JP2003280627A - Device, method, and program for image display, and computer-readable recording medium - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce the power consumption by lessening an electric power consumed for image processing and saving a battery and to effectively inform a user that the remaining capacity of the battery becomes small. <P>SOLUTION: An image display device is equipped with an input part (3) which inputs image data, image processing parts (4-1 to 4-n) which convert the inputted image data to the different numbers of gradations, an image display part (5) which displays images processed by the image processing parts (4-1 to 4-n), a battery rest detection part (2) which detects the remaining capacity of the battery, and a control part (6) which selects one of the image processing parts (4-1 to 4-n) according to the remaining capacity of the battery detected by the battery rest detection part (2) and displays the image data processed by the selected image processing part at the image display part. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image display device, an image display method, an image display program, and a computer-readable recording medium for saving battery.

[0002]

2. Description of the Related Art Conventionally, for example, Japanese Patent Laid-Open No. 9-284614.
Japanese Patent Laid-Open Publication No. 2004-242242 discloses a technique of lowering the frame rate when displaying a moving image when the battery level becomes low. Further, Japanese Patent Laid-Open No. 10-233949 discloses a technique for reducing the display area of an image when the remaining battery level is low. Also, JP-A-11-109465
The publication discloses a technique of stopping the supply of electric power to the display unit when the remaining battery level becomes low. Also,
Conventionally, a method has been adopted in which a dedicated display portion is provided to display the remaining battery level.

[0003]

However, when the frame rate is reduced when the battery level becomes low, it is possible to set a plurality of frame rates and switch between them, so that the operating rate of the CPU is suppressed, It is believed to contribute to battery saving. Further, the method of reducing the display area of the image when the remaining battery level is low is simply switching between large and small levels, and is not sufficient from the viewpoint of saving the battery. In addition, in the method of stopping the supply of power to the display unit, the display suddenly disappears when the remaining battery level falls below the reference value, and the user feels very inconvenient.

In order to display the remaining battery level,
Providing a dedicated display part incurs a cost. Further, if the dedicated display portion for displaying the remaining amount of the battery is large, the screen becomes difficult to see, while if the display portion is small, the remaining amount of the battery is difficult to understand. This was especially noticeable in mobile phones and the like where the size of the liquid crystal panel was small. Further, even if it is known that the battery level is low, it may not be possible to stop the use immediately, or it may be desired to extend the use time even if the image quality deteriorates to some extent.

It is also a common method to display a mark indicating that the remaining battery level is low when the remaining battery level is low. However, when a user is watching a moving image, for example, there is a problem in that the mark is hard to notice because the user usually pays attention to the content of the moving image. Further, even if the user notices the mark, there is no choice but to either stop playing the moving image or continue playing the moving image until the battery is completely exhausted.

The present invention has been made in view of the above circumstances, and saves the battery by suppressing the power consumed by the image processing to reduce the power consumption and the remaining battery level is small. An image display device and an image display method capable of effectively notifying the user that
An object is to provide an image display program and a computer-readable recording medium.

[0007]

An image display apparatus of the present invention comprises an input section for inputting image data, a plurality of image processing sections for converting the input image data into different numbers of gradations, respectively. The image display unit that displays the image processed by the image processing unit, the battery remaining amount detection unit that detects the remaining amount of the battery, and the plurality of battery remaining amounts that are detected by the battery remaining amount detection unit. It is characterized by further comprising: a control unit that selects any one of the image processing units from the image processing unit and causes the image display unit to display the image data image-processed by the selected image processing unit.

In this way, the remaining amount of the battery is detected, and the number of gradations in image processing is selected according to the detected remaining amount. As a result, it is possible to perform image processing with the number of gradations according to the remaining battery level. For example, when the battery level becomes low
It is possible to reduce the operating rate of U and save the battery. Further, by decreasing the number of gradations in the image processing when the remaining battery level is low, the user can recognize the deterioration of the image quality, and as a result, can know that the remaining battery level is low. Therefore, it is not necessary to provide a mark or the like for displaying the remaining amount of the battery, and the screen can be effectively used. This is especially effective when the screen is small, such as in a mobile phone.

The image display device of the present invention further comprises a timer for setting time and counting elapsed time,
When the detected remaining amount of the battery is lower than a reference value, the control unit performs image processing with a high gradation number including the maximum gradation number at the time when the image data is input. Is selected, and when the time set in the timer has elapsed, an image processing unit that performs image processing with a gradation number lower than the gradation number is selected.

As described above, when the remaining amount of the battery is lower than the reference value, the image processing is performed at a high gradation number including the maximum gradation number at the time when the image data is input, and the time set in the timer is set. When has passed, the image processing is performed with the gradation number lower than the gradation number. This makes it easier for the user to recognize that the image quality has suddenly deteriorated after the time set in the timer has elapsed. As a result, it is possible to effectively inform the user that the remaining battery level has decreased.

Further, in the image display device of the present invention, the image display section is provided with a backlight, and the control section is
The brightness of the backlight is changed based on the detected remaining battery level.

As described above, since the brightness of the backlight is changed based on the detected remaining battery level,
By reducing the brightness of the backlight when the battery level is low, power consumption is reduced and
It is possible to effectively notify the user of the decrease in the remaining battery level due to the deterioration of the image quality.

Further, the image display device of the present invention is processed by the input section for inputting the moving picture data, the moving picture reproducing section capable of converting the inputted moving picture data into a plurality of frame rates, and the moving picture reproducing section. An image display unit for displaying an image, a battery remaining amount detecting unit for detecting the remaining amount of the battery, and one of a plurality of frame rates reproducible by the moving image reproducing unit according to the detected remaining amount of the battery. And a control unit for selecting a frame rate, causing the moving image reproducing unit to reproduce the moving image data at the selected frame rate, and displaying the reproduced data on the image display unit.

As described above, one of the frame rates is selected according to the detected remaining amount of the battery, and the moving image data is reproduced at the selected frame rate. Therefore, when the remaining amount of the battery is low By lowering the frame rate, a state close to so-called frame-by-frame reproduction is achieved, and power consumption can be reduced. Therefore, although the image quality is deteriorated, the reproduction time of the moving image can be extended. In addition, since the user is sure to recognize that the remaining battery level has decreased due to the frame advance state, it is possible to expand the options for what purpose the remaining battery power is used. it can. For example, if the remaining battery level is low, it is possible to make an early decision to stop the playback of the moving image and leave it for using other functions.

The image display device of the present invention further comprises a timer for setting time and counting elapsed time,
When the detected remaining amount of the battery is lower than a reference value, the control unit causes the moving image reproduction unit to reproduce the moving image data until the time set in the timer elapses.

As described above, when the remaining amount of the battery is lower than the reference value, the moving image data is reproduced until the time set in the timer elapses, so that the reproduction of the moving image is stopped when the time elapses. . As a result, the user can play the video within the time set in the timer, and the video playback will stop at the set time, so it is ensured that the remaining battery level is below the reference value. You can know Also, since the reproduction of the moving image is stopped when the time set in the timer is reached, it is possible to reduce power consumption and use the remaining battery for other purposes.

Further, in the image display device of the present invention, the control unit, when the detected remaining amount of the battery is lower than a reference value, the first one of the moving image data input to the moving image reproducing unit. The feature is that only the screen is played.

As described above, when the remaining amount of the battery is lower than the reference value, only the first one screen of the input moving image data is reproduced, so that the appropriate moving image is not reproduced. As a result, the user can surely know that the remaining amount of the battery has become equal to or less than the reference value. Further, since the moving image is not reproduced, it is possible to reduce the power consumption and use the remaining battery for other purposes.

Further, the image display device of the present invention is characterized in that the timer can change the setting of the time according to the detected remaining battery level.

As described above, since the time set in the timer can be changed according to the detected remaining battery level,
As the remaining amount of the battery decreases, the operating state becomes such that the power consumption decreases. This makes it possible to reduce power consumption and use the remaining battery for other purposes.

Further, the image display method of the present invention includes a step of inputting image data, a step of detecting the remaining amount of the battery, and a step of detecting the input image data in accordance with the detected remaining amount of the battery. The method is characterized by including a step of selecting any one image processing from a plurality of image processing for converting into different gradation numbers, and a step of displaying image data subjected to image processing by the selected image processing.

In this way, the remaining amount of the battery is detected, and the number of gradations in image processing is selected according to the detected remaining amount. As a result, it is possible to perform image processing with the number of gradations according to the remaining battery level. For example, when the battery level becomes low
It is possible to reduce the operating rate of U and save the battery. Further, by decreasing the number of gradations in the image processing when the remaining battery level is low, the user can recognize the deterioration of the image quality, and as a result, can know that the remaining battery level is low. Therefore, it is not necessary to provide a mark or the like for displaying the remaining amount of the battery, and the screen can be effectively used. This is especially effective when the screen is small, such as in a mobile phone.

Further, the image processing program of the present invention includes a process of inputting image data, a process of detecting the remaining battery level, and the input image data in accordance with the detected remaining battery level. A method of causing a computer to execute a process of selecting any one of a plurality of image processes for converting into a different number of gradations and a process of displaying image data image-processed by the selected image process I am trying.

In this way, the remaining amount of the battery is detected, and the number of gradations in image processing is selected according to the detected remaining amount. As a result, it is possible to perform image processing with the number of gradations according to the remaining battery level. For example, when the battery level becomes low
It is possible to reduce the operating rate of U and save the battery. Further, by decreasing the number of gradations in the image processing when the remaining battery level is low, the user can recognize the deterioration of the image quality, and as a result, can know that the remaining battery level is low. Therefore, it is not necessary to provide a mark or the like for displaying the remaining amount of the battery, and the screen can be effectively used. This is especially effective when the screen is small, such as in a mobile phone.

A computer-readable recording medium of the present invention is characterized in that the above image display program is recorded.

With such a program, the remaining amount of the battery is detected, and the number of gradations in image processing is selected according to the detected remaining amount. As a result, it is possible to perform image processing with the number of gradations according to the remaining battery level. For example, when the remaining battery level is low, the number of gradations is reduced to reduce the operating rate of the CPU and save the battery. Further, by decreasing the number of gradations in the image processing when the remaining battery level is low, the user can recognize the deterioration of the image quality, and as a result, can know that the remaining battery level is low. Therefore, it is not necessary to provide a mark or the like for displaying the remaining amount of the battery, and the screen can be effectively used. This is especially effective when the screen is small, such as in a mobile phone.

[0027]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS (First Embodiment) FIG. 1 is a block diagram showing a schematic configuration of an image display device 100 according to the first embodiment. The battery 1 supplies power to the image display device 100. The battery remaining amount detection unit 2 detects the remaining amount of the battery 1 and outputs data indicating the detected remaining amount.
The image data input unit 3 inputs image data of a moving image or a still image. In the first embodiment, a case of inputting a still image will be described as an example. The image data input from the image data input unit 3 is input to the image processing unit 4 and
Image processing is performed in the image processing unit 4-1 to the n-th image processing unit 4-n. In the first image processing unit 4-1 to the n-th image processing unit 4-n, different gradation numbers are assigned from the range equal to or less than the maximum gradation number that the image display unit 5 can display. For example, the first image processing unit 4-1 has the M gradation (the maximum gradation that can be displayed by the image display unit 5), the second image processing unit 4
-2 has N1 gradation, and the third image processing unit 4-3 has N2 gradation.
Gradation is assigned. However, M>N1> N2. When n image display units are provided, the lowest gradation number is assigned to the nth image processing unit 4-n. In the first embodiment, n = 3
In this case, that is, the first to third image processing units are provided.

The control unit 6 selects one image from a plurality of image processing units based on the remaining battery level detected by the remaining battery level detection unit 2 and the number of gradations assigned to each image processing unit. Select the processing unit. The image processing unit selected by the control unit 5 performs image processing on the input image data. This image-processed image data is displayed on the image display unit 5. In addition, the control unit 6 is provided with a timer 7 that sets time and counts elapsed time. Each of the above components is connected to the control bus 8,
It is possible to exchange data with each other.

Next, an operation example of the image display device according to the first embodiment configured as described above will be described with reference to the flowchart shown in FIG. In the following description, Ta, Tb, and Tc are values indicating the remaining battery level, and have a relationship of Ta>Tb> Tc. Also, M, N1,
N2 is a gradation value, and M is the maximum gradation that can be displayed by the image display unit 5. There is a relation of M>N1> N2 between them.

When the data indicating the remaining amount of the battery 1 is input from the remaining battery amount detecting unit 2, the control unit 6 determines whether the remaining amount of the battery 1 is larger than Ta (step S1). As a result of this determination, the remaining amount of the battery 1 is Ta.
If larger than the above, the control unit 6 controls the first image processing unit 4-
Select 1. The first image processing unit 4-1 includes the image display unit 5
The image processing for performing M gradation display, which is the maximum gradation that can be displayed, is performed. Then, the image-processed image data is
The image is displayed on the image display unit 5 in M gradations (step S2).

On the other hand, in step S1, the battery 1
If the remaining amount of the battery is not larger than Ta, it is determined whether the remaining amount of the battery 1 is larger than Tb (step S).
3). As a result of this determination, when the remaining amount of the battery 1 is larger than Tb, the control unit 6 selects the second image processing unit 4-2. The second image processing unit 4-2 performs image processing for N1 gradation display. Then, the image-processed image data is displayed on the image display unit 5 in N1 gradation (step S4).

In step S3, when the remaining amount of the battery 1 is not larger than Tb, the remaining amount of the battery 1 is T.
It is determined whether it is larger than c (step S5).
As a result of this determination, when the remaining amount of the battery 1 is larger than Tc, the control unit 6 selects the third image processing unit 4-3. The third image processing unit 4-2 performs image processing for N2 gradation display. Then, the image-processed image data is displayed on the image display unit 5 in N2 gradation (step S
6) and end. On the other hand, in step S5, when the remaining amount of the battery 1 is not larger than Tc, the image display on the image display unit 5 is stopped. Further, in this case, other means for reducing the consumption of the battery 1 may be taken.

In this way, the remaining amount of the battery is detected, and the number of gradations in image processing is selected according to the detected remaining amount. As a result, it is possible to perform image processing with the number of gradations according to the remaining battery level. As described above, when the remaining amount of the battery is low, the number of gradations is reduced, so that the operating rate of the CPU can be reduced and the battery can be saved. Further, by decreasing the number of gradations in the image processing when the remaining battery level is low, the user can recognize the deterioration of the image quality, and as a result, can know that the remaining battery level is low. Therefore, it is not necessary to provide a mark or the like for displaying the remaining amount of the battery, and the screen can be effectively used. This is especially effective when the screen is small, such as in a mobile phone.

Next, another operation example of the image display device of the first embodiment will be described with reference to the flowchart of FIG. Here, the image processing unit is provided with a first image processing unit 4-1 that performs image processing for M gradation display and a second image processing unit 4-2 that performs image processing for N gradation display. It is supposed to be. The relationship of each gradation value is M> N
Has become. Further, Ta and Tb are values indicating the remaining amount of the battery, and have a relationship of Ta> Tb. Also, timer 7
It is assumed that there is a relationship of T1> T2, where T1 and T2 are the times set to. First, normally, the image display unit 5
M gradation display is performed (step R1). That is,
When the remaining amount of the battery 1 is sufficient, the control unit 6
The image processing unit 4-1 is selected. First image processing unit 4-1
Performs image processing for M gradation display. And
The image-processed image data is displayed on the image display unit 5 in M gradations.

The control unit 6 determines whether or not the battery remaining amount is larger than Ta based on the data indicating the battery remaining amount input from the battery remaining amount detecting unit 2 (step R2). As a result of this determination, the remaining battery level is Ta.
If it is larger than M, the display ends and M gradation display is continued.
On the other hand, when the remaining battery power is not larger than Ta,
It is determined whether the remaining battery level is larger than Tb (step R3). When the remaining amount of the battery is larger than Tb, the timer 7 is set to the time T1 (step R
4) When the time T1 has elapsed, the control unit 6 selects the second image processing unit 4-2. The second image processing unit 4-2 is
Image processing for N gradation display is performed. Then, the image-processed image data is displayed on the image display unit 5 in N gradations (step R5).

On the other hand, in step R3, when the remaining amount of the battery is not larger than Tb, the timer 7 is set to the time T.
2 is set (step R6), and when the time T2 has elapsed, the control unit 6 selects the second image processing unit 4-2. The second image processing unit 4-2 performs image processing for N gradation display. Then, the image-processed image data is displayed on the image display unit 5 in N gradations (step R5).

As described above, the remaining amount of the battery is the reference value (T
When it is lower than a), when the image data is input, the image processing is performed with a high gradation number (M) including the maximum gradation number, and the time (T1, T2) set in the timer elapses. In addition, image processing is performed with a gradation number (N) lower than the gradation number. This makes it easier for the user to recognize that the image quality has suddenly deteriorated after the time set in the timer has elapsed. As a result, it is possible to effectively inform the user that the remaining battery level has decreased.

A backlight may be provided in the image display unit 5, and the control unit 6 may change the brightness of the backlight based on the detected remaining battery level.

As a result, the brightness of the backlight is reduced when the remaining battery level is low to reduce power consumption, and it is possible for the user to effectively reduce the remaining battery level due to image quality degradation. I can inform you.

The first to n-th image processing units can perform various image processings, for example, dither processings. This makes it possible to mitigate the deterioration of image quality when the number of gradations becomes low.

(Second Embodiment) Next, an image display device 200 according to the second embodiment will be described. As shown in FIG. 4, in the image display device 200, a plurality of selectable frame rates are set instead of the image processing unit 4 in the image display device 100 according to the first embodiment. A moving picture reproducing section 9 for reproducing moving picture data at a rate is provided. In the moving image reproducing unit 9, for example, compressed moving image data is input, and a process of decompressing it at a designated frame rate is performed. Further, the moving image data is input from the image data input unit 3. Control unit 6
Selects one of the frame rates according to the remaining battery level detected by the remaining battery level detector 2, and causes the moving image reproducer 9 to reproduce the moving image data at the selected frame rate. Since other configurations are similar to those of the image display device 100 according to the first embodiment, the description thereof will be omitted.

Next, an operation example of the image display device according to the second embodiment having the above-described configuration will be described with reference to the flowchart shown in FIG. In the following description, Ta, Tb, and Tc are values indicating the remaining battery level, and have a relationship of Ta>Tb> Tc. Also, A, B, C
Is a numerical value, and A is the maximum frame rate that can be reproduced by the moving image reproducing unit 9. There is a relation of A>B> C between these.

When the data indicating the remaining amount of the battery 1 is input from the remaining battery amount detecting unit 2, the control unit 6 determines whether the remaining amount of the battery 1 is larger than Ta (step P1). As a result of this determination, the remaining amount of the battery 1 is Ta.
If it is larger than this, the control unit 6 causes the moving image reproducing unit 9 to reproduce moving image data at the A frame rate (frames / second) (step P2). On the other hand, when the remaining amount of the battery 1 is not larger than Ta in step P1,
It is determined whether the remaining amount of the battery 1 is larger than Tb (step P3). If the result of this determination is that the remaining capacity of the battery 1 is greater than Tb, the control unit 6 causes the moving image reproducing unit 9 to reproduce moving image data at the B frame rate (frames / second) (step P4). If the remaining amount of the battery 1 is not larger than Tb in step P3, it is determined whether the remaining amount of the battery 1 is larger than Tc (step P5). As a result of this determination, the battery 1
If the remaining amount is larger than Tc, the control unit 6 causes the moving image reproducing unit 9 to reproduce the moving image data at the C frame rate (frames / second) (step P6). Step P5
In, when the remaining amount of the battery 1 is not larger than Tc, the moving image reproduction unit 9 stops the reproduction of the moving image. Further, in this case, other means for reducing the consumption of the battery 1 may be taken.

As described above, by lowering the frame rate when the remaining battery level is low, a state close to so-called frame-by-frame reproduction is achieved and power consumption can be reduced. Therefore, although the image quality is deteriorated, the reproduction time of the moving image can be extended. In addition, since the user is sure to recognize that the remaining battery level has decreased due to the frame advance state, it is possible to expand the options for what purpose the remaining battery power is used. it can. For example, if the remaining battery level is low, it is possible to make an early decision to stop the playback of the moving image and leave it for using other functions.

As in the first embodiment, although not shown in FIG. 4, the first to nth image processing units shown in FIG. 1 are provided separately from the moving image reproducing unit 9 to change the frame rate. In addition, the number of gradations of image processing can be changed according to the remaining battery level.

Next, another operation example of the image display device of the second embodiment will be described with reference to the flowchart of FIG. Here, A and B are numerical values indicating the frame rate, and have a relationship of A> B. Further, Ta and Tb are values indicating the remaining amount of the battery, and have a relationship of Ta> Tb.
Further, it is assumed that the times set in the timer 7 are T1 and T2, and there is a relationship of T1> T2. First, the moving image reproducing section 9 normally reproduces a moving image at the A frame rate (frames / second) (step Q1). The control unit 6 determines whether the remaining amount of the battery 1 is larger than Ta based on the data indicating the remaining amount of the battery input from the remaining battery amount detecting unit 2 (step Q2). As a result of this determination, when the remaining amount of the battery 1 is larger than Ta, the process ends and the reproduction of the moving image at the A frame rate is continued. On the other hand, when the remaining amount of the battery is not larger than Ta, it is determined whether the remaining amount of the battery 1 is larger than Tb (step Q3). When the remaining amount of the battery 1 is larger than Tb, the time T1 is set in the timer 7 (step Q
4) When the time T1 has elapsed, the control unit 6 causes the moving image reproduction unit 9 to reproduce the moving image at the B frame rate (step Q5). On the other hand, in step Q3, when the remaining amount of the battery is not larger than Tb, the timer 7 is set to the time T2 (step Q6), and when the time T2 elapses, the control unit 6 causes the moving image reproducing unit 9 to operate. On the other hand, the moving image is reproduced at the B frame rate (step Q5).

As described above, the remaining amount of the battery is the reference value (T
When it is lower than a), the moving image is played back at the maximum frame rate (A) at the time when the moving image data is input, and when the time (T1, T2) set in the timer has elapsed,
A moving image is reproduced at a frame rate (B) lower than the frame rate. As a result, the user recognizes that the moving image is being played back frame by frame when the time set in the timer has elapsed. As a result, the user can be effectively informed that the remaining battery level has decreased.

In addition, the control unit 6 controls the detected battery 1
When the remaining amount is less than the reference value, it is possible to cause the moving image reproducing unit 9 to reproduce the moving image data until the time set in the timer 7 elapses.

As a result, the reproduction of the moving image is stopped when the time set in the timer 7 has elapsed. As a result, the user can play the moving image within the time set in the timer 7, and the playing of the moving image stops at the set time, so that the remaining amount of the battery 1 becomes equal to or less than the reference value. You can know for sure. Also, since the reproduction of the moving image is stopped when the time set in the timer 7 is reached, it is possible to reduce the power consumption and use the remaining battery 1 for other purposes.

In addition, the control unit 6 controls the detected battery 1
When the remaining amount is less than the reference value, only the first one screen of the moving image data input to the moving image reproducing unit 9 can be reproduced.

As a result, an appropriate moving image cannot be reproduced. However, of course, when receiving a video clip of about a few seconds, it is of course sufficient if it is played completely as a video, but what screen do you try to send even if you can see the first screen even if it is not played completely? Since it is possible to know roughly, it can be said that the approximate purpose may be achieved even with only the first screen,
In this embodiment, only the first one screen is reproduced. As a result, the user can surely know that the remaining amount of the battery 1 has become equal to or less than the reference value. Further, since the moving image is not reproduced, the power consumption can be reduced and the remaining battery 1 can be used for other purposes.

The timer 7 can change the time setting according to the detected remaining battery level. This makes it possible to create a usage state in which the power consumption decreases as the remaining battery power decreases. As a result, it is possible to reduce power consumption and use the remaining battery for other purposes.

[0053]

As described above, the image display device of the present invention includes an input section for inputting image data, and a plurality of image processing sections for converting the input image data into different gradation numbers. An image display unit that displays the image processed by the image processing unit, a battery remaining amount detection unit that detects the remaining amount of the battery, and a battery remaining amount that is detected by the battery remaining amount detection unit. It is characterized by further comprising: a control unit that selects any one image processing unit from a plurality of image processing units and causes the image display unit to display the image data image-processed by the selected image processing unit.

In this way, the remaining amount of the battery is detected, and the number of gradations in image processing is selected according to the detected remaining amount. As a result, it is possible to perform image processing with the number of gradations according to the remaining battery level. For example, when the battery level becomes low
It is possible to reduce the operating rate of U and save the battery. Further, by decreasing the number of gradations in the image processing when the remaining battery level is low, the user can recognize the deterioration of the image quality, and as a result, can know that the remaining battery level is low. Therefore, it is not necessary to provide a mark or the like for displaying the remaining amount of the battery, and the screen can be effectively used. This is especially effective when the screen is small, such as in a mobile phone.

[Brief description of drawings]

FIG. 1 is a block diagram showing a schematic configuration of an image display device according to a first embodiment.

FIG. 2 is a flowchart showing an operation example of the image display device.

FIG. 3 is a flowchart showing another operation example of the image display device.

FIG. 4 is a block diagram showing a schematic configuration of an image display device according to a second embodiment.

FIG. 5 is a flowchart showing an operation example of the image display device.

FIG. 6 is a flowchart showing another operation example of the image display device.

[Explanation of symbols]

100, 200 image display device 1 battery 2 Battery level detector 3 Image data input section 4 Image processing section 4-1 ... 4-n 1st to n-th image processing units 5 Image display section 6 control unit 7 timer 9 Video playback section

─────────────────────────────────────────────────── ─── Continued Front Page (51) Int.Cl. ⁷ Identification Code FI Theme Coat (Reference) G09G 3/20 660 G09G 3/20 680S 680 3/34 J 3/34 5/18 5/18 H04N 5 / 57 H04N 5/57 5/63 Z 5/63 G09G 5/00 520A

Claims (10)

[Claims] 1. An input unit for inputting image data, a plurality of image processing units for converting the input image data into different numbers of gradations, and an image for displaying an image processed by the image processing unit. A display unit, a battery remaining amount detection unit that detects the remaining amount of the battery, and one of the image processing units from the plurality of image processing units according to the battery remaining amount detected by the battery remaining amount detection unit. An image display device, comprising: a control unit that causes the image display unit to display image data that has been selected and image-processed by the selected image processing unit. 2. The control unit further comprises a timer for setting time and counting elapsed time, wherein the controller, when the detected remaining amount of the battery is lower than a reference value, a time point when the image data is input. Then, an image processing unit that performs image processing with a high gradation number including the maximum gradation number is selected, and when the time set in the timer has elapsed, image processing with a gradation number lower than the gradation number is performed. The image display device according to claim 1, wherein an image processing unit that performs the operation is selected. 3. The image display unit includes a backlight, and the control unit changes the brightness of the backlight based on the detected remaining battery level. 1. The image display device according to 1. 4. An input unit for inputting moving image data, a moving image reproducing unit capable of converting the input moving image data into a plurality of frame rates, and an image display unit for displaying an image processed by the moving image reproducing unit. A battery remaining amount detecting unit that detects a remaining amount of the battery; and, according to the detected remaining amount of the battery, one frame rate is selected from a plurality of frame rates that can be reproduced by the moving image reproducing unit, and the selection is performed. An image display device, comprising: a control unit that causes the moving image reproduction unit to reproduce the moving image data at the frame rate and displays the reproduced data on the image display unit. 5. A timer for setting time and counting elapsed time is further provided, wherein the control unit causes the moving image reproducing unit to cause the timer to operate when the detected remaining battery level is lower than a reference value. The image display device according to claim 4, wherein the moving image data is reproduced until a set time has elapsed. 6. The control unit causes the moving image reproducing unit to reproduce only the first one screen of the input moving image data when the detected remaining amount of the battery is lower than a reference value. The image display device according to claim 5. 7. The image display device according to claim 2, wherein the timer is capable of changing the setting of the time according to the detected remaining battery level. 8. A step of inputting image data, a step of detecting a remaining amount of a battery, and a step of converting the input image data into a different number of gradations in accordance with the detected remaining amount of the battery. An image display method comprising: a step of selecting any one image processing from a plurality of image processing; and a step of displaying image data image-processed by the selected image processing. 9. A process of inputting image data, a process of detecting a remaining battery level, and converting the input image data into different numbers of gradations in accordance with the detected remaining battery level. An image display program for causing a computer to execute a process of selecting any one of a plurality of image processes and a process of displaying image data image-processed by the selected image process. 10. A computer-readable recording medium on which the image display program according to claim 9 is recorded.