CN112214141A - Information processing method and electronic equipment - Google Patents

Abstract

The application discloses an information processing method and electronic equipment, wherein target brightness is obtained, and based on the target brightness, the display effect of a first display area of a display screen and the display effect of a second display area of the display screen are adjusted, wherein the first display area and the second display area belong to different parts of a display output area of the display screen, and the display effect of the adjusted first display area is different from that of the adjusted second display area. According to the scheme, different display output areas of the display screen are adjusted to different display effects based on the target brightness, different areas are adjusted to different effects based on the same parameter, the diversity of the different display area display effects of the display screen under the same condition is improved, and the user experience is improved.

Description

Information processing method and electronic equipment

Technical Field

The present application relates to the field of devices, and in particular, to an information processing method and an electronic device.

Background

At present, in the display process of a display screen, the display output is generally unified for a complete display output area, and the situation that different display effects exist in different areas can not occur.

Disclosure of Invention

In view of the above, the present application provides an information processing method and an electronic device, and the specific scheme is as follows:

an information processing method, the method comprising:

obtaining target brightness;

adjusting the display effect of a first display area of a display screen and the display effect of a second display area of the display screen based on the target brightness; the first display area and the second display area belong to different parts of a display output area of the display screen;

and the display effect of the adjusted first display area is different from that of the adjusted second display area.

Further, the first display area corresponds to an acquisition area of an image acquisition device located below the display screen.

Further, the adjusting the display effect of the first display area of the display screen and the display effect of the second display area of the display screen based on the target brightness includes:

responding to an adjustment to the first display region based on the target brightness based on a first response policy for the first display region;

responding to adjustment of the target brightness for the second display region based on a second response policy of the second display region, the first response policy being different from the second response policy.

Further, the first response policy includes at least one of:

if the target brightness is larger than a first brightness threshold value, controlling pixels of a first display area of the display screen to be in a non-lighting state;

and if the target brightness is greater than a second brightness threshold and smaller than the first brightness threshold, controlling the gray scale of the pixel in the first display area of the display screen to be reduced to a target gray scale.

Further, the first response policy includes at least one of:

if the target brightness is larger than a first brightness threshold value, controlling a first display area of the display screen to display black;

and if the target brightness is larger than a second brightness threshold and smaller than the first brightness threshold, controlling the resolution of the first display area of the display screen to be reduced to the target resolution.

Further, the second response policy includes:

controlling the brightness of pixels in a second display area of the display screen to reach the target brightness according to the target brightness;

the first response policy further comprises:

and if the target brightness is smaller than the second brightness threshold value, controlling the brightness of the pixels in the first display area of the display screen to reach the target brightness.

Further, in the above-mentioned case,

the target brightness is determined based on the ambient light brightness;

or the target brightness is determined based on the input operation of the user for the adjusting control.

An electronic device, comprising:

a display screen for displaying output content;

the processor is used for obtaining target brightness, and adjusting the display effect of a first display area of the display screen and the display effect of a second display area of the display screen based on the target brightness, wherein the first display area and the second display area belong to different parts of a display output area of the display screen, and the adjusted first display area and the adjusted second display area have different display effects.

Further, the electronic device further includes:

the image acquisition equipment is arranged below the display screen, and the first display area corresponds to the acquisition area of the image acquisition equipment.

Further, the processor adjusts a display effect of a first display area of the display screen and a display effect of a second display area of the display screen based on the target brightness, including:

the processor responding to an adjustment to the first display region based on the target brightness based on a first response policy for the first display region; responding to adjustment of the target brightness for the second display region based on a second response policy of the second display region, the first response policy being different from the second response policy.

According to the information processing method and the electronic device, the target brightness is obtained, the display effect of the first display area of the display screen and the display effect of the second display area of the display screen are adjusted based on the target brightness, the first display area and the second display area belong to different parts of the display output area of the display screen, and the adjusted first display area and the adjusted second display area have different display effects. According to the scheme, different display output areas of the display screen are adjusted to different display effects based on the target brightness, different areas are adjusted to different effects based on the same parameter, the diversity of the different display area display effects of the display screen under the same condition is improved, and the user experience is improved.

Drawings

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

Fig. 1 is a flowchart of an information processing method disclosed in an embodiment of the present application;

fig. 2 is a flowchart of an information processing method disclosed in an embodiment of the present application;

FIG. 3 is a schematic diagram of an embodiment of the present disclosure for adjusting resolution;

fig. 4 is a schematic structural diagram of an electronic device disclosed in an embodiment of the present application.

Detailed Description

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

The application discloses an information processing method, a flow chart of which is shown in fig. 1, comprising the following steps:

step S11, obtaining target brightness;

and step S12, adjusting the display effect of a first display area of the display screen and the display effect of a second display area of the display screen based on the target brightness, wherein the first display area and the second display area belong to different parts of a display output area of the display screen, and the display effect of the adjusted first display area is different from that of the adjusted second display area.

The target brightness is the brightness output by the device control end, and the display effects of the first display area and the second display area are adjusted based on the target brightness to enable the first display area and/or the second display area to reach the target brightness, or the display effects of the first display area and the second display area are adjusted based on the target brightness to enable the first display area to reach the first brightness and the second display area to reach the second brightness, and the first brightness and the second brightness can be different from the target brightness.

Wherein the target brightness is determined based on the input operation of the user for the adjusting control, such as: the user determines the brightness required to be achieved by the display screen based on the brightness adjusting control, namely the target brightness is determined;

the target brightness may also be determined based on the ambient light level, i.e., the brightness that the display screen needs to achieve is determined based on the current ambient light level, i.e., the target brightness is determined.

And the target brightness is specific to the display screen, that is, the complete display output area of the display screen is taken as an adjustment object of the target brightness, and the first display area and the second display area of the display screen are adjusted based on one adjustment parameter of the target brightness, so that the adjusted first display area and the adjusted second display area have different display effects, that is, different display effects are adjusted in different display areas of the display screen based on the same adjustment parameter, and the problem of single display effect is avoided.

The first display area and the second display area belong to different parts of a display output area of the display screen. The first display area and the second display area can form a complete display screen, namely the display screen is formed by the first display area and the second display area. In this case, the adjustment of the display effect of the two display output regions included in the complete display screen can be achieved by the target brightness.

Or the first display area and the second display area form a part of the display screen, that is, the display screen comprises other display areas besides the first display area and the second display area. In this case, only a portion of the display screen, that is, only the first display region and the second display region, can be adjusted by the target luminance, and a portion of the display output region of the display screen other than the first display region and the second display region cannot be adjusted.

The display effect of the first display area and the display effect of the second display area of the display screen are adjusted based on the target brightness, and the display effects of the first display area and the second display area are adjusted based on the target brightness, which may be: adjusting the brightness of the first display area and the second display area, or may be: adjusting the contrast of the first display area and the second display area, or may be: and adjusting the display content of the first display area and the second display area.

If the adjustment of the display effect is performed on the parameters having actual numerical values, such as the brightness and the contrast of the first display region and the second display region, the parameter values may be increased or decreased based on the target brightness.

Such as: obtaining a target brightness, directly reducing the brightness of the first display area based on the target brightness, and directly reducing the brightness of the first display area no matter what the value of the target brightness is, wherein the target brightness does not need to be judged in the process, but the brightness of the first display area needs to be reduced as long as the target brightness is obtained;

or obtaining a target brightness, and performing recognition and judgment on the target brightness so as to determine how to adjust the display effect of the first display area and the second display area.

Further, the first display area corresponds to an acquisition area of the image acquisition device located below the display screen.

The first display area may be completely matched with the acquisition area of the image acquisition device, and may also be: the first display area is slightly larger than the acquisition area of the image acquisition device and the first display area is completely encompassing the acquisition area of the image acquisition device.

The image acquisition equipment is arranged below the display screen, when the image acquisition equipment is in an enabling state, the image acquisition equipment can acquire images with good image display effect, more light is required to penetrate through a first display area of the display screen, more light is required to penetrate through the first display area, pixels of the first display area are required to be smaller than pixels of a second display area in order to ensure that more light penetrates through the first display area, and when the pixels of the first display area are smaller than the pixels of the second display area, the density of the pixels in the first display area is smaller than the density of the pixels in the second display area.

When the pixel in the first display area is smaller than the pixel in the second display area, and the pixel density in the first display area is smaller than the pixel density in the second display area, the same brightness is displayed in the first display area and the second display area, so that the current received by the first display area is larger than the current received by the second display area, and when the current received by the first display area is larger, the problem of service life reduction of the pixel in the first display area relative to the pixel in the second display area is more likely to occur, which leads to the problem of different service lives of different display areas on the same display screen.

In order to solve the problem, when the target brightness is obtained, the display effect of the first display area is adjusted to be different from that of the second display area based on the target brightness, and the display effect of the first display area is different from that of the second display area, so that the service life of the OLED material at the first display area is basically consistent with that of the OLED material at the second display area, and the condition that the service lives of different display areas on the same display screen are obviously different is avoided.

The information processing method disclosed in this embodiment obtains a target brightness, and adjusts, based on the target brightness, a display effect of a first display area of a display screen and a display effect of a second display area of the display screen, where the first display area and the second display area belong to different portions of a display output area of the display screen, and the display effect of the adjusted first display area is different from that of the adjusted second display area. According to the scheme, different display output areas of the display screen are adjusted to different display effects based on the target brightness, different areas are adjusted to different effects based on the same parameter, the diversity of the different display area display effects of the display screen under the same condition is improved, and the user experience is improved.

The present embodiment discloses an information processing method, a flowchart of which is shown in fig. 2, and includes:

step S21, obtaining target brightness;

step S22, responding to the adjustment of the first display area based on the target brightness based on the first response strategy of the first display area;

step S23, responding to the adjustment of the target brightness for the second display area based on a second response policy of the second display area, the first response policy and the second response policy being different; the display effect of the adjusted first display area is different from that of the adjusted second display area.

After the target brightness is obtained, the target brightness is analyzed to determine how to adjust the first display area and/or the second display area based on the current target brightness, and the adjustment modes of the first display area and the second display area may be the same or different.

Specifically, the first display area is adjusted based on a first response policy, the second display area is adjusted based on a second response policy, an adjustment manner of the first display area is a first response policy, and an adjustment manner of the second display area is a second response policy.

Wherein, the first response policy may be: and if the target brightness is larger than the first brightness threshold value, controlling the pixels of the first display area of the display screen to be in a non-lighting state.

Specifically, the target brightness is obtained, the target brightness is judged, and when the target brightness is determined to be greater than the first brightness threshold, the pixels of the first display area of the display screen are controlled to be in a non-lighting state, that is, the first display area is in a black screen state, the current transmitted to the first display area can be specifically controlled, even if the current transmitted to the first display area is 0, at this time, the pixels of the first display area do not have brightness and cannot be in a lighting state because no current reaches the first display area.

When the target brightness is larger than the first brightness threshold, the target brightness is too high, if the target brightness is used for displaying, the problem that the driving current is too large and the loss of the OLED material of the first display area is larger is caused, in order to reduce the material loss of the first display area, the pixel of the first display area is not directly lightened when the target brightness is larger than the first brightness threshold, so that no current flows in the first display area, the loss of the material of the first display area is not caused, the service life of the material of the first display area is prolonged, and the problem that the service life of the material of the first display area is shortened too fast is avoided.

Further, in this process, the luminance of the pixels of the second display region may be controlled to reach the target luminance based on the target luminance.

When the target brightness is determined to be too high relative to the brightness of the first display area, the current of the first display area is closed to enable the first display area to be in a non-lighting state, and meanwhile, the second display area is controlled to reach the target brightness, so that even if the target brightness is larger than a first brightness threshold value, the target brightness does not have great influence on the service life of a material of the second display area;

and when the target brightness is larger than the first brightness threshold, the current of the first display area is closed, so that the brightness of the second display area reaches the target brightness, and on the basis of reducing the service life loss of the material of the first display area, the loss of the material in the second display area is accelerated, so that the service life difference between the first display area and the second display area is shortened.

In addition, the first response policy may also be:

and if the target brightness is greater than the second brightness threshold and less than the first brightness threshold, controlling the gray scale of the pixel in the first display area of the display screen to be reduced to the target gray scale.

Specifically, the target brightness is obtained, the target brightness is judged, when the target brightness is determined to be larger than the second brightness threshold and smaller than the first brightness threshold, the gray scale of the first display area is directly adjusted, the current or other parameters are not adjusted, and only the gray scale of the pixels in the first display area of the display screen is controlled to be reduced to the target gray scale.

When the pixels of the first display area are in the target gray scale, the brightness of the first display area is correspondingly reduced, and the problem of reducing the loss of materials at the first display area can be solved.

In addition, when the target brightness is in the interval of the second brightness threshold value and the first brightness threshold value, the gray scale of the first display area of the display screen is controlled to be the target gray scale, even if the target gray scale of the first display area corresponds to the brightness in the interval of the second brightness threshold value and the first brightness threshold value.

Further, in this process, based on the target brightness, the brightness of the pixels of the second display region of the display screen is controlled to reach the target brightness.

When the target brightness is determined to be within the interval of the second brightness threshold and the first brightness threshold, the current target brightness is considered to be slightly higher relative to the first display area, which affects the material life of the first display area, and therefore, the gray scale of the pixels of the first display area is reduced; meanwhile, because the target brightness is in the interval between the second brightness threshold and the first brightness threshold, the target brightness has little influence on the service life of the material of the second display area, so that the brightness or gray scale of the second display area is adjusted wirelessly, and the brightness of the pixels of the second display area can be directly enabled to reach the target brightness, thereby shortening the service life difference between the first display area and the second display area on the basis of reducing the service life loss of the material of the first display area.

In addition, the following may be also possible:

if the target brightness is larger than the first brightness threshold value, controlling the pixels of the first display area of the display screen to be in a non-lighting state; and if the target brightness is greater than the second brightness threshold and less than the first brightness threshold, controlling the gray scale of the pixel in the first display area of the display screen to be reduced to the target gray scale.

The method comprises the steps that different control operations are executed on a first display area based on different values of target brightness, and when the target brightness is too high, namely the target brightness is larger than a first brightness threshold value, current transmitted to pixels of the first display area is directly turned off to enable the pixels to be in a non-lighting state, so that the problem of too high material loss of the first display area caused by too high current is solved; when the target brightness is large but not yet greater than the first brightness threshold, that is, the target brightness is greater than the second brightness threshold and less than the first brightness threshold, the current transmitted to the pixels of the first display region does not need to be turned off, but only the gray scale of the pixels of the first display region is adjusted to reduce the brightness, thereby achieving the problem of reducing the material loss of the first display region.

Further, the method can also comprise the following steps: and if the target brightness is smaller than the second brightness threshold value, controlling the brightness of the pixels in the first display area of the display screen to reach the target brightness.

If the target brightness is less than the second brightness threshold, the target brightness may be directly determined as the brightness of the pixel of the first display region when the pixel of the first display region reaches the target brightness and the influence of the target brightness on the material life of the first display region is small.

When the target brightness is in different brightness threshold value ranges, different control strategies are provided for the first display area, so that the influence degree of the current value of the target brightness on the material of the first display area is determined based on the value of the target brightness, the display effect of the first display area is determined, and the problem of reduction of the service life of the first display area due to large current caused by large target brightness is solved.

In addition, the first response policy may also be:

and if the target brightness is larger than the first brightness threshold value, controlling a first display area of the display screen to display black.

When the target brightness is obtained, and the target brightness is determined to be too large and exceeds the first brightness threshold, the first display area of the display screen is directly controlled to display black, and specifically, the display area may be a black picture.

When the first display area displays black, the brightness of the first display area when displaying black is lower than that when the first display area displays white, and when the first display area displays black, the brightness of the first display area when displaying other contents is lower than that of the first display area, the brightness is lower, the corresponding current transmitted to the first display area is reduced, and the influence on the service life of the material of the first display area is reduced.

Further, if the target brightness is larger than the first brightness threshold value, the brightness of the pixels in the second display area of the display screen is controlled to reach the target brightness.

When the target brightness is greater than the first brightness threshold, controlling the first display area of the display screen to display black, and simultaneously controlling the second display area to reach the target brightness, so that even if the target brightness is greater than the first brightness threshold, the target brightness does not have great influence on the service life of the material of the second display area;

and when the target brightness is larger than the first brightness threshold, the current of the first display area is closed, so that the brightness of the second display area reaches the target brightness, and on the basis of reducing the service life loss of the material of the first display area, the loss of the material in the second display area is accelerated, so that the service life difference between the first display area and the second display area is shortened.

In addition, the first control strategy may also be:

and if the target brightness is greater than the second brightness threshold and less than the first brightness threshold, controlling the resolution of the first display area of the display screen to be reduced to the target resolution.

When the target brightness is determined to be greater than the second brightness threshold and less than the first brightness threshold, the resolution of the first display region is directly adjusted without other forms of adjustment. The resolution of the first display region is reduced and the current delivered to the pixels of the first display region is reduced, thereby achieving the goal of reducing the effect on the lifetime of the material of the first display region.

In addition, the adjusting the resolution of the first display area may specifically be: and adjusting the resolution of the display screen, namely directly adjusting the resolution of a display output area of the complete display screen comprising the first display area and the second display area.

As shown in fig. 3, includes: a first display area 31, a second display area 32, a third display area 33 and a fourth display area 34.

In fig. 3, the left side is the resolution parameter of the display output region of the display screen before resolution adjustment, the resolution of which is RES _ X × RES _ Y, and the right side in fig. 3 is the resolution parameter of the display output region of the display screen after resolution adjustment, the resolution of which is RES _ X × RES _ Y', and the display effect of the third display region 33 in the image on the right side in fig. 3 after resolution adjustment is different from the display effect of the other region, that is, the fourth display region 34, and is no longer controlled by the display screen driving control chip or the processor in the electronic device including the display screen.

Of course, when it is determined that the target brightness is greater than the second brightness threshold and less than the first brightness threshold, the brightness of the pixels in the second display area of the display screen may be controlled to reach the target brightness while the resolution of the first display area of the display screen is controlled to be reduced to the target resolution, so as to reduce the difference between the lifetimes of the material in the second display area and the material in the first display area.

Further, the first response policy may be:

if the target brightness is larger than the first brightness threshold value, controlling a first display area of the display screen to display black; and if the target brightness is greater than the second brightness threshold and less than the first brightness threshold, controlling the resolution of the first display area of the display screen to be reduced to the target resolution.

After the target brightness is obtained, the value range of the target brightness is judged, so that the display effect of the first display area can be adjusted in different modes based on the fact that the target brightness is in different ranges.

Furthermore, the brightness of the pixels in the first display area of the display screen is controlled to reach the target brightness when the target brightness is smaller than the second brightness threshold.

Further, a target brightness is obtained, where the target brightness may be determined based on the ambient light brightness or based on an input operation of the user on the adjustment control, and then, whether the target brightness is determined based on the ambient light brightness or based on an input operation of the user on the adjustment control, the current brightness of the electronic device is adjusted to the target brightness from the original brightness.

When the current brightness of the display screen is adjusted to the target brightness, the current brightness may be greater than the target brightness or may be less than the target brightness. For example: when a user holds the electronic equipment and moves from a dim place to a bright place, the current brightness is improved to the target brightness based on the ambient light, and at the moment, the target brightness is higher than the current brightness; if the user moves the handheld electronic device from a brightly lit location to a dimly lit location, the current brightness is reduced to a target brightness based on the ambient light, where the target brightness is less than the current brightness.

When the current brightness is smaller than the target brightness, the brightness of the display screen is improved, and at the moment, the brightness of the pixels in the second display area is controlled to reach the target brightness no matter what the numerical value range of the target brightness is;

if the target brightness is greater than the first brightness threshold, the pixel of the first display area of the display screen can be controlled to be in a non-lighting state, or the first display area of the display screen is controlled to display black; if the target brightness is larger than the second brightness threshold and smaller than the first brightness threshold, the gray scale of the pixel in the first display area of the display screen can be controlled to be reduced to the target gray scale, or the resolution of the first display area of the display screen is controlled to be reduced to the target resolution; if the target brightness is still smaller than the second brightness threshold value after the current brightness is increased to the target brightness, the brightness of the pixels in the first display area of the display screen can be controlled to reach the target brightness;

when the current brightness is larger than the target brightness, the brightness of the display screen is reduced, and at the moment, the brightness of the pixels in the second display area is controlled to reach the target brightness no matter what the numerical value range of the target brightness is;

if the current brightness is reduced to the target brightness and the target brightness is still greater than the first brightness threshold, the current brightness is the brightness greater than the first brightness threshold, and if the pixel of the first display area of the display screen is in a non-lighting state at the moment, the display effect of the first display area can be kept in the non-lighting state without adjusting the display effect of the first display area when the current brightness is reduced to the target brightness still greater than the first brightness threshold; similarly, if the first display area of the display screen displays black at the moment, the first display area is still kept displaying black;

if the target brightness is determined to be greater than the second brightness threshold and less than the first brightness threshold, if the current brightness is the brightness greater than the first brightness threshold, the first display area may be controlled to be switched from the non-lighting state of the pixels to the gray scale of the pixels of the first display area to the target gray scale, or the first display area is controlled to be switched from the non-lighting state of the pixels to the resolution of the first display area to the target resolution when the target brightness is determined to be greater than the second brightness threshold and less than the first brightness threshold; or, the display black of the first display area is switched to control the gray scale of the pixel of the first display area to the target gray scale; or, the display of black in the first display area is switched to control the resolution of the first display area to the target resolution;

if the target brightness is determined to be greater than the second brightness threshold and less than the first brightness threshold, if the current brightness is the brightness greater than the second brightness threshold and less than the first brightness threshold, when the target brightness is determined to be greater than the second brightness threshold and less than the first brightness threshold, the gray scale of the pixel of the first display area can be controlled to be reduced to the target gray scale, or the resolution of the first display area is controlled to be reduced to the target resolution;

if the target brightness is determined to be smaller than the second brightness threshold, no matter the current brightness is greater than the first brightness threshold, or the current brightness is greater than the second brightness threshold and smaller than the first brightness threshold, or the current brightness is smaller than the second brightness threshold, the first display area is controlled to be switched to the display state in which the brightness of the pixels in the first display area is consistent with the target brightness when the target brightness is determined to be smaller than the second brightness threshold.

It should be noted that, the first display area may be disposed at an edge position of the display screen, that is, the acquisition area of the image acquisition device is disposed at an edge position of the electronic device, and when the acquisition area of the image acquisition device is located at the edge position of the electronic device, and when the target brightness is high, no matter whether the pixel of the first display area is controlled to be in a non-lighting state or to reduce the gray scale thereof, or the first display area is controlled to display black, or the resolution of the first display area is controlled to be reduced to the target resolution, the display content of the display screen main body of the electronic device is not affected, and the use experience of the user when using the electronic device is not affected.

The information processing method disclosed in this embodiment obtains a target brightness, and adjusts, based on the target brightness, a display effect of a first display area of a display screen and a display effect of a second display area of the display screen, where the first display area and the second display area belong to different portions of a display output area of the display screen, and the display effect of the adjusted first display area is different from that of the adjusted second display area. According to the scheme, different display output areas of the display screen are adjusted to different display effects based on the target brightness, different areas are adjusted to different effects based on the same parameter, the diversity of the different display area display effects of the display screen under the same condition is improved, and the user experience is improved.

The embodiment discloses an electronic device, a schematic structural diagram of which is shown in fig. 4, and the electronic device includes:

a display 41 and a processor 42.

Wherein, the display screen 41 is used for displaying output content;

the processor 42 is configured to obtain a target brightness, and adjust a display effect of a first display area of the display screen and a display effect of a second display area of the display screen based on the target brightness, where the first display area and the second display area belong to different parts of a display output area of the display screen, and the adjusted first display area and the adjusted second display area have different display effects.

Further, the electronic device further includes: an image acquisition device.

The image acquisition equipment is arranged below the display screen, and the first display area corresponds to the acquisition area of the image acquisition equipment.

Further, the processor adjusts a display effect of a first display area of the display screen and a display effect of a second display area of the display screen based on the target brightness, and the adjusting includes: the processor is responsive to an adjustment of the target brightness for the first display region based on a first response policy for the first display region, the first response policy being different from the second response policy, and is responsive to an adjustment of the target brightness for the second display region based on a second response policy for the second display region.

Further, the first response policy includes at least one of:

if the target brightness is larger than the first brightness threshold value, controlling the pixels of the first display area of the display screen to be in a non-lighting state;

and if the target brightness is greater than the second brightness threshold and smaller than the first brightness threshold, controlling the gray scale of the pixel in the first display area of the display screen to be reduced to the target gray scale.

Further, the first response policy includes at least one of:

if the target brightness is larger than the first brightness threshold value, controlling a first display area of the display screen to display black;

and if the target brightness is greater than the second brightness threshold and less than the first brightness threshold, controlling the resolution of the first display area of the display screen to be reduced to the target resolution.

Further, the second response policy includes:

controlling the brightness of pixels in a second display area of the display screen to reach the target brightness according to the target brightness;

the first response policy further includes:

and if the target brightness is smaller than the second brightness threshold value, controlling the brightness of the pixels in the first display area of the display screen to reach the target brightness.

Further, in the above-mentioned case,

the target brightness is determined based on the ambient light brightness;

or the target brightness is determined based on the input operation of the user for the adjusting control.

The electronic device disclosed in this embodiment is implemented based on the information processing method disclosed in the above embodiment, and details are not described here.

The information processing method disclosed in this embodiment obtains a target brightness, and adjusts, based on the target brightness, a display effect of a first display area of a display screen and a display effect of a second display area of the display screen, where the first display area and the second display area belong to different portions of a display output area of the display screen, and the display effect of the adjusted first display area is different from that of the adjusted second display area. According to the scheme, different display output areas of the display screen are adjusted to different display effects based on the target brightness, different areas are adjusted to different effects based on the same parameter, the diversity of the different display area display effects of the display screen under the same condition is improved, and the user experience is improved.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may reside in Random Access Memory (RAM), memory, Read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. An information processing method, the method comprising:

obtaining target brightness;

adjusting the display effect of a first display area of a display screen and the display effect of a second display area of the display screen based on the target brightness; the first display area and the second display area belong to different parts of a display output area of the display screen;

and the display effect of the adjusted first display area is different from that of the adjusted second display area.

2. The method of claim 1, wherein the first display area corresponds to an acquisition area of an image acquisition device located below the display screen.

3. The method of claim 1, wherein the adjusting the display effect of the first display region of the display screen and the display effect of the second display region of the display screen based on the target brightness comprises:

responding to an adjustment to the first display region based on the target brightness based on a first response policy for the first display region;

responding to adjustment of the target brightness for the second display region based on a second response policy of the second display region, the first response policy being different from the second response policy.

4. The method of claim 3, wherein the first response policy includes at least one of:

if the target brightness is larger than a first brightness threshold value, controlling pixels of a first display area of the display screen to be in a non-lighting state;

and if the target brightness is greater than a second brightness threshold and smaller than the first brightness threshold, controlling the gray scale of the pixel in the first display area of the display screen to be reduced to a target gray scale.

5. The method of claim 3, wherein the first response policy includes at least one of:

if the target brightness is larger than a first brightness threshold value, controlling a first display area of the display screen to display black;

and if the target brightness is larger than a second brightness threshold and smaller than the first brightness threshold, controlling the resolution of the first display area of the display screen to be reduced to the target resolution.

6. The method of claim 4 or 5, wherein the second response policy comprises:

controlling the brightness of pixels in a second display area of the display screen to reach the target brightness according to the target brightness;

the first response policy further comprises:

and if the target brightness is smaller than the second brightness threshold value, controlling the brightness of the pixels in the first display area of the display screen to reach the target brightness.

7. The method of claim 5, wherein,

the target brightness is determined based on the ambient light brightness;

or the target brightness is determined based on the input operation of the user for the adjusting control.

8. An electronic device, comprising:

a display screen for displaying output content;

the processor is used for obtaining target brightness, and adjusting the display effect of a first display area of the display screen and the display effect of a second display area of the display screen based on the target brightness, wherein the first display area and the second display area belong to different parts of a display output area of the display screen, and the adjusted first display area and the adjusted second display area have different display effects.

9. The electronic device of claim 8, wherein the electronic device further comprises:

the image acquisition equipment is arranged below the display screen, and the first display area corresponds to the acquisition area of the image acquisition equipment.

10. The electronic device of claim 8, wherein the processor adjusts a display effect of a first display region of the display screen and a display effect of a second display region of the display screen based on the target brightness, comprising:

the processor responding to an adjustment to the first display region based on the target brightness based on a first response policy for the first display region; responding to adjustment of the target brightness for the second display region based on a second response policy of the second display region, the first response policy being different from the second response policy.

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