saturation, screen refresh rate and picture mode and touch parameters such as touch sensitivity, smoothness and edge anti-false touch range according to the requirements of the user or the user without using the application in the running scene of the application, thereby bringing smoother and game experience.

And S500, adjusting parameters of the display interface according to the operation parameters.

Specifically, after the user sets all the operation parameters, the smart phone further adjusts the parameters of the display interface according to the operation parameters. In the system layer, after the operation parameters are determined, the system of the intelligent terminal issues commands for Touch and Display, and the Touch and Display IC adapts to different parameters according to the acquired operation parameters, so that the Display of the Display interface is adjusted, and the user requirements are met.

For example, an image display mode is selected, if the user selects vivid, specific parameters corresponding to the vivid mode are acquired, and the parameters are used as one parameter for determining the final display result of the display interface.

Further, as shown in fig. 7, based on the above parameter adjusting method, the present invention also provides an intelligent terminal, which includes a processor 10, a memory 20, and a display 30. Fig. 7 shows only some of the components of the smart terminal, but it should be understood that not all of the shown components are required to be implemented, and that more or fewer components may be implemented instead.

The memory 20 may be an internal storage unit of the intelligent terminal in some embodiments, such as a hard disk or a memory of the intelligent terminal. The memory 20 may also be an external storage device of the Smart terminal in other embodiments, such as a plug-in hard disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), and the like, which are provided on the Smart terminal. Further, the memory 20 may also include both an internal storage unit and an external storage device of the smart terminal. The memory 20 is used for storing application software installed in the intelligent terminal and various data, such as program codes of the installed intelligent terminal. The memory 20 may also be used to temporarily store data that has been output or is to be output. In one embodiment, the memory 20 stores a parameter adjustment program 40, and the parameter adjustment program 40 can be executed by the processor 10 to implement the parameter adjustment method of the present application.

The processor 10 may be a Central Processing Unit (CPU), microprocessor or other data Processing chip in some embodiments, and is used for executing program codes stored in the memory 20 or Processing data, such as executing the parameter adjusting method.

The display 30 may be an LED display, a liquid crystal display, a touch-sensitive liquid crystal display, an OLED (Organic Light-Emitting Diode) touch panel, or the like in some embodiments. The display 30 is used for displaying information at the intelligent terminal and for displaying a visual user interface. The components 10-30 of the intelligent terminal communicate with each other via a system bus.

In one embodiment, the following steps are implemented when the processor 10 executes the parameter adjustment program 40 in the memory 20:

monitoring a click event of a display interface;

judging whether a click object of the click event is a preset setting selection frame or not according to the click coordinate of the click event;

if so, loading a setting window corresponding to the setting selection frame and monitoring the setting window;

and when a setting input event aiming at the setting window is monitored, determining the operating parameters corresponding to the display interface according to the setting input event.

Wherein the display interface comprises a game play interface.

The setting window comprises a touch control adjusting option and/or a display setting option.

Wherein the operating parameters comprise touch parameters; when a setting input event aiming at the setting window is monitored, determining the operation parameters corresponding to the display interface according to the setting input event, specifically comprising:

when a first input event aiming at the touch control adjustment option is monitored, loading a touch control adjustment window corresponding to the touch control adjustment option and monitoring the touch control adjustment window;

when a second input event aiming at the touch control adjusting window is monitored, determining a touch control parameter corresponding to the display interface according to the second input event.

The touch control adjusting window comprises a touch control sensitivity adjusting column, a smoothness adjusting column and an edge false touch preventing column.

Wherein the operating parameters include display parameters; when a setting input event aiming at the setting window is monitored, determining the operation parameters corresponding to the display interface according to the setting input event, specifically comprising:

when a third input event aiming at the display setting option is monitored, loading a display setting window corresponding to the display setting option and monitoring the display setting window;

and when a fourth input event aiming at the display setting window is monitored, determining a display parameter corresponding to the display interface according to the fourth input event.

Wherein the display setting window includes a color adjustment field, a refresh rate field, and a picture mode field.

When a setting input event aiming at the setting window is monitored, after determining the operation parameters corresponding to the display interface according to the setting input event, the method further comprises the following steps:

and adjusting the parameters of the display interface according to the operation parameters.

The present invention also provides a computer-readable storage medium, wherein the computer-readable storage medium stores a parameter adjustment program, and the parameter adjustment program, when executed by a processor, implements the steps of:

monitoring a click event of a display interface; judging whether a click object of the click event is a preset setting selection frame or not according to the click coordinate of the click event; if so, loading a setting window corresponding to the setting selection frame and monitoring the setting window; and when a setting input event aiming at the setting window is monitored, determining the operating parameters corresponding to the display interface according to the setting input event.

The computer-readable storage medium provided by the invention can provide an effective and convenient parameter adjusting method in the application running process. Of course, it will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by instructing relevant hardware (such as a processor, a controller, etc.) through a computer program, and the program can be stored in a computer readable storage medium, and when executed, the program can include the processes of the embodiments of the methods described above. The computer readable storage medium may be a memory, a magnetic disk, an optical disk, etc.

It is to be understood that the invention is not limited to the examples described above, but that modifications and variations may be effected thereto by those of ordinary skill in the art in light of the foregoing description, and that all such modifications and variations are intended to be within the scope of the invention as defined by the appended claims.

Claims (10)

1. A parameter adjusting method is characterized by comprising the following steps:

monitoring a click event of a display interface;

judging whether a click object of the click event is a preset setting selection frame or not according to the click coordinate of the click event;

if so, loading a setting window corresponding to the setting selection frame and monitoring the setting window;

and when a setting input event aiming at the setting window is monitored, determining the operating parameters corresponding to the display interface according to the setting input event.

2. The parameter adjustment method of claim 1, wherein the display interface comprises a game play interface.

3. The parameter adjustment method according to claim 1, wherein the setting window comprises a touch adjustment option and/or a display setting option.

4. The parameter adjustment method according to claim 3, wherein the operating parameter comprises a touch parameter; when a setting input event aiming at the setting window is monitored, determining the operation parameters corresponding to the display interface according to the setting input event, specifically comprising:

when a first input event aiming at the touch control adjustment option is monitored, loading a touch control adjustment window corresponding to the touch control adjustment option and monitoring the touch control adjustment window;

when a second input event aiming at the touch control adjusting window is monitored, determining a touch control parameter corresponding to the display interface according to the second input event.

5. The parameter adjustment method according to claim 4, wherein the touch adjustment window comprises a touch sensitivity adjustment bar, a smoothness adjustment bar, and an edge anti-false-touch bar.

6. A parameter adjustment method according to claim 3, characterized in that the operating parameter comprises a display parameter; when a setting input event aiming at the setting window is monitored, determining the operation parameters corresponding to the display interface according to the setting input event, specifically comprising:

when a third input event aiming at the display setting option is monitored, loading a display setting window corresponding to the display setting option and monitoring the display setting window;

and when a fourth input event aiming at the display setting window is monitored, determining a display parameter corresponding to the display interface according to the fourth input event.

7. The parameter adjustment method according to claim 6, wherein the display setting window includes a color adjustment field, a refresh rate field, and a picture mode field.

8. The parameter adjustment method according to any one of claims 1 to 7, wherein after determining the operation parameter corresponding to the display interface according to the setting input event when the setting input event for the setting window is monitored, the method further comprises:

and adjusting the parameters of the display interface according to the operation parameters.

9. An intelligent terminal, characterized in that, intelligent terminal includes: memory, a processor and a parameter adjustment program stored on the memory and executable on the processor, the parameter adjustment program when executed by the processor implementing the steps of the parameter adjustment method according to any one of claims 1-8.

10. A computer-readable storage medium, characterized in that the computer-readable storage medium stores a parameter adjustment program which, when executed by a processor, implements the steps of the parameter adjustment method according to any one of claims 1 to 8.

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