Disclosure of Invention
The embodiment of the invention provides a method for adjusting display parameters and electronic equipment, which are used for solving the technical problem that the mode of the electronic equipment for adjusting the display parameters of a plurality of areas is single.
In a first aspect, a method for adjusting display parameters is provided, including:
determining a first display parameter of a first area of the electronic device;
determining a second display parameter of a second area of the electronic equipment according to the first display parameter; wherein the first region and the second region are different regions;
and controlling the second area to be presented according to the second display parameter.
Optionally, the display parameters include one or more of brightness, display resolution, contrast, and color.
Optionally, the electronic device includes a display unit, and the first area and the second area are different display areas of the same display unit, or the first area and the second area are display areas of different display units, respectively.
Optionally, the first region is located on a first surface of the electronic device, the second region is located on a second surface of the electronic device, and the first surface and the second surface are different surfaces.
Optionally, the electronic device includes a first body and a second body, the first body and the second body are connected through a connecting piece, the first surface is located on the first body, and the second surface is located on the second body.
Optionally, one of the first area and the second area is a display area for displaying information, and the other is an input area for inputting information.
Optionally, the input area is correspondingly provided with a backlight source, and the brightness of the input area is adjusted by adjusting the brightness of the backlight source.
Optionally, the input area includes at least two sub-input areas, each of the at least two sub-input areas is provided with a key symbol mark, and a key symbol corresponding to a first sub-input area of the at least two sub-input areas is obtained by touching the first sub-input area.
Optionally, before controlling the second area to be presented according to the second display parameter, the method further includes:
determining that the input area is in an activation state to be input; or
Determining that the input area receives a predetermined number of input operations within a predetermined time period; or
Determining that the current brightness of the input area is not within a predetermined brightness range.
Optionally, determining a first display parameter of a first area of the electronic device includes:
obtaining a brightness adjustment instruction for the first area;
and adjusting the brightness of the first area to the first brightness according to the brightness adjusting instruction.
Optionally, determining a second display parameter of a second area of the electronic device according to the first display parameter includes:
and determining the second brightness of the second area according to the brightness difference value before and after the brightness adjustment of the first area.
Optionally, determining the second brightness of the second region according to the brightness difference before and after the brightness adjustment of the first region, includes:
adjusting the brightness of the second area by the brightness difference value to obtain the second brightness; or
And enhancing or weakening the brightness of the second area according to the positive and negative of the brightness difference value to obtain the second brightness.
In a second aspect, there is provided a first electronic device comprising:
a first region;
a second region;
a processor connected to the first region and the second region, respectively; a first display parameter for determining the first area; determining a second display parameter of the second area according to the first display parameter; and controlling the second area to be presented according to the second display parameter.
Optionally, the display parameter includes one or more of brightness, display resolution, contrast, and color.
Optionally, the electronic device further includes a display screen, and the first area and the second area are different display areas of the same display screen, or the first area and the second area are display areas of different display screens respectively.
Optionally, the electronic device is located on a first surface of the electronic device, the second region is located on a second surface of the electronic device, and the first surface and the second surface are different surfaces.
Optionally, the electronic device includes a first body and a second body, the first body and the second body are connected through a connecting piece, the first surface is located on the first body, and the second surface is located on the second body.
Optionally, one of the first area and the second area is a display area for displaying information, and the other is an input area for inputting information.
Optionally, the input area is correspondingly provided with a backlight source, and the brightness of the input area is adjusted by adjusting the brightness of the backlight source.
Optionally, the input area includes at least two sub-input areas, each sub-input area of the at least two sub-input areas is correspondingly provided with a key symbol mark, and the key symbol corresponding to the sub-input area is obtained by touching the sub-input area.
Optionally, the processor is further configured to:
before controlling the second area to be presented according to the second display parameter, determining that the input area is in an activated state to be input, or determining that the input area receives input operation for a preset number of times within a preset time period, or determining that the current brightness of the input area is not within a preset brightness range.
Optionally, the processor is configured to:
obtaining a brightness adjustment instruction for the first area;
and adjusting the brightness of the first area to a first brightness according to the brightness adjusting instruction.
Optionally, the processor is configured to:
and determining the second brightness of the second area according to the brightness difference value before and after the brightness adjustment of the first area.
Optionally, the processor is configured to:
adjusting the brightness of the second area by the brightness difference value to obtain the second brightness; or
And enhancing or weakening the brightness of the second area according to the positive and negative of the brightness difference value to obtain the second brightness.
In a third aspect, a second electronic device is provided, comprising:
the first determination module is used for determining a first display parameter of a first area of the electronic equipment;
the second determining module is used for determining second display parameters of a second area of the electronic equipment according to the first display parameters; wherein the first region and the second region are different regions;
a control module for controlling the second area to be presented according to the second display parameter
In the embodiment of the invention, the electronic device may first determine a first display parameter of a first area, then determine a second display parameter of a second area different from the first area according to the first display parameter, and then control the second area to be presented according to the determined second display parameter, that is, according to the scheme of the embodiment of the invention, the display parameter of the first area may be used as an adjustment reference to automatically adjust the display parameter of the second area, so that the display parameter of the second area may be adjusted following the display parameter of the first area, so as to realize the associated adjustment between the display parameter of the second area and the display parameter of the first area, thereby providing a new adjustment mode of the display parameter for the electronic device, that is, realizing the associated adjustment between the display parameters of a plurality of areas, and further providing a new selectable adjustment mode for a user, to enhance the user experience.
The second area can adjust the relevant display parameters according to the first area, and the user does not need to operate the two areas respectively to adjust the respective display parameters, so that the operation steps of the user can be omitted, and meanwhile, the intelligence of the electronic equipment can be enhanced to a certain extent due to the fact that the relevant adjustment of the display parameters can be achieved.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. The embodiments and features of the embodiments of the present invention may be arbitrarily combined with each other without conflict. Also, while a logical order is shown in the flow diagrams, in some cases, the steps shown or described may be performed in an order different than here.
In addition, the term "and/or" herein is only one kind of association relationship describing an associated object, and means that there may be three kinds of relationships, for example, a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" in this document generally indicates that the preceding and following related objects are in an "or" relationship unless otherwise specified.
In the embodiment of the present invention, the electronic device may include different electronic devices such as a mobile phone, a tablet computer (PAD), and a notebook computer, and the present invention is not limited to what electronic device is.
In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.
Referring to fig. 1, an embodiment of the invention provides a method for adjusting display parameters, which can be applied to the electronic device. The flow of the method is described below.
Step 101: a first display parameter of a first region of an electronic device is determined.
Step 102: and determining a second display parameter of a second area of the electronic equipment according to the first brightness.
The electronic device has a first area and a second area, and the first area and the second area are different areas, and both the first area and the second area have a display function, for example, a function of displaying an image, or only a function of displaying brightness, for a device capable of displaying an image, the display effect can be adjusted by different display parameters such as brightness, display resolution, contrast, color temperature, and color, for a device only having display brightness, the display effect can be adjusted by different display parameters such as brightness and color, and for the display parameter of brightness, the display brightness can be referred to, for example, the display brightness of a display screen, or the backlight brightness, for example, the backlight brightness of a backlight keyboard, and the like.
In the embodiment of the present invention, the first display parameter of the first region and the second display parameter of the second region may be the same type of parameter, or may also be different types of parameters, and specifically, the first display parameter of the first region and the second display parameter of the second region are determined, specifically, a value corresponding to the first display parameter is determined, and a value corresponding to the second display parameter is determined, for example, the brightness is determined to be 50, or, for example, the display resolution is determined to be 1440 × 900 pixels, and so on.
In practical cases, the first area and the second area may be presented in different forms for different types of electronic devices, and the different forms of the first area and the second area are exemplified below for the convenience of understanding of those skilled in the art.
The first case:
the electronic device comprises a display unit, and the first area and the second area are different display areas of the same display unit.
The electronic device may comprise one or more display screens, and the first area and the second area may be different display areas of the same display screen, and accordingly, display parameters of the same display screen may be adjusted in different areas. Through regional regulation to the display parameter of same display screen, when the display screen is great, can be so that the user that is located different positions all can have good visual experience because when the user is in different positions, watch visual angle and ambient light and all probably influence user's viewing effect, adjust the display parameter through regional division this moment, can promote user's viewing experience.
For example, the electronic device is a large-scale entertainment device, and referring to fig. 2, the electronic device includes an oval display screen, and the display screen is divided into a region 201, a region 202, and a region 203, so that the first region may be any one of the region 201, the region 202, and the region 203, and assuming that the first region is the region 201, the second region may be any one of the region 202 and the region 203, that is, the first region and the second region are different display regions of the display screen of the electronic device. Of course, in the implementation process, the display screen of the electronic device may also be rectangular or have another shape, and fig. 2 illustrates only an oval shape.
In addition, the division among the area 201, the area 202, and the area 203 may be seamless, that is, a connection gap between a plurality of areas cannot be seen by a user from the surface of the display screen, which may make the display screen more integrated and more beautiful, of course, a mark for identifying an area interval may also be provided on the outer surface of the display screen, that is, for fig. 2, a dotted mark for marking an area interval of the area 201, the area 202, and the area 203 may not exist in practice or may be replaced by other visible marks, and the present invention is not limited in particular.
Or for example, the electronic device is a large display screen in a market, or a display screen for advertising arranged on an outer wall of a building, and due to the large size of the display screen, the provided viewable viewing angles are more, for example, the viewing angles of the left half area and the right half area are different, or the viewing angles of the upper half area and the lower half area are different, and at the moment, the display parameters are adjusted by dividing the areas, so that users at different positions can be adjusted in a targeted manner, a better display effect is provided for the users, and the viewing experience of the users is improved.
For another example, some Virtual Reality (VR) display devices may include a display screen, and the display screen may be controlled in different areas. Or for the helmet-mounted glasses, for one of the lenses, the display of the lower half area can be adjusted according to the display of the upper half area, or the display of the right half area can be adjusted according to the display of the left half area, and so on.
The second case:
the electronic device includes a display unit, and the first region and the second region are display regions of different display units.
Some electronic devices may have multiple display screens, and different display screens may correspond to different users, or different display screens may be used to display different types of content, and so on.
Taking a dual-screen mobile phone as an example, please refer to fig. 3, where the left side of fig. 3 shows the front side of the dual-screen mobile phone, which includes a main display, and the right side shows the back side of the dual-screen mobile phone, which includes a sub-display, for example, the display area of either the main display or the sub-display can be regarded as a first area, and the display area of the other display can be regarded as a second area.
In the double-sided mobile phone, the main display screen is used for conventional display, which is different from the current general mobile phone, for example, the main display screen can be used for watching video, playing games, browsing web pages, and the like, the auxiliary display screen can be an electronic ink screen, the size of which can be slightly smaller than that of the main display screen, so that enough accommodating areas can be left for the camera and the flash lamp on the back surface, the electronic ink screen is used for displaying images in black, white and grey, the display mode has lower power consumption and is very suitable for reading, and is very suitable for users who like to read on line through an electronic book.
In the embodiment of the present invention, for example, the brightness of the secondary display screen may be correspondingly controlled through the brightness of the primary display screen, for example, when it is detected that the brightness of the primary display screen is increased, it indicates that the user is using the primary display screen, and at this time, the possibility of using the secondary display screen is low, and in order to save the power as much as possible, for example, the brightness of the secondary display screen may be turned down, and so on.
For another example, taking the electronic device as an intelligent bracelet as an example, please refer to fig. 4, the intelligent bracelet may include two parts, namely a display screen and a wrist strap, where the display screen may display an image, and the wrist strap part may also display different colors, for example, the color may change according to temperature, or the color may change according to illumination intensity, or the color may change according to adjustment of a user, and so on.
For another example, for the helmet-mounted glasses in the first case, one of the left and right lenses may be regarded as the first area, and the other may be regarded as the second area.
In the second case, optionally, the first region is located on a first surface of the electronic device, the second region is located on a second surface of the electronic device, and the first surface and the second surface are different surfaces. For example, the electronic device is a notebook computer, which may have four surfaces, i.e., a front surface and a back surface of the display screen, a keyboard input surface and a bottom surface opposite to the keyboard input surface, and then the first surface and the second surface may be any two surfaces of the four surfaces. The keyboard input surface can be generally referred to as a C surface of a notebook computer, and the C surface is generally used for inputting information, for example, the C surface is provided with a key keyboard or a touch keyboard, and information is input through the key keyboard or the touch keyboard.
Specifically, the electronic device may have a first body and a second body, the first body and the second body are connected by a connecting member, the first surface is located on the first body, the second surface is located on the second body, the display unit may be disposed in the first surface, and the touch input unit may be disposed in the second surface. Taking the electronic device as a notebook computer as an example, please refer to fig. 5A, a flip cover of the notebook computer, a main body for accommodating components such as a processor and a battery, and a connecting component 501 for connecting the flip cover and the main body can be respectively understood as a first body, a second body and a connecting component of the electronic device, meanwhile, a Plane (i.e., an area 502) of the notebook computer can be understood as a first surface, a C-Plane (i.e., an area 503) can be understood as a second surface, the Plane includes a display screen, and the C-Plane includes a touch input unit. The Plane surface can be regarded as a first area and the C surface as a second area, i.e. the first area is a display area for displaying information and the second area is an input area for inputting information, or the C surface can be regarded as a first area and the Plane surface as a second area, i.e. the first area is an input area for inputting information and the second area is a display area for displaying information.
In practice, the C side of the notebook computer can be provided with the key-press keyboard, the user can input corresponding information by knocking the keys of the key-press keyboard, or the C side can be integrated with the touch keyboard, at the moment, the C side can be integrally set as a touch panel, for example, the C side can be integrally made into a whole piece of glass, so that the physical space occupied by the raised physical keyboard can be saved, the thickness of the whole electronic equipment can be reduced, the weight of the whole electronic equipment is reduced, the notebook computer is convenient for the user to carry, and information can be input by touch operation on the touch keyboard.
In addition, when the C-side is provided with a touch keyboard, a key symbol mark, such as that shown in fig. 5A, A, B, C or the like, may be provided on the C-side, such as a screen printing, laser or paste type key symbol mark, when the input area corresponding to the C-plane is regarded as the second area, the input corresponding to each key symbol mark can be regarded as one sub-input area, that is, the second area may include a plurality of sub-input areas, and by touching a first sub-input area of the plurality of sub-input areas, a key corresponding to the first sub-area, which may be any one of a plurality of sub-input areas, for example, when the user touches the sub-input region corresponding to the key symbol mark a, the key symbol corresponding to the key symbol mark a may be input to the electronic device, that is, a may be input.
In addition, the C-surface may be entirely provided as a touch keyboard, that is, the entire C-surface is used as a touch keyboard, for example, as shown in fig. 5A, and the entire area of the C-surface is used as an input area of the touch keyboard. In practice, the C surface may also be partially set as a touch keyboard, and other parts may be set for other purposes, for example, as shown in fig. 5B, in the C surface, the area 504 is set as an area where the touch keyboard is located, and the area 505 may be set as a gesture input area, i.e., a user may perform various gestures in the area to obtain different execution instructions, for example, controlling the display page to scroll downward through a gesture of sliding downward, and the like, and the area 506 may be set as an electromagnetic input area, for which information input may be performed by a stylus pen based on the principle of electromagnetic induction, for example, original handwriting input of a user signature may be performed, or drawing input may be performed, and the like. Of course, the C-plane may be divided into more regions, and the function of each region is not limited, which is not necessarily illustrated here.
In addition, the display screen of the notebook computer shown in fig. 5A can be rotated by 360 degrees, that is, the included angle between the C-plane and the Place plane can be 0 to 360 degrees. A rotatable component can be arranged at the joint of the C surface and the Plane surface, for example, other rotatable components such as a rotating shaft or a metal hinge can be arranged to support the display screen to rotate relative to the C surface in a multi-angle mode, and therefore the notebook computer can have a posture. When the C surface and the Plane surface are closely attached, the included angle between the C surface and the Plane surface is considered to be 0 degree, and when the notebook computer is in a standby state or is turned off, the posture can be adopted, for example, as shown in fig. 5A, at this time, an acute angle is formed between the C surface and the Plane surface, so that information can be input through an input keyboard of the C surface, as shown in fig. 5C, at this time, the included angle between the C surface and the Plane surface is, for example, about 300 degrees, and in this posture, a user can watch a video or read a novel, for example, in this posture, the user can conveniently watch the content displayed on the display screen. When the angle between the C surface and the Plane surface is 360 degrees, the opposite surface (namely the bottom surface) of the C surface is considered to be tightly attached to the back surface of the display screen, and the notebook computer is in a PAD mode at the moment, so that a user can conveniently hold the notebook computer at will to perform various operations.
In the embodiment of the present invention, the first region and the second region may have a luminance display regardless of the specific expression form of the first region and the second region. For example, when the first area is a display area, the first area may have display brightness, and when the second area is an input area, for example, a touch keyboard area, the second area may be provided with a backlight source, and the backlight brightness of the touch keyboard area is changed by controlling the brightness of the backlight source, that is, the brightness in the embodiment of the present invention may refer to the display brightness or the backlight brightness, or may refer to other brightness expression forms, which is not limited in the present invention.
At a specific time, both the first area and the second area have display parameters and have corresponding values, and the electronic device may detect the values of the current display parameters of the respective areas, respectively, for example, in an embodiment of the present invention, the determined current display parameter of the first area is the first display parameter, and for example, the first display parameter is the first brightness.
In the implementation process, the values of the display parameters of the first region and the second region are both adjustable, and since the brightness is a display parameter that is often adjusted in practical situations, the embodiment of the present invention is described by taking the display parameter as the brightness.
The first display parameter of the first area is the first brightness of the first area, and the first brightness may be brightness obtained after adjustment, that is, when the first brightness of the first area is determined, a brightness adjustment instruction for the first area may be obtained first, and then the brightness of the first area is adjusted to the first brightness according to the brightness adjustment instruction, for example, the brightness of the first area before adjustment is 30, and the brightness after adjustment is 50, then 50 may be regarded as the first brightness.
In a specific implementation process, the brightness adjustment of the first area can be adjusted in a manual or automatic adjusting mode.
For the manual adjustment mode, that is, the manual adjustment is performed by the manual operation of the user, for example, by rotating the brightness adjustment button or dragging the brightness display bar with the mouse, and the like, since the manual adjustment is the purposeful adjustment of the user, the actual requirement of the user can be met to a greater extent by the manual adjustment mode.
For the automatic adjustment mode, for example, the electronic device can acquire the intensity of ambient light through the sensor, and then realize the automatic adjustment of the brightness according to the acquired intensity of the ambient light, so that the brightness of the first area can be adapted to the brightness of the ambient light, and the electric quantity consumed by over-bright display can be saved as much as possible on the basis of meeting the watching requirements of the user. Or, the user may also preset the time when the brightness is adjusted and the brightness that needs to be adjusted, for example, in terms of a day cycle, the display brightness in the morning may be set to 60, the brightness in the midday time period may be set to 80, and the brightness in the evening time period may be set to 45, etc., so that the brightness may be automatically adjusted along with the change of the day time, and the operation of manual adjustment by the user is omitted.
After determining the first brightness of the first region, the brightness of the second region may be further adjusted according to the first brightness, and it is first necessary to determine the brightness of the second region, for example, referred to as a second brightness.
The first method comprises the following steps: the second luminance of the second region is determined to be the same as the luminance of the first region, i.e., when the second luminance is the same as the first luminance.
For example, when the first region and the second region are both display regions, if the user adjusts the luminance of the first region to the first luminance by way of manual adjustment, then to omit the step of manually adjusting the luminance of the second region by the user, the luminance of the second region may be directly determined to be the first luminance, that is, the second luminance and the first luminance are the same, so that the second region can also timely meet the viewing requirements of the user, and the luminance of the second region is adjusted by way of automatic following adjustment, so that the luminance adjustment for the second region can be performed quickly, and the rate of luminance adjustment is increased.
In a specific implementation process, it may also be determined that the first region is subjected to brightness adjustment in an automatic adjustment manner or a manual adjustment manner to obtain the first brightness, for example, the brightness of the second region may be adjusted only when it is determined that the first brightness is obtained in the manual adjustment manner, because the manual adjustment manner may greatly meet the current actual viewing requirement of the user, the brightness of the second region may be adjusted at this time, so that the brightness difference between the two regions is as small as possible.
Alternatively, the brightness of the second region may be adjusted in a follow-up manner only when it is determined that the first brightness is obtained by means of automatic adjustment, since the objective requirement for brightness adjustment is indicated when the automatic adjustment is performed, and in order to avoid additional user operations, the brightness adjustment may be automatically adjusted according to the brightness adjustment of the first region.
And the second method comprises the following steps: and determining second brightness according to the brightness difference value before and after the brightness adjustment of the first area. The brightness of the second area is determined according to the brightness difference value before and after the brightness of the first area is adjusted, so that the change trend of the brightness of the second area is consistent with the change trend of the brightness of the first area as much as possible, the actual requirements of users are met, and the follow-up adjustment of the brightness of the second area can be accurate and efficient as much as possible.
For example, the brightness of the first region before brightness adjustment is 70, the brightness after brightness adjustment is 50, that is, the difference between the brightness of the first region before and after brightness adjustment is 20, that is, the brightness is decreased by 20, the brightness of the second region may be directly decreased by 20, and assuming that the brightness of the second region before brightness adjustment is 80, the second brightness may be determined to be 60, that is, the brightness of the second region is directly adjusted by the brightness difference to obtain the second brightness, and the brightness change trend of the second region may be made to coincide with the brightness change trend of the first region by directly adjusting the brightness difference.
Or, for example, the brightness of the second region may be increased or decreased according to the positive or negative of the brightness difference to obtain the second brightness. Continuing with the above example, the brightness difference obtained by the first area being adjusted is 20, since 20 is a positive number, i.e. it indicates that the brightness is decreased, since the first area and the second area are generally intended for the same user, on the basis of the brightness decrease of the first area, the brightness of the second area may also be decreased, specifically, by linearly decreasing (or linearly increasing) the brightness, for example, the brightness of the second area before being adjusted is 80, then the linearly decreasing may be multiplied by a constant between the ranges of (0, 1), such as 0.5 or 0.4, and by linearly increasing or decreasing, the brightness may be adjusted relatively softly and smoothly, while avoiding abrupt changes in brightness to affect the user's view or vision, so that the user does not adapt well in a short time, and at the same time, damage to hardware devices due to excessively large abrupt changes may be avoided as much as possible, for example, damage to the backlight or malfunction of the luminance display circuit can be avoided.
The above is merely illustrated in two ways of determining the second brightness of the second region according to the first brightness of the first region, but the present invention includes but is not limited to the above two ways of determining, which are not necessarily illustrated herein, and all ways of determining the second brightness of the second region according to the first brightness of the first region are within the scope of the present invention.
In addition, in a specific implementation process, types of the first display parameter and the second display parameter may also be different, for example, a color of the second region may be adjusted according to a display brightness of the first region, taking the notebook computer including the touch keyboard as an example, after the brightness of the display screen is increased, the color of the backlight of the touch keyboard may be controlled to be gradually deepened, for example, in a process that the brightness of the display screen is increased from 30 to 70, the color of the backlight of the touch keyboard may be gradually changed from micro-blue to light-blue to deep-blue, and the like, and the gradual increase of the brightness of the display screen is compared with the increase of the color of the backlight, so that a user may be visually prompted, and meanwhile, the backlight effect of the touch keyboard may be more cool, and visibility may be enhanced.
Step 103: and controlling the second area to be presented according to the second display parameter.
After determining the second display parameter of the second area according to the first display parameter of the first area, the electronic device may control the second area to be presented according to the second display parameter, and continue to take the display parameter as brightness, that is, adjust the current brightness of the second area to the second brightness, control the second area to be presented at the second brightness, for example, the display screen may be displayed at the second brightness, or, for example, adjust the backlight brightness of the touch keyboard to the second brightness, and so on.
In addition, when the second area is an input area, for example, when the second area is the touch keyboard, in order to make the brightness adjustment of the input area as accurate as possible so that the adjustment is effective or as much as possible meets the actual requirements of the user, before the input area is controlled to be presented according to the second brightness, whether the necessity of the brightness adjustment of the input area exists may be determined in some manner. For example:
whether the input area is in an activated state to be input or not can be judged firstly, for example, when the input area is a touch keyboard or a key keyboard, whether the touch keyboard or the key keyboard is in the activated state or not can be judged, when the input area is in the activated state, the requirement of input of a user is indicated, namely, the user is likely to use the touch keyboard or the key keyboard, then, the brightness of the input area is adjusted along with the brightness, the actual requirement of the user can be met as much as possible, and invalid adjustment is avoided as much as possible.
Or, it may be determined whether the input area receives the input operation for the predetermined number of times within the predetermined time duration, for example, when the user inputs information through the touch keyboard, the touch keyboard may be activated by touching the touch keyboard for several times at will, so as to avoid that the user may set the predetermined time duration and the predetermined number of times by mistake, for example, touching the touch keyboard for 3 times in 2 seconds, which may also increase the effectiveness of brightness adjustment.
Still alternatively, a predetermined brightness range may be set for the input area in advance, for example, indoors, when the backlight brightness of the touch keyboard is in the range of [35, 55], the user can see the key symbol mark clearly and save the power as much as possible, and if the current brightness of the input area is in the range, the requirement of visibility and low power consumption can be met without adjustment, so that the brightness of the input area does not need to be adjusted at this time, and only when it is detected that the current brightness of the input area is not in the range, the following adjustment is performed to improve the effectiveness of brightness adjustment and save the ineffective operation as much as possible.
The above three cases are exemplified to judge the effectiveness of the adjustment of the display parameters, and of course, there may be other ways to judge, and this is not an exhaustive list, and those skilled in the art may obtain other possible judging ways by appropriate modifications, and all shall be within the scope of the present invention.
In the embodiment of the invention, the electronic device may first determine a first display parameter of a first area, then determine a second display parameter of a second area different from the first area according to the first display parameter, and then control the second area to be presented according to the determined second display parameter, that is, according to the scheme of the embodiment of the invention, the display parameter of the first area may be used as an adjustment reference to automatically adjust the display parameter of the second area, so that the display parameter of the second area may be adjusted following the display parameter of the first area, so as to realize the associated adjustment between the display parameter of the second area and the display parameter of the first area, thereby providing a new adjustment mode of the display parameter for the electronic device, that is, realizing the associated adjustment between the display parameters of a plurality of areas, and further providing a new selectable adjustment mode for a user, to enhance the user experience.
The second area can adjust the relevant display parameters according to the first area, and the user does not need to operate the two areas respectively to adjust the respective display parameters, so that the operation steps of the user can be omitted, and meanwhile, the intelligence of the electronic equipment can be enhanced to a certain extent due to the fact that the relevant adjustment of the display parameters can be achieved.
Referring to fig. 6, based on the same inventive concept, an embodiment of the present invention provides a first electronic device, where the electronic device includes:
a first region 601;
a second region 602;
a processor 603 connected to the first area 601 and the second area 602, respectively; for determining a first display parameter of the first area 601; determining a second display parameter of the second area 602 according to the first display parameter; and controls the second region 602 to be presented according to the second display parameter.
For example, one of the first area 601 and the second area 602 may be a display area, and the other may be an input area.
The processor 603 may specifically be a general purpose Central Processing Unit (CPU), or may be an Application Specific Integrated Circuit (ASIC), or may be one or more Integrated circuits for controlling program execution.
The processor 603 is electrically connected to the first area 601 and the second area 602 through a connection line, and the connection line has a function of signal transmission, and is used for determining a first display parameter of the first area 601 and a second display parameter of the second area 602 and controlling the second area 602 to be displayed with the second display parameter.
In a specific implementation, the processor 603 may be disposed inside the second region 602, i.e., the processor 603 is not visible to a user from the surface, and the processor 603 is illustrated in fig. 6 for ease of understanding by the user.
Further, the electronic device may further include a memory, and the number of the memories may be one or more. The Memory may include Read Only Memory (ROM), Random Access Memory (RAM), or disk Memory.
Optionally, the electronic device further comprises a display screen, which may comprise one or more display screens. The first area 601 and the second area 602 may be different display areas of the same display screen, or the first area 601 and the second area 602 may also be display areas of different display screens, for example, the first area 601 is a display area of a first display screen, and the second area 602 is a display area of a second display screen.
The display screen may include, for example, a Light Emitting Diode (LED) display screen, an Organic Light Emitting Diode (OLED) display screen, an Active Matrix Organic Light Emitting Diode (AMOLED) display screen, an In-plane switching (IPS) display screen, and the like. The display screen may comprise a variety of shapes, such as rectangular, rectangular-like, or oval, among others.
Optionally, the display parameters include one or more of brightness, display resolution, contrast, and color.
Optionally, the first region 601 is located on a first surface of the electronic device, the second region 602 is located on a second surface of the electronic device, and the first surface and the second surface are different surfaces.
Optionally, the electronic device includes a first body and a second body, the first body and the second body are connected through a connecting piece, the first surface is located on the first body, and the second surface is located on the second body.
Alternatively, one of the first area 601 and the second area 602 is a display area for displaying information, and the other is an input area for inputting information.
Optionally, the input area is correspondingly provided with a backlight source, and the brightness of the input area is adjusted by adjusting the brightness of the backlight source.
Optionally, the input area includes at least two sub-input areas, each of the at least two sub-input areas is provided with a key symbol mark, and a key symbol corresponding to a first sub-input area is obtained by touching the first sub-input area of the at least two sub-input areas.
Optionally, the processor 603 is configured to:
obtaining a brightness adjustment instruction for the first region 601;
according to the brightness adjusting instruction, the brightness of the first region 601 is adjusted to the first brightness.
Optionally, the processor 603 is configured to:
the second luminance is determined based on the luminance difference before and after the luminance adjustment of the first region 601.
Optionally, the processor 603 is configured to:
adjusting the brightness of the second region 602 by the brightness difference to obtain a second brightness; or
The brightness of the second region 602 is increased or decreased according to the positive or negative of the brightness difference, and the second brightness is obtained.
Optionally, the processor 603 is further configured to:
before the control input area is presented according to the second display parameter, determining that the input area is in an activated state to be input, or determining that the input area receives input operation for a preset time within a preset time length, or determining that the current brightness of the input area is not within a preset brightness range.
Since the electronic device in the embodiment of the present invention is similar to the principle of the method for adjusting display parameters in fig. 1 to solve the problem, the implementation of the electronic device in the embodiment of the present invention may refer to the implementation of the method for adjusting display parameters in fig. 1, and details are not described here.
Referring to fig. 7, based on the same inventive concept, an embodiment of the present invention further provides a second electronic device, which includes a first determining module 701, a second determining module 702, and a control module 703. Moreover, the first determining module 701, the second determining module 702 and the control module 703 in the embodiment of the present invention may implement the relevant functional units through a hardware processor. Wherein,
a first determining module 701, configured to determine a first display parameter of a first area of an electronic device;
a second determining module 702, configured to determine a second display parameter of a second area of the electronic device according to the first display parameter; wherein the first region and the second region are different regions;
and a control module 703, configured to control the second area to be presented according to the second display parameter.
Optionally, the display parameters include one or more of brightness, display resolution, contrast, and color.
Optionally, the electronic device includes a display unit, and the first area and the second area are different display areas of the same display unit, or the first area and the second area are respectively display areas of different display units.
Optionally, the first region is located on a first surface of the electronic device, the second region is located on a second surface of the electronic device, and the first surface and the second surface are different surfaces.
The electronic equipment comprises a first body and a second body, wherein the first body and the second body are connected through a connecting piece, a first surface is located on the first body, and a second surface is located on the second body.
Optionally, one of the first area and the second area is a display area for displaying information, and the other is an input area for inputting information.
Optionally, the input area is correspondingly provided with a backlight source, and the brightness of the input area is adjusted by adjusting the brightness of the backlight source.
Optionally, the input area includes at least two sub-input areas, each of the at least two sub-input areas is provided with a key symbol mark, and a key symbol corresponding to a first sub-input area is obtained by touching the first sub-input area of the at least two sub-input areas.
Optionally, the first determining module 701 is configured to:
obtaining a brightness adjusting instruction aiming at the first area;
and adjusting the brightness of the first area to a first brightness according to the brightness adjusting instruction.
Optionally, the second determining module 702 is configured to:
and determining second brightness according to the brightness difference value before and after the brightness adjustment of the first area.
Optionally, the second determining module 702 is configured to:
adjusting the brightness of the second area to a brightness difference value to obtain second brightness; or
And enhancing or weakening the brightness of the second area according to the positive and negative of the brightness difference value to obtain second brightness.
Optionally, the electronic device further includes a third determining module, configured to:
before the control module 703 is configured to control the second area to be presented according to the second display parameter, it is determined that the input area is in an activated state to be input, or it is determined that the input area has received a predetermined number of input operations within a predetermined time period, or it is determined that the current brightness of the input area is not within a predetermined brightness range.
Since the electronic device in the embodiment of the present invention is similar to the principle of the method for adjusting display parameters in fig. 1 to solve the problem, the implementation of the electronic device in the embodiment of the present invention may refer to the implementation of the method for adjusting display parameters in fig. 1, and details are not described here.
It will be clear to those skilled in the art that, for convenience and simplicity of description, the foregoing division of the functional modules is merely used as an example, and in practical applications, the above function distribution may be performed by different functional units according to needs, that is, the internal structure of the device is divided into different functional units to perform all or part of the above described functions. For the specific working processes of the system, the apparatus and the unit described above, reference may be made to the corresponding processes in the foregoing method embodiments, and details are not described here again.
In the embodiments provided in the present invention, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the modules or units is only one logical division, and there may be other divisions when actually implemented, for example, a plurality of units or components may be combined or may be integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.
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 units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.
In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.
The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes several instructions for causing a computer device (which may be a personal computer, a server, a network device, or the like) or a processor (processor) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a ROM (Read-Only Memory), a RAM (Random Access Memory), a magnetic disk, or an optical disk.
Specifically, computer program instructions corresponding to a method for adjusting display parameters in the embodiments of the present invention may be stored on a storage medium such as an optical disc, a hard disc, a usb disk, or the like, and when the computer program instructions corresponding to the method for adjusting display parameters in the storage medium are read or executed by an electronic device, the method includes the following steps:
determining a first display parameter of a first area of the electronic device;
determining a second display parameter of a second area of the electronic equipment according to the first brightness; wherein the first region and the second region are different regions;
and controlling the second area to be presented according to the second display parameter.
Optionally, the display parameters include one or more of brightness, display resolution, contrast, and color.
Optionally, the electronic device includes a display unit, and the first area and the second area are different display areas of the same display unit, or the first area and the second area are respectively display areas of different display units.
Optionally, the first region is located on a first surface of the electronic device, the second region is located on a second surface of the electronic device, and the first surface and the second surface are different surfaces.
Optionally, the electronic device includes a first body and a second body, the first body and the second body are connected through a connecting piece, the first surface is located on the first body, and the second surface is located on the second body.
Optionally, one of the first area and the second area is a display area for displaying information, and the other is an input area for inputting information.
Optionally, the input area is correspondingly provided with a backlight source, and the brightness of the input area is adjusted by adjusting the brightness of the backlight source.
Optionally, the input area includes at least two sub-input areas, each sub-input area of the at least two sub-input areas is provided with a key symbol mark, and a key symbol corresponding to a first sub-input area of the at least two sub-input areas is obtained by touching the first sub-input area.
Optionally, the step of storing in the storage medium: determining a first display parameter of a first area of an electronic device, corresponding computer instructions, in a process of being executed, comprising:
obtaining a brightness adjusting instruction aiming at the first area;
and adjusting the brightness of the first area to a first brightness according to the brightness adjusting instruction.
Optionally, the step of storing in the storage medium: determining a second display parameter of a second area of the electronic device according to the first display parameter, wherein the corresponding computer instructions comprise:
and determining the second brightness of the second area according to the brightness difference value before and after the brightness adjustment of the first area.
Optionally, the step of storing in the storage medium: determining a second brightness of the second area according to the brightness difference value before and after the brightness adjustment of the first area, wherein the corresponding computer instruction comprises the following steps:
adjusting the brightness of the second area to a brightness difference value to obtain second brightness; or
And enhancing or weakening the brightness of the second area according to the positive and negative of the brightness difference value to obtain second brightness.
Optionally, the step of storing in the storage medium: controlling the second region to be presented according to the second display parameter, wherein the corresponding computer instructions, before being executed, further comprise:
determining that the input area is in an activation state to be input; or
Determining that the input area receives input operations for a predetermined number of times within a predetermined time period; or
It is determined that the current brightness of the input area is not within the predetermined brightness range.
The above embodiments are only used to describe the technical solutions of the present invention in detail, but the above embodiments are only used to help understanding the method and the core idea of the present invention, and should not be construed as limiting the present invention. Those skilled in the art should also appreciate that they can easily conceive of various changes and substitutions within the technical scope of the present disclosure.