WO2015070612A1 - Terminal display control method and terminal - Google Patents

Abstract

Provided are a terminal display control method and terminal, the terminal comprising a self-luminous screen, the terminal display control method comprising: detecting whether the terminal satisfies a power saving condition; if yes, then controlling the self-luminous screen to display a current interface in a low power consumption color. The present invention does not require a user to turn off terminal applications, thus ensuring good user experience of using the terminal while lowering the terminal power consumption, solving the problem in the relevant art of poor user experience resulting from turning off terminal applications to extend the terminal life.

Description

TECHNICAL FIELD The present invention relates to the field of terminal applications, and in particular, to a terminal display control method and terminal for controlling a terminal display screen. BACKGROUND With the development of technology, smart mobile devices (such as smart phones) have more and more functions, their screens are becoming larger, and users are increasingly relying on mobile phones. However, the battery life of the mobile phone is closely related to the battery power. In the case that the battery power of the mobile phone does not change much, the battery life will be shorter and shorter as the mobile phone is powerful. In some cases, it may be less than one day. When the mobile phone is running out of power and is inconvenient to charge, but there are important calls to wait for, or need to contact others, the lack of endurance will seriously affect the user experience. In the related art, the user is selected to close some terminal application services (such as WIFI, positioning, etc.) to extend the mobile phone's battery life. Although these methods can extend the mobile phone's battery life, it is also damaged to some extent. User experience. Therefore, how to provide a terminal power supply method for extending the terminal life of a terminal without shutting down the terminal application is a technical problem to be solved by those skilled in the art. SUMMARY OF THE INVENTION The present invention provides a terminal display control method and a terminal, which solves the problem that the related art has a poor user experience caused by extending the terminal end time by extending the terminal application. The present invention provides a terminal display control method. In one embodiment, the terminal includes a self-illuminating screen, and the terminal display control method includes: detecting whether the terminal meets a power saving condition; if yes, controlling the self-illuminating screen to display in a low power consumption color Current interface. Preferably, the low power consumption color in the above embodiment includes black; controlling the self-luminous screen to display the current interface in a low power consumption color includes: the background area in the current interface is displayed in black. Preferably, in the above embodiment, if the current interface includes text, controlling the self-luminous screen to display the current interface in a low power consumption color comprises: displaying the text in the current interface in a non-black low power color. Preferably, in the foregoing embodiment, if the current interface includes a picture, controlling the self-luminous screen to display the current interface in a low power consumption color comprises: determining whether a low power consumption display process is required on the picture area; if yes, in the current interface The picture is displayed in non-black low-power colors with different color parameters. Preferably, the color parameter in the above embodiment includes at least one of brightness, saturation, and color color values. Preferably, the power saving condition in the foregoing embodiment includes that the remaining power of the terminal is less than a preset value; and detecting whether the terminal meets the power saving condition comprises: detecting the remaining power of the terminal, and determining whether the remaining power is less than a preset value. The present invention provides a terminal. In one embodiment, the terminal includes a self-illuminating screen, a detecting module, and a control module. The detecting module is configured to detect whether the terminal meets a power saving condition, and if so, trigger a control module; It is set to control the self-illumination screen to display the current interface in low-power color when triggered by the detected module; the self-illumination screen is set to display the current interface under the control of the control module. Preferably, the self-illuminating screen in the above embodiment is an active matrix organic light emitting diode panel. Advantageous Effects of the Invention: The terminal display control method and terminal provided by the present invention detect whether a terminal satisfies a power saving condition, and when detecting that the terminal satisfies a power saving condition, the self-illuminating screen of the control terminal displays the terminal in a low power consumption color. The current interface, because the invention does not require the user to choose to close the terminal application, therefore, the invention reduces the power consumption of the terminal while ensuring the use experience of the terminal user, and solves the related technology to extend the terminal life time by closing the terminal application. The resulting user experience is poor. 1 is a schematic diagram of a terminal display control method according to a first embodiment of the present invention; FIG. 2 is a schematic diagram of a terminal according to a second embodiment of the present invention; FIG. FIG. 4 is a schematic diagram of a display interface when the terminal display control method is not executed according to the third embodiment of the present invention; FIG. 4b is a first display interface after the S304 display control method is executed according to the third embodiment of the present invention; FIG. 4 is a second schematic diagram of a display interface after the S304 is displayed in the terminal display control method according to the third embodiment of the present invention. DETAILED DESCRIPTION OF THE INVENTION The present invention will now be further illustrated by the following detailed description in conjunction with the accompanying drawings. The invention is mainly applied to a terminal device having a self-illuminating screen, and controls the display of the self-illuminating screen, thereby achieving the effect of reducing power consumption. Self-illuminating screens, also known as second-generation display screens, such as AMOLED (Active Matrix/Organic Light Emitting Diode), are different from the currently used backlight screens in that they are The pixel is self-illuminated to display the pixel itself, so that it does not need a backlight, and thus has the power consumption of controlling the self-illuminating screen by adjusting the display effect of the current interface of the self-illuminating screen. In the self-illuminating screen, each pixel is illuminated by red, green and blue independent luminescent materials, and the ratio of the three colors is adjusted according to the principle of chromatogram formation to achieve the effect of displaying different colors, when displaying different colors, The brightness of the hair is different, and the power consumption is different. When the black color is displayed, the pixel does not emit any light, and the power is not consumed substantially. When the white color is emitted, the red, green, and blue colors are white. Therefore, the power consumption is the largest, and the power consumption of the screen of the conventional TFT (Thin Film Transistor, a thin film field effect transistor) is used. When the end user uses it, the white background is often used as the background area of the current interface. The color causes a large amount of electric energy to be consumed by the self-illuminating screen. If the illuminating color of the background area of the current interface can be changed, the power saving effect can be achieved to a certain extent, and the embodiment of the present invention replaces the low power consumption color. In the current mainstream terminal, the illuminating color of different areas of the self-illuminating screen reaches the power saving effect, and the present invention is now convenient for understanding. The definition of "low-power color" in the embodiment is as follows: Calculated according to the amount of power consumed by the pixel point illumination in the self-illuminating screen, if the pixel point is monochromatic red light (color color value, brightness, saturation is maximum) When the amount of power consumed is 0.5 units, the amount of power consumed when green light (color color value, brightness, and saturation is maximum) is 0.3 units, and the amount of light consumed when blue light (color color value, brightness, saturation is maximum) For 0.2 units, the amount of power consumed when white light is emitted (color color value, brightness, saturation is maximum) is 1 unit, and the amount of power consumed when black light (no light) is emitted is 0 units, dark gray (color color) When the value, brightness, and saturation are minimum, the amount of electricity consumed is 0.1 units, other colors (such as mixed colors, such as yellow mixed with red and blue, etc., when the color value, brightness, and saturation in monochrome are not maximum) The power consumption of the color) is also less than 1 unit. Then, in order to highlight the power saving effect of the embodiment of the present invention, the low power consumption color referred to in the present invention refers to all the illuminating colors whose power consumption is less than 1 unit, that is, all colors except white light are discharged, and preferably, may include only The power consumed by the pixels is less than 0.5 units of all colors, of which black, gray and monochrome are the best, because black is the most energy-efficient, monochromatic light display effect, of course, in practical applications, it can also be based on The embodiment of the present invention does not limit the low-power color, such as yellow, purple, and the like. On this basis, the "non-black low-power color" referred to in the embodiment of the present invention refers to one or more of all "low-power colors" except black. 1 is a schematic diagram of a terminal display control method according to a first embodiment of the present invention. As shown in FIG. 1, the terminal display control method provided in this embodiment includes the following steps: S101: Acquire an operating state of the terminal; The state can be obtained in real time or periodically. Because the terminal also detects its running state during normal operation, this step does not cause too much extra power consumption.

S102: Detecting and determining whether the terminal meets the power saving condition; if yes, executing step S103; if not, returning to step S101;

S103: Control the self-illumination screen to display the current interface in low-power color. Preferably, the low-power color in the embodiment shown in FIG. 1 includes black; controlling the self-illuminating screen to display the current interface in low-power color includes: controlling the self-illuminating screen to display the background area in the current interface in black, ie, current The background area in the interface is shown in black. Preferably, in the embodiment shown in FIG. 1, if the current interface includes text, controlling the self-illuminating screen to display the current interface in a low power consumption color further comprises: controlling the self-illuminating screen to have a non-black low-power color (eg, deep) Gray, or low-brightness monochrome) Displays the text in the current interface, ie, the text in the current interface is displayed in a non-black low-power color. Preferably, in the embodiment shown in FIG. 1 , if the current interface includes a picture, controlling the self-luminous screen to display the current interface in a low power consumption color further includes: determining whether a low power consumption display process is required on the picture area; , the non-black low-power color (such as dark gray, or low-brightness monochrome) that controls the self-illuminating screen with different color parameters displays the picture in the current interface, that is, the non-black color of the text in the current interface with different color parameters. Low-power color display; if not required, display in the original color of the picture. Preferably, the color parameter in the embodiment shown in FIG. 1 includes at least one of brightness, saturation, and color color values. Of course, the color parameter can also include other parameters that can distinguish excellent differences. Preferably, the power saving condition in the embodiment shown in FIG. 1 includes that the remaining power of the terminal is less than a preset value; and detecting whether the terminal meets the power saving condition specific package: detecting the remaining power of the terminal, and determining whether the remaining power is less than a preset value. In other embodiments of the present invention, the power saving condition may also be that the terminal is always in the power saving mode. Then, correspondingly, the S101 in the embodiment shown in FIG. 1 may be omitted, because the operation status of the terminal at this time is Whether the terminal Correspondingly, the power saving process has no effect; correspondingly, in other embodiments of the present invention, the power saving condition may also be whether the power consumption value consumed by the terminal in a unit time is greater than a threshold, such as the terminal consumes 100 per hour during normal use. The power of the unit, if it detects that the terminal consumes 500 units of electricity per hour, which is greater than 200 units/hour (which can be set by itself), then the control terminal will perform the power saving mode to reduce the power. The color is displayed to display the current interface. 2 is a schematic diagram of a terminal according to a second embodiment of the present invention. As shown in FIG. 2, in the embodiment, the terminal 2 provided by the present invention includes: a self-luminous screen 21, a detecting module 22, and a control module 23; The module 22 is configured to detect whether the terminal meets the power saving condition, and if so, triggers the control module 23; the control module 23 is configured to control the self-illumination screen 21 to display the current interface in a low power consumption color when triggered by the detection module 22; 21 is set to display the current interface under the control of the control module 23. Preferably, the low power consumption color in the embodiment shown in FIG. 2 includes black; the control module 23 is configured to control the self-lighting screen 21 to display the background area in the current interface in black, and the self-lighting screen 21 is set to be in the control module 23. The current interface is displayed in black under control. Preferably, in the embodiment shown in FIG. 2, if the current interface includes text, the control module 23 is further configured to control the self-illumination screen 21 to display the text in the current interface in a non-black low-power color; the self-illumination screen 21 is set. The current interface is displayed in a non-black low power color under the control of the control module 23. Preferably, in the embodiment shown in FIG. 2, if the current interface includes a picture, the control module 23 is further configured to determine whether it is necessary to perform low-power display processing on the picture area; if necessary, control the self-illumination screen 21 to The non-black low power color of the different color parameters displays the picture in the current interface; the self-illuminating screen 21 is arranged to display the current interface with a non-black low power color of different color parameters under the control of the control module 23. Preferably, the power saving condition in the embodiment shown in FIG. 2 includes that the remaining power of the terminal is less than a preset value; the detecting module 22 is configured to detect the remaining power of the terminal, determine whether the remaining power is less than a preset value, and if so, trigger control. Module 23. Preferably, the self-illuminating screen 21 in the embodiment shown in FIG. 2 is an active matrix organic light emitting diode panel. Preferably, in the embodiment shown in FIG. 2, the control module 23 controls the display interface of the self-illuminating screen by controlling the illumination manner of each pixel in the self-illuminating screen; the control mode may be as follows: The pixel should emit white light, then the pixel should trigger red, green, and blue independent luminescent materials to emit light at the same time. At this time, in the present invention, the control module 23 sends a pause signal to the pixel to prevent the pixel from emitting light at the moment. Then, the pixel appears as black light, and correspondingly, a certain pixel should emit red light. Then, the pixel should trigger the red luminescent material to emit light. At this time, the control module 23 sends a modification signal to the pixel to prevent the pixel from emitting red light at the moment and changing to blue light. This pixel appears as blue light. The present invention will be further explained with reference to a specific application example. FIG. 3 is a schematic diagram of a terminal display control method according to a third embodiment of the present invention, and FIG. 4a to FIG. 4c are diagrams showing a terminal provided by the third embodiment of the present invention. A schematic diagram of the display interface corresponding to the control method; as shown in FIG. 3, in the application example, the terminal display control method provided by the embodiment of the present invention includes the following steps: S301: Acquire the running state of the terminal; The self-illuminating screen is controlled, and it is assumed that the moment is the TO time. At this time, the display interface of the self-illuminating screen of the terminal is as shown in FIG. 4a; in FIG. 4a, the current interface includes a text area (as shown in the dialogue part in FIG. 4a). The language box area and content, the user name and phone number of the header, and the word "send" at the bottom of the text area belong to the text area. The "text area" in the following is the same as this, and will not be described again. The user avatar in the header part of 4a, the video player window in the dialog part, etc., are displayed in the form of pictures. The area, the "picture area" below is the same, and will not be described again) and the background area (such as the blank part in the dialogue part of Fig. 4a, the area where no content is displayed belongs to the background area, and the "background area" below This is the same, and will not be described again), and the background area emits white light, the text in the text area emits black light, and the picture in the picture area emits mixed light; S302: The detection module detects and determines whether the terminal satisfies the power saving condition; if satisfied, Step S303 is performed. If not, the process returns to step S301. In this embodiment, the power saving condition is set to be that the remaining power of the terminal is less than the preset value; and detecting whether the terminal meets the power saving condition specific package: detecting the remaining power of the terminal , to determine whether the remaining power is less than the preset value; for convenience of explanation, it is assumed that at the time T1, the remaining power A of the terminal is skillfully smaller than the preset value Th (can be a specific power value, or a percentage), then, at the TO At time T1, the schematic diagram of the display interface of the terminal self-illuminating screen is as shown in FIG. 4a; the terminal performs step S303 at time T1;

S303: The control module selects a low-power color according to the terminal configuration to display a processing manner of the current interface. For convenience of description, in the embodiment, the current interface is divided into three categories: a background area, a text area, and a picture area. Generally, the background area occupies a larger proportion, the text area is second, and the picture area is the smallest. For these three categories of areas, you can set whether to perform low-power color display processing for each area separately, and the low-power colors in each area can also be set separately. The end user can select according to their own preferences, only The power saving effect can be achieved; for the low-power color display processing of the current interface, there are 7 types of processing methods: only processing the background area, processing only the text area, processing only the image area, processing only the background and the text area, and processing only Background and picture area, only processing text and picture area, processing background, text and picture area at the same time; The display effect of the current interface of these 7 types of processing methods can be referred to the following description of modes 1 and 2, and will not be described here. S304: The control module controls the self-illuminating screen to display the current interface in a low-power color according to the selected processing manner; the following examples exemplify two ways and corresponding display effects: mode 1, black display processing on the background area, The monochrome display processing is performed on the text area, and the monochrome image display processing is also performed on the image area. The schematic diagram of the current interface after processing is as shown in FIG. 4b: The background area is displayed in black, that is, the pixels in the area are not illuminated, and the text is The area is displayed in gray, that is, the pixels in the area emit gray light with the same color parameters, and the picture area is displayed in gray (the brightness of each pixel is not the same), that is, the color parameters of the pixels in the area are different. Gray light; At this time, the picture for the picture area can be processed as follows: Detect the color difference, brightness value and saturation value of each pixel in the picture area, and compare the color difference value, the brightness value and the saturation value. a pixel as a sub-region, between sub-regions where the color difference, brightness value, and saturation value differ greatly The edge line is used as the contour line; mode 2, black display processing for the background area, monochrome display processing for the text area, monochrome display processing for the picture area, and display of the current interface after processing as shown in FIG. 4c: The background area is displayed in black, that is, the pixels in the area are not illuminated, and the text area is displayed in gray, that is, the pixels in the area are grayed out with the same color parameter, and the picture area is displayed in the same manner as the picture area in FIG. 4a. In summary, through the implementation of the present invention, at least the following beneficial effects exist: The present invention detects whether the terminal satisfies the power saving condition, and when detecting that the terminal meets the power saving condition, by controlling the self-illuminating screen of the terminal to use a low power consumption color The current interface of the terminal is displayed. Because the present invention does not require the user to select to close the terminal application, the present invention reduces the power consumption of the terminal while ensuring the use experience of the terminal user, and solves the related art to extend the terminal by closing the terminal application. The problem of poor user experience caused by battery life; Further, by setting the power saving condition to the remaining power of the terminal is less than the preset value, if the power is sufficient, the power is not processed, and the display is performed in a low power consumption color only when the terminal power is insufficient, and the terminal life time is also enhanced while extending the terminal life time. The user experience. The above is only a specific embodiment of the present invention, and is not intended to limit the present invention in any way. Any simple modification, equivalent change, combination or modification of the above embodiments in accordance with the technical spirit of the present invention is still in the present invention. The scope of protection of the technical solution of the invention.

Claims

Claim A terminal display control method, wherein the terminal includes a self-illuminating screen, and the terminal display control method includes:  Detecting whether the terminal meets a power saving condition;  If so, the self-illuminating screen is controlled to display the current interface in a low power consumption color. 2. The terminal display control method according to claim 1, wherein the controlling the self-illuminating screen to display the current interface in a low power consumption color comprises: displaying a background area in the current interface in black. 3. The terminal display control method according to claim 1, wherein the controlling the self-illuminating screen to display the current interface in a low power consumption color comprises: displaying the text in the current interface in a non-black low power color. 4. The terminal display control method according to claim 1, wherein, if the current interface includes a picture, the controlling the self-luminous screen to display the current interface in a low power consumption color comprises: determining whether the The picture area performs low power display processing; if so, the pictures in the current interface are displayed in non-black low power colors of different color parameters. The terminal display control method according to claim 4, wherein the color parameter includes at least one of brightness, saturation, and color color values. The terminal display control method according to any one of claims 1 to 5, wherein the detecting whether the terminal satisfies a power saving condition comprises: detecting a remaining power of the terminal, and determining whether the remaining power is less than a pre-charge Set the value. A terminal, comprising a self-illuminating screen, a detecting module and a control module; wherein the detecting module is configured to detect whether the terminal meets a power saving condition, and if so, triggering the control module;  The control module is configured to, when triggered by the detection module, control the self-illuminating screen to display a current interface in a low power consumption color; the self-illuminating screen is configured to display the current interface under control of the control module . The terminal according to claim 7, wherein the control module is configured to control the self-illuminating screen to display a background area in the current interface in black; the self-illuminating screen is set to be in the control module The current interface is displayed in black under control. 9. The terminal according to claim 7, wherein the control module is configured to control the self-illuminating screen to display characters in the current interface in a non-black low power color color; the self-lighting screen is set to be in The current interface is displayed in a non-black low power color color under the control of the control module. 10. The terminal according to claim 7, wherein, if the current interface includes a picture, the control module is configured to determine whether a low power consumption display process needs to be performed on the picture area, and if yes, control the The self-illuminating screen displays the picture in the current interface in a non-black low power color with different color parameters; the self-illuminating screen is set to display in a non-black low power color with different color parameters under the control of the control module The current interface. The terminal according to any one of claims 7 to 10, wherein the detecting module is configured to detect a remaining power of the terminal, determine whether the remaining power is less than a preset value, and if so, trigger the control Module. The terminal of any of claims 7 to 10, wherein the self-illuminating screen comprises an active matrix organic light emitting diode panel.