JP2007150831A - Portable terminal and displaying method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a portable terminal and a displaying method for reducing power consumption and realizing an optimum viewable display screen when it is used by a user, by changing its luminance for every application. <P>SOLUTION: When another application B other than application A, by which current screen painting is performed, starts screen painting; an application judgment unit 4 specifies the application B after a control unit 3 detects the start of the screen painting. In the control unit 3; a luminance value No. corresponding to this is acquired from a reference table 6b, and a luminance value is acquired from a luminance table 6a corresponding to the application B in the memory unit 6, and these are transferred to a display unit 2. In the display unit 2, a luminance value is calculated based on the luminance value transmitted from the control unit 3 and a screen image of the luminance value is formed, thereby performing screen painting. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

 The present invention relates to a battery-driven portable terminal and a display method, such as a cellular phone device, a PDA (Personal Digital Assistant) digital camera, and a portable television.

In the prior art, as a method of changing the luminance value of the display liquid crystal screen, there is a method of changing the luminance value from a menu on the screen. A technique for a power saving function that turns off the backlight when no operation is performed for a certain period of time is already known. Further, as a technique for changing the luminance value, there is a technique for suppressing power consumption by changing a screen of characters or the like from a white tone to a black tone (for example, see Patent Document 1).
Japanese Patent Laid-Open No. 2002-199078

 However, in the conventional technique, the luminance value of the display unit is changed to a specific value, and the setting value cannot be changed for each application. For this reason, it is difficult to view the display screen depending on the application. In addition, it is inconvenient for the user to change the luminance value every time the application is changed. In addition, since the screen is corrected regardless of the application, depending on the application, correction may be performed more than necessary, or correction may be hardly performed. For this reason, the atmosphere (appearance, image, etc.) of the application may be impaired.

 The present invention has been made to solve such a problem, and by changing the luminance value for each displayed application, it is possible to realize optimum visibility for use by the user and to reduce power consumption. An object is to provide a portable terminal and a display method.

 The present invention has been made to solve the above-described problems. The invention according to claim 1 is directed to a storage unit that stores a luminance value in a display unit based on an application, and the storage unit when displaying an application. And a control means for controlling the brightness of the display means based on a brightness value corresponding to the application.

 Further, in the invention according to claim 2, the storage means stores a luminance value in the display means in each of a group whose application is mainly a display of a text character string and a group whose display is an image. The mobile terminal according to claim 1, wherein when the application is displayed, the control unit controls the luminance value of the display unit based on a luminance value corresponding to the group of the application.

 According to a third aspect of the present invention, the storage unit stores a luminance value in the display unit based on an area ratio on which a natural image is displayed with respect to the display screen, and the control unit displays the natural image on the display screen. The aspect ratio of the natural image is calculated when displaying the application to be controlled, and the luminance of the display unit is controlled based on the luminance value corresponding to the area ratio of the storage unit. 2. The mobile terminal according to 2.

 According to a fourth aspect of the present invention, the storage unit stores a luminance value in the display unit based on the remaining battery level, and the control unit acquires the remaining battery level and changes the remaining battery level. The mobile terminal according to claim 1, wherein brightness of the display unit is controlled based on a remaining battery level of the storage unit.

 The invention according to claim 5 is the portable terminal according to claims 1 to 4, wherein the control means lowers the luminance value in accordance with an elapsed time after the operation means is operated. .

 According to a sixth aspect of the present invention, the storage means stores a luminance value in the display means based on a display area of the application, and the control means displays the display of the storage means when displaying the application. The mobile terminal according to claim 1, wherein a brightness value of the display unit is controlled based on a brightness value corresponding to a region.

 According to the seventh aspect of the present invention, when an application is displayed, the application is identified, a luminance value corresponding to the identification result of the application is identified, and the display screen is displayed based on the identified luminance value. This is a display method characterized by controlling luminance.

 The invention according to claim 8 is the mobile terminal according to claims 1 to 4, wherein the control means lowers the luminance value in accordance with an elapsed time since the occurrence of the event.

 The invention according to claim 9 is the portable terminal according to any one of claims 1 to 4, wherein the control means lowers the luminance value in accordance with an elapsed time since the screen update occurred. is there.

 According to the present invention, by changing the brightness value for each application being displayed, it is possible to achieve optimal visibility for use by the user and to reduce power consumption.

 Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing a configuration of a mobile terminal (mobile device) according to the present embodiment. 1 includes a transmission / reception unit 1 that performs transmission / reception with a base station, a display unit 2 that includes a mobile terminal and a display control unit, a control unit 3 that controls the entire apparatus, and an application that is currently being displayed. An application determination unit 4 that determines whether the content displayed on the screen is text data or a natural image, a luminance value table 6a, a reference table 6b, and an application The storage unit 6 in which the tables of the group 6c and the relative luminance value table 6d are stored, and the display area determination unit 7 that specifies the area of a natural image such as a photographic image displayed on the screen and performs processing according to the determination result. And a remaining battery level detection unit 8 that detects the remaining battery level of the battery (not shown) of the terminal (device) and performs processing according to the detection result, and when there is a user operation or event (for example, e-mail Shin, etc.) and a timer unit 9 for setting the timer from the occurrence.

 The control unit 3 notifies the display unit 2 of the content to be drawn at the time of screen drawing. After the timer unit 9 is set when the application is activated, the timer unit 9 resets the timer every time there is a key operation, and notifies the control unit 3 when the timer expires. Note that the timer unit 9 is not limited to each key operation, and the timer may be reset after an event occurs. The luminance value table 6a in the storage unit 6 is referred to by the application determination unit 4 or the like, and the application group 6c stores a group of applications. Note that the luminance value table 6a in the storage unit 6 may be prepared individually by the application determination unit 4, the display type determination unit 5, the display area determination unit 7, and the remaining battery level detection unit 8, or one luminance value. The table 6a may be shared and used by the application determination unit 4 or the like. Of the tables stored in the storage unit 6, the luminance value table 6a and the application group 6c are separated, but they may be combined into one.

 FIG. 2 is an example of the reference table 6b used by the application determination unit 4. 2 includes an application column and a luminance value No. to be referred to. And a luminance value No. to be referred to for each application. Is specified. For each application, the luminance value No. Or a plurality of applications having the same luminance value No. You may make it refer to.

FIG. 3 is an example of the luminance value table 6a. The luminance value table 6a in FIG. Column and a luminance value column. Here, the luminance value in FIG. 3 is a parameter for changing the luminance value, and the luminance value increases as the value increases. The luminance value after the change is obtained by the following formula, for example.
Luminance value after change = (original luminance value) × (luminance value) (1)
The display unit 2 obtains a color to be displayed on the screen from the changed luminance value and draws it on the screen.
In FIG. Since “1” is “1”, the luminance value is 0.6 from FIG. 3, and therefore the luminance value of the pixel after the change is 60% of the original luminance value. Although only one luminance value table 6a is described in FIG. 3, a plurality of luminance value tables 6a may be prepared and used depending on the application.

 FIG. 4 is an example of the relative luminance value table 6d used by the display area determination unit 7 when the area ratio of the natural image is changed. The relative luminance value table 6d in FIG. When a natural image having an area ratio divided into four stages is displayed, the luminance value No. used for each is displayed. Which luminance value No. Indicates whether to change to

 For example, the current luminance value No. When the area ratio of the natural image to be displayed is 70%, the luminance value No. to which 70% belongs from the relative luminance value table 6d. Since the relative stage is −1, the luminance value No. The brightness value No. is lowered by one step. Change to 3. Also, the current luminance value No. When the area ratio of the natural image to be displayed is 50% when the value is 2, the relative level is -2, but the two levels cannot be lowered. Shall be changed to 1.

 FIG. 5 is an example of the relative luminance value table 6d used when the remaining battery level changes. The relative luminance value table 6d in FIG. When the level of the remaining battery level is divided into five levels, the luminance value No. currently used is changed. From which luminance value No. Indicates whether it should be changed.

 For example, the current luminance value No. If the remaining battery level is changed to 3 when the battery is 4, the brightness value No. is determined from the relative brightness value table. Since the relative stage is −1, the luminance value No. The brightness value no. Change to 3. When the display is charging, the luminance value No. No changes are made.

 FIG. 6 is an example of the application group 6 c stored in the storage unit 6. 6 includes an application group column, an application column, and a reference luminance value No. The application group 6c is used by the display type determination unit 5 to determine the group to which the currently displayed application belongs. Note that the application registered in the application group may be registered / changed / deleted by the user. Further, the application group may be registered / changed / deleted by the user.

Next, the operation of this embodiment will be described with reference to the drawings. FIG. 7 is a processing flow when the luminance is changed for each application. The following operation is performed at the timing when the control unit 3 performs screen drawing. In this example, the application B is assumed to be mail.
In step S101, the control unit 3 checks whether an application B that is different from the application A that is currently performing screen drawing is displayed, and determines whether screen drawing has started. If started, the process proceeds to step S102. If not started, step S101 is repeated.
In step S102, the application determination unit 4 determines and specifies the application B.
In step S103, the control unit 3 refers to the mail from the luminance value reference table 6b in the storage unit 6 based on the identified application B, and determines the luminance value No. corresponding to the application B (mail). Of 3 is obtained.
In step S104, the control unit 3 determines the brightness value No. obtained in step S103. Based on the above, the luminance value 0.8 in the storage unit 6 is obtained.

In step S105, the control unit 3 notifies the display unit 2 of the luminance value.
In step S106, the display unit 2 obtains the luminance value of the screen image.
In step S <b> 107, the display unit 2 obtains the changed luminance value using the equation (1).
In step S108, the display unit 2 creates a screen image based on the changed luminance value.
In step S109, the display unit 2 draws the screen image created in step S108.

 Here, in the above-described embodiment, as an example, the process of obtaining and drawing the luminance value of the screen image (S106 to S109) is described, but instead of steps S106 to S109, the control unit 3 performs the process in step S105. Realized by notifying the corresponding brightness value to the display unit and controlling the current, voltage, light emission time (duty ratio), etc., and lowering the screen brightness based on the notified brightness value You may do it.

FIG. 8 is a processing flow when the luminance is changed for each application group. The following operation is performed at the timing when the control unit 3 performs screen drawing. In this example, it is assumed that mail is selected by the application.
In step S <b> 201, the control unit 3 checks whether or not an application B different from the application A that is currently drawing the screen is displayed, and determines whether or not the screen drawing is started. If started, the process proceeds to step S202. If not started, step S201 is repeated.
In step S202, the application determination unit 4 determines and identifies the application B.
In step S <b> 203, the control unit 3 obtains a “text character string” that is an application group to which the identified mail application B belongs from the application group in the storage unit 6.
In step S204, the luminance value No. corresponding to the application group is changed from the application group in the storage unit 6. Of 3 is obtained.
In step S205, the control unit 3 determines the brightness value No. acquired in step S204. Based on the above, the luminance value 0.8 in the storage unit 6 is obtained.

In step S206, the control unit 3 notifies the display unit 2 of the luminance value.
In step S207, the display unit 2 obtains the luminance value of the screen image.
In step S208, the display unit 2 obtains the changed luminance value using the equation (1).
In step S209, the display unit 2 creates a screen image based on the changed luminance value.
In step S210, the display unit 2 draws the screen image created in step S209.

 Here, in the above embodiment, as an embodiment, the process of obtaining and drawing the luminance value of the screen image (S207 to S210) is described. However, instead of steps S207 to S210, the control unit 3 performs the process in step S206. Realized by controlling the brightness of the screen based on the notified brightness value by reporting the corresponding brightness value to the display and controlling the current, voltage, light emission time (duty ratio), etc. You may do it.

FIG. 9 is a processing flow when the luminance is changed in accordance with the area ratio of the natural image in the display area. The following operation is performed at the timing when the control unit 3 performs screen drawing. In this example, the case where the area ratio of the natural image is 70% is taken as an example.
In step S <b> 301, the control unit 3 checks whether or not an application B different from the application A that is currently drawing the screen is displayed, and determines whether or not the screen drawing is started. If started, the process proceeds to step S302. If not started, the process proceeds to step S307.
In step S302, the application determination unit 4 determines and specifies the application B.
In step S <b> 303, the control unit 3 obtains the “natural image” of the application group to which the identified application B belongs from the application group in the storage unit 6.

In step S304, the luminance value No. corresponding to the application group is changed from the application group in the storage unit 6. Of 4 is obtained.
In step S305, the control unit 3 determines whether the screen (scene) to be displayed is a screen that handles natural images. If the screen handles a natural image, the process proceeds to step S306. If the screen does not handle a natural image, the process proceeds to step S310.
In step S306, the control unit 3 obtains the area ratio between the display area displayed by the application and the natural image.
In step S307, in the control unit 3, based on 70% of the area ratio obtained in step S306, the corresponding luminance value No. is stored from the relative luminance value table in the storage unit 6. Find the relative stage of -1.
In step S308, the control unit 3 determines that the relative stage −1 obtained in step S307 and the luminance value No. obtained in step S304 are obtained. No. 4 and the new luminance value No. 3 is obtained.
(New luminance value No. = luminance value No. obtained in step S304 + relative stage obtained in step S307)

In step S309, the control unit 3 determines the brightness value No. obtained in step S308. Based on the above, the luminance value 0.8 in the storage unit 6 is obtained.
In step S310, the control unit 3 notifies the display unit 2 of the luminance value.
In step S311, the display unit 2 obtains the luminance value of the screen image.
In step S312, the display unit 2 obtains the changed luminance value using the equation (1).
In step S313, the display unit 2 creates a screen image based on the changed luminance value.
In step S314, the display unit 2 draws the screen image created in step S313.

 Here, in the said Example, although the process (S311-S314) which calculates | requires and draws the luminance value of a screen image is described as one Example, the control part 3 performs step S310 instead of step S311-S314. Realized by notifying the corresponding brightness value to the display unit and controlling the current, voltage, light emission time (duty ratio), etc., and lowering the screen brightness based on the notified brightness value You may do it.

 Although FIG. 9 shows the case where the application group type is used, the present invention can also be applied to the case where the application type shown in FIG. 7 is used. In that case, the luminance value No. Is acquired, it is determined whether or not the screen handles a natural image in step S305.

 FIG. 10 is a processing flow when the luminance is changed according to the remaining battery level. Here, the control unit 3 periodically acquires the remaining battery level, and the following operation is performed at the timing when the control unit 3 acquires the remaining battery level from the remaining battery level detection unit 8. Further, since the process of FIG. 10 operates independently of the processes of FIGS. 7 to 9, it can be performed simultaneously with FIGS. 7 to 9. In this example, the case where the remaining battery level becomes 3 is taken as an example.

In step S <b> 401, the control unit 3 acquires the remaining battery level from the remaining battery level detection unit 8.
In step S402, the control unit 3 compares the remaining battery level acquired in step S401 with the previously acquired battery level.
In step S403, based on the remaining battery level 3 obtained in step S402 by the control unit 3, the corresponding luminance value No. 5 is stored in the relative luminance value table 6d in the storage unit 6. Find the relative stage of -1.
In step S404, the control unit 3 determines that the relative level −1 obtained in step S403 and the luminance value No. No. 3 and the new luminance value No. 2 is obtained.
(New luminance value No. = luminance value No. held by the control unit 3 + relative stage obtained in step S403)

In step S405, the control unit 3 determines the brightness value No. obtained in step S404. Based on the above, a luminance value of 0.7 is obtained from the luminance value table 6a in the storage unit 6.
In step S406, the control unit 3 notifies the display unit 2 of the luminance value.
In step S407, the display unit 2 obtains the luminance value of the screen image.
In step S408, the display unit 2 obtains the changed luminance value using the equation (1).
In step S409, the display unit 2 creates a screen image based on the changed luminance value.
In step S410, the display unit 2 draws the screen image created in step S409.

 Here, in the above-described embodiment, the process of obtaining and drawing the luminance value of the screen image (S407 to S410) is described as an embodiment. However, instead of steps S407 to S410, the control unit 3 performs the process in step S406. Realized by notifying the corresponding brightness value to the display unit and controlling the current, voltage, light emission time (duty ratio), etc., and lowering the screen brightness based on the notified brightness value You may do it.

FIG. 11 is a processing flow when a predetermined time has elapsed (when there is no user operation). Further, since the process of FIG. 11 operates independently of the processes of FIGS. 7 to 10, it can be performed simultaneously with FIGS. 7 to 10.
In step S501, the control unit 3 instructs the timer unit 9 to set a timer when a user operation, a screen update, an event occurs, or the like. The timer unit 9 sets a timer according to the instruction.
In step S502, when the timer time expires, the timer unit 9 notifies the control unit 3 and proceeds to step S503. If it has not expired, the process proceeds to step S502.
In step S503, the control unit 3 sets the current luminance value No. To get.
In step S <b> 504, based on the notification sent from the timer unit 9, the control unit 3 determines the luminance value No. stored in the control unit 3. Lower by one.

In step S505, the control unit 3 determines the luminance value No. obtained in step S504. The luminance value is obtained from the luminance value table in the storage unit 6 based on the above.
In step S506, the control unit 3 notifies the display unit 2 of the luminance value.
In step S507, the display unit 2 obtains the luminance value of the screen image.
In step S508, the display unit 2 obtains the changed luminance value using the equation (1).
In step S509, the display unit 2 creates a screen image based on the changed luminance value.
In step S510, the display unit 2 draws the screen image created in step S509.

 Here, in the above-described embodiment, the process of obtaining and drawing the luminance value of the screen image (S507 to S510) is described as an embodiment. Realized by controlling the brightness of the screen based on the notified brightness value by reporting the corresponding brightness value to the display and controlling the current, voltage, light emission time (duty ratio), etc. You may do it.

 Next, a case where the screen image of the display screen is divided into display areas and the luminance value is associated with each display area of the display screen will be described. FIG. 12 shows an example of dividing the screen image of the display screen into display areas. In addition, FIG. It is an example of the area | region classification table which shows. FIG. 14 is an example of a display area table showing the correspondence when the area type is associated with the display area. In setting the luminance value of each display area, as shown in FIG. Set up. The screen image is divided by an application, and the display area coordinates and area type are notified to the display unit 2 every time the display area changes. The display unit 2 identifies the luminance value table 6a based on the region type notified from the application, and changes the luminance value based on the luminance value table 6a that identifies the luminance value in the display region.

 FIG. 15 shows an example of a screen image when the luminance value is changed for the entire screen. With respect to the screen image before the change, when the luminance values are 0.9 and 0.6, it can be seen that the luminance decreases in order. FIG. 15 shows an example in which the brightness value change for each display area is performed on the screen image before the change when the display area is set as shown in FIG. Further, the display type of each display area at this time is as shown in FIG. The display area 1 has a luminance value No. Is 1 (luminance value is 0.6), the brightness is almost halved. Is 5 (luminance value is 1.0), the brightness does not change.

 There are no restrictions on the number of display areas into which the screen image is divided and the shape of the display areas. However, if the display area to be divided is increased or the display area has a complicated shape, it takes time to change the screen image in the display unit 2, and therefore a restriction may be provided for each application. Further, the item of area type is not as shown in FIG. 13, but may be functional distinction such as menu, pictogram, image display area, etc., or may be classified by importance.

FIG. 16 is a flowchart showing the process of changing the brightness when the brightness value change magnification of the display screen is changed for each display area. The following operation is performed at the timing when the control unit 3 performs screen drawing.
In step S601, the control unit 3 checks whether or not the application A that is currently drawing the screen is different from the application A, and determines whether the screen drawing is started. If started, the process proceeds to step S602, and if not started, the process proceeds to step S603.
In step S602, the application determination unit 4 determines and specifies the application B.
In step S603, the control unit 3 acquires an area type table in the storage unit 6, and acquires a display area table from the application.

In step S604, the control unit 3 checks whether the display area table has changed from the previous time. If it has changed, the process proceeds to step S605, and if it has not changed, the process returns to step S601.
In step S605, the control unit 3 reads the luminance value No. corresponding to the region type from the region type table. To get.
In step S606, the control unit 3 acquires a luminance value from the luminance value table.
In step S607, the control unit 3 notifies the display unit 2 of the coordinates of the display area notified from the application and the luminance value obtained in step S606.

In step S608, the display unit 2 obtains the luminance value of the display area.
In step S609, the display unit 2 obtains the changed luminance value using the equation (1).
In step S610, the display unit 2 creates a screen image based on the changed luminance value.
In step S611, the display unit 2 draws the screen image created in step S610.
The processing from step S605, step S606, and step S608 to step S611 is performed for the entire display area.

 Here, in the above-described embodiment, the processing (S608 to S611) for obtaining and drawing the luminance value of the screen image is described as an embodiment. However, instead of steps S608 to S611, the control unit 3 performs the process in step S607. Realized by notifying the corresponding brightness value to the display unit and controlling the current, voltage, light emission time (duty ratio), etc., and lowering the screen brightness based on the notified brightness value You may do it.

 INDUSTRIAL APPLICABILITY The present invention is suitable for use in battery-driven portable terminals and display methods such as cellular phone devices, PDA (Personal Digital Assistant) digital cameras, and portable televisions. Further, the luminance value to be changed according to the present invention indicates a reduction rate with respect to the default luminance, and the reduction method is not limited to the present embodiment, and various values can be used without departing from the spirit and intention of the present invention. Deformation is possible.

It is a block diagram which shows the structure of the portable terminal concerning embodiment of this invention. It is a figure which shows the example of the reference table 6b used with the portable terminal concerning embodiment of this invention. It is a figure which shows the example of the luminance value table 6a used with the portable terminal concerning embodiment of this invention. It is a figure which shows the example of the relative luminance value table 6d which the display area determination part 7 concerning embodiment of this invention uses. It is a figure which shows the example of the relative luminance value table 6d which the battery remaining charge detection part 8 concerning embodiment of this invention uses. It is a figure which shows the example of the application group 6c which the display classification determination part 5 concerning embodiment of this invention uses. It is a flow which shows the processing content when a luminance value is changed for every application of the portable terminal concerning embodiment of this invention. It is a flow which shows the processing content when a luminance value is changed for every application group of the portable terminal concerning embodiment of this invention. It is a flow which shows the processing content when a luminance value is changed according to the area ratio of the natural image in the display area of the portable terminal concerning embodiment of this invention. It is a flow which shows the processing content when a luminance value is changed according to the battery remaining charge of the portable terminal concerning embodiment of this invention. It is a flow which shows the processing content when the predetermined time of the portable terminal concerning embodiment of this invention passes. It is a figure which shows an example of how to divide the screen image of the display screen concerning embodiment of this invention into a display area. It is a figure which shows an example of the display area table which shows the correspondence when an area | region classification is matched with the display area concerning embodiment of this invention. The luminance value No. referred to for each area type according to the embodiment of the present invention. It is a figure which shows an example of the area | region classification table which matches. It is a figure which shows the example of a screen image when the luminance value of the screen image of the display screen concerning embodiment of this invention is changed. It is a flow which shows the process of a luminance change at the time of changing the luminance value change magnification of the display screen concerning embodiment of this invention for every display area.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Transmission / reception part 2 ... Display part 3 ... Control part 4 ... Application determination part 5 ... Display classification determination part 6 ... Memory | storage part 7 ... Display area determination part 8 ... Battery remaining charge detection part 9 ... Timer part

Claims (9)

Storage means for storing the luminance value in the display means based on the application;
Control means for controlling the brightness of the display means based on the brightness value corresponding to the application in the storage means when displaying an application;
The portable terminal characterized by comprising. The storage means stores a luminance value in the display means in each of a group whose application is mainly a display of a text string and a group whose display is an image.
The portable terminal according to claim 1, wherein when the application is displayed, the control unit controls the luminance value of the display unit based on a luminance value corresponding to the group of the application. The storage means stores a luminance value in the display means based on an area ratio on which a natural image is displayed with respect to a display screen,
The control unit calculates an area ratio of the natural image when displaying an application for displaying a natural image on the display screen, and based on a luminance value corresponding to the area ratio of the storage unit, the luminance of the display unit The mobile terminal according to claim 1, wherein the mobile terminal is controlled. The storage means stores a luminance value in the display means based on the remaining battery level,
The said control means acquires a battery remaining charge, and controls the brightness | luminance of the said display means based on the battery remaining charge of the said memory | storage means, when a battery remaining charge changes. Mobile devices.  The mobile terminal according to claim 1, wherein the control unit decreases the luminance value according to an elapsed time after the operation unit is operated. The storage means stores the luminance value in the display means based on the display area of the application,
The portable device according to claim 1, wherein the control unit controls a luminance value of the display unit based on a luminance value corresponding to the display area of the storage unit when displaying an application. Terminal. When displaying the application, identify the application,
A display method characterized by specifying a luminance value corresponding to the specification result of the application and controlling the luminance of the display screen based on the specified luminance value.  The mobile terminal according to claim 1, wherein the control unit lowers the luminance value according to an elapsed time after the occurrence of the event.  5. The mobile terminal according to claim 1, wherein the control unit lowers the luminance value according to an elapsed time after the screen is updated.

Images