JP5664006B2 - Light source control device and program - Google Patents

Description

  The present invention relates to a light source control device and a program.

  As this type of technology, for example, in Patent Document 1, a person is detected for a certain period of time by a human sensor such as a pyroelectric infrared sensor in a predetermined area in front of a display screen of a display device such as a liquid crystal television. If not, a technology to control the light source of the display device to control the light source of the display device to put it in a power saving state such as dimming the screen of the display device or putting the display device in a standby state. It is disclosed.

JP 2007-31259 A

  However, in the technique of Patent Document 1 described above, a person (appreciator) who appreciates an image displayed on the display device may be in a place where the human sensor does not detect it. Even if the viewer is in a place where the motion sensor is detected, the viewer may not be detected due to erroneous detection of the motion sensor. In such a case, if the display device does not detect the viewer, for example, the image becomes unnecessarily dim even though there is a viewer when the viewer shifts to the power saving state. , I feel stress when viewing images.

  The present invention has been made in view of the above points, and provides a light source control device and program capable of reducing or eliminating the stress associated with appreciating an image of a viewer even during power saving. With the goal.

A light source control device according to a first aspect of the present invention provides:
A light source control device including a control unit that displays an original image or a processed image obtained by performing image processing on the original image on a display unit,
The image processing includes at least processing for changing the style of the original image into a plurality of types of styles ,
The brightness of the processed image is brighter than the brightness of the original image,
The control unit controls a light source used for displaying the original image or the processed image provided in the display unit based on a difference between a brightness of the original image and a brightness of the processed image. Adjusting the luminance of the light source so that the luminance of the light source is lower when displaying the processed image on the display unit than when displaying the original image on the display unit ;
A power saving mode is provided, and in the power saving mode,
The control means automatically selects the type of style with a large difference in brightness as the type of style with a large power saving effect .

The program according to the second aspect of the present invention is:
In the computer of the light source control device with power saving mode ,
A program for performing a control step of displaying an original image or a processed image obtained by performing image processing on the original image on a display unit,
The image processing includes at least processing for changing the style of the original image into a plurality of types of styles ,
The brightness of the processed image is brighter than the brightness of the original image,
In the control step, the light source used for displaying the original image or the processed image provided in the display unit is controlled based on the difference between the brightness of the original image and the brightness of the processed image. Adjusting the luminance of the light source so that the luminance of the light source is lower when displaying the processed image on the display unit than when displaying the original image on the display unit ;
During the power saving mode,
The control step is characterized in that the style type with a large difference in brightness is automatically selected as a style with a large power saving effect .

  According to the light source control device and the program according to the present invention, it is possible to reduce or eliminate the stress associated with viewing the image of the viewer even during power saving.

(A) It is the schematic which showed the example in which the light source control apparatus which concerns on one Embodiment of this invention operate | moves in normal display mode, when there is a viewer in front of a display part. (B) It is the schematic which showed the example in which the light source control apparatus which concerns on one Embodiment of this invention operate | moves in normal display mode when there is no viewer in front of a display part. It is a block diagram of the light source control apparatus which concerns on one Embodiment of this invention. It is the block diagram which showed the hardware constitutions of the light source control apparatus which concerns on one Embodiment of this invention. It is the flowchart which showed the light source control process which the light source control apparatus which concerns on one Embodiment of this invention performs. 5 is a flowchart illustrating image processing performed in a slide show data generation process in the light source control process of FIG. 4. It is the flowchart which showed the normal display process in the light source control process of FIG. It is the flowchart which showed the power saving display process in the light source control process of FIG. It is the figure which showed the data structure of slide show data. (A) It is the figure which showed the display mode of the display panel in case a viewer exists in the area | region discriminated that there is a viewer, and the area | region which is not so, respectively. (B) It is the figure which showed the display mode of the display panel in case a viewer exists in the area | region where it is not discriminated that there is a viewer. (C) It is the figure which showed the display mode of the display panel in case a viewer exists in the area | region discriminated that there is a viewer.

  An embodiment according to the present invention will be described with reference to the drawings.

  First, the outline of the light source control device according to the present embodiment will be described with reference to FIG. The light source control device 1 according to the present embodiment is a digital photo frame. The light source control device 1 performs a so-called slide show display in which images are sequentially displayed on the display panel 32 at regular intervals (for example, 10 seconds). The light source control device 1 displays a photographic image (an example of an original image) or an image obtained by performing image processing on a photographic image (hereinafter referred to as a processed image) on the display panel 32 during slide show display. Details of the image processing will be described later.

  At this time, the light source control device 1 determines whether or not there is a viewer in front of the display panel 32 based on information in front of the display panel 32 (forward information) acquired by the imaging unit 40a and the sensor unit 40b. . When it is determined that there is no viewer, the light source control device 1 performs display in the power saving mode. In this power saving mode, the light source control device 1 reduces the luminance of the light source that illuminates the display panel 32 from the back by a predetermined amount compared to the normal display. As a result, the power consumption of the light source is reduced, so that power saving is realized. Further, the light source control device 1 displays the processed image when in the power saving mode.

  As described above, for example, as shown in FIG. 1A, when there is a viewer in front of the display panel 32, a photographic image is displayed on the display panel 32. On the other hand, as shown in FIG. 1B, when there is no viewer in front of the display panel 32 (in the power saving mode), the processed image is displayed on the display panel 32. As described above, the viewer may be in a place where it is not detected by the human sensor. In addition, a passing viewer may appreciate an image on the display device.

  As will be described in detail later, the brightness of the processed image (the brightness that the image has on the image data) is brighter than the brightness of the original photo image (the brightness that the image has on the image data). Even when the brightness of the light source 30a is reduced to some extent when displaying the processed image, the brightness of the processed image on the display panel 32 does not become extremely dark. For this reason, in the display in the power saving mode, the display as described above is performed, thereby reducing or eliminating the stress associated with viewing the image of the viewer even during power saving.

  Next, the configuration of the light source control device 1 will be described with reference to FIGS. 2 and 3. The light source control device 1 includes a control unit 10, a storage unit 20, a display unit 30, a front information acquisition unit 40, an input unit 50, and a read / write unit 60.

  The control unit 10 controls each part of the light source control device 1 and controls the entire light source control device 1. Moreover, the control part 10 performs the below-mentioned light source control process. The control unit 10 is realized by the CPU 11 and the primary storage device 12, for example. The CPU 11 controls the entire light source control device 1 according to the light source control program 21 a loaded from the secondary storage device 21 to the primary storage device 12. In particular, the CPU 11 performs light source control processing performed by the control unit 10 in accordance with the light source control program 21a. The primary storage device 12 is configured by a RAM (Random Access Memory) or the like. The primary storage device 12 appropriately stores data used by the CPU 11 and generated data. The control unit 10 may include an ASIC (Application Specific Integrated Circuit), a DSP (Digital Signal Processor), and the like. In this case, ASIC, DSP, etc. shall perform at least one part of the process which CPU11 performs.

  The storage unit 20 is realized by the secondary storage device 21, for example. The secondary storage device 21 is configured by a flash memory or a hard disk. The secondary storage device 21 appropriately stores image data representing various images (photographic images and processed images) used by the control unit 10 in a light source control process described later. Further, the secondary storage device 21 appropriately stores various image data generated by the control unit 10 during processing, recorded image data read from the recording medium 100 by the read / write unit 60, and the like. The secondary storage device 21 stores a light source control program 21a. The CPU 11 loads the light source control program 21 a recorded in the secondary storage device 21 into the primary storage device 12, and performs light source control processing described later based on the light source control program 21 a loaded into the primary storage device 12.

  The display unit 30 displays various images (photo images and processed images) on the display screen under the control of the control unit 10. The display unit 30 includes, for example, a light source 30a, a display panel drive circuit 31, a display panel 32, and a light source drive circuit 33 included in the display device.

  The light source 30a is driven by the light source driving circuit 33 and illuminates the display panel 32 from the surface opposite to the display surface. The display panel 32 is driven by the display panel drive circuit 31, and displays various images (photographic images or processed images) by transmitting or not transmitting light emitted from the light source 30a for each pixel. The light source drive circuit 33 can control the light emission luminance of the light source 30a. For this reason, the light source drive circuit 33 can control the brightness of various images by controlling the light emission luminance of the light source 30a.

  The light source driving circuit 33 drives the light source 30a and adjusts the luminance of the light source 30a under the control of the CPU 11.

  The light source 30a is configured by a backlight including, for example, a light emitting element such as a light emitting diode and a light guide member that guides light emitted from the light emitting element and illuminates the display panel 32 in a planar shape. Here, the light emitting element is driven by the light source driving circuit, and the luminance of the light source 30a is adjusted by the luminance of the light emitted from the light emitting element.

  The display panel drive circuit 31 drives the display panel 32 under the control of the CPU 11.

  The display panel 32 is configured by a liquid crystal display panel, for example. The display panel 32 is driven by the display panel drive circuit 31 and is used to display various images.

  In the present embodiment, with such a configuration, the control unit 10 controls the display panel 32 and the light source 30a of the display unit 30 (in this case, through the respective drive circuits), whereby the display unit Various images (photograph images or processed images) are displayed on 30 and the luminance of the light source 30a is adjusted.

  The front information acquisition unit 40 acquires information (forward information) for determining whether or not there is a viewer in front of the display screen (display panel 32) of the display unit 30 under the control of the control unit 10, The acquired forward information is supplied to the control unit 10. The front information acquisition unit 40 includes, for example, an imaging unit 40a and a sensor unit 40b, thereby acquiring front information.

  As shown in FIG. 1, the imaging unit 40 a is provided in the center of the upper side of the display unit 30. Under the control of the control unit 10, the imaging unit 40 a captures a captured image as forward information by capturing an image in front of the display screen of the display unit 30 (light emission direction on the display screen). This is supplied to the control unit 10. The imaging unit 40a captures an image under the control of the CPU 11, such as a CCD (Charge Coupled Device) image sensor or a CMOS (Complementary Metal Oxide Semiconductor) image sensor, and an imaging signal generated when the imaging device captures an image. AFE (Analog Front End) that generates digital data by performing processing, DSP (Digital Signal Processor) that processes the digital data generated by the AFE to generate image data that represents a captured image, and supplies the image data to the CPU 11 It implement | achieves by the imaging device 41 provided with. With such a configuration, the control unit 10 causes the imaging unit 40a to perform imaging, and acquires a captured image as front information. The process performed by the DSP may be performed on the control unit 10 side.

  The sensor part 40b is provided in the center of the lower side part of the display part 30, as shown in FIG. The sensor unit 40b is configured by a human sensor 42 of a pyroelectric infrared sensor. Under the control of the control unit 10, the sensor unit 40b detects the presence or absence of a person in the sensing area in front of the display screen of the display unit 30. The sensor information indicating the presence or absence of is acquired (generated) as forward information, and this is supplied to the control unit 10. For example, the sensor unit 40 b generates a sensor signal indicating the presence or absence of a person, acquires sensor data generated based on the generated sensor signal as front information, and supplies this to the control unit 10.

  The input unit 50 is an operation unit that receives an operation of a user who uses the light source control device 1, and is realized by, for example, the input device 51 including various operation keys such as a power key and an operation key for performing a slide show display reproduction operation. . The input unit 50 supplies an operation signal corresponding to the content of the accepted operation to the control unit 10.

  The read / write unit 60 is realized by a read / write device 61 including a card slot and the like, and records various image data on the recording medium 100 and reads various image data from the recording medium 100 under the control of the control unit 10. . That is, the control unit 10 reads / writes data from / to the recording medium 100 via the reading / writing unit 60.

  The recording medium 100 records various image data and the like. The recording medium 100 is realized by a flash memory type memory card 101 or the like. Examples of the memory card 101 include an SD memory card that records data.

  Here, the post-processing image displayed on the display panel 32 by the control unit 10 will be described. The processed image is an image obtained by performing predetermined image processing on a photographic image (original image). This predetermined image processing includes image conversion processing for changing the style of a photographic image to be processed. Such image conversion processing includes, for example, processing for converting a photographic image (original image) into a painting-like image (painting-like image). Specifically, the control unit 10 changes the various parameters (parameters such as brightness, contrast, color density, hue, and sharpness) included in the photographic image data representing the photographic image (original image). The photographic image data is subjected to image conversion processing into painting-like image data representing a painting-like image drawn by touching a painting. The image conversion process includes, for example, a process using various filters used in Photoshop (registered trademark). In such an image conversion process, according to the type of painting of the processed image to be converted, for example, expression of texture or color tone having characteristics of this type of painting is performed. The brightness of the entire image is brighter than the previous image. In particular, an image conversion process that changes the style of painting to a type of painting such as pastel, stipple, airbrush, watercolor, and colored pencil makes the brightness of a painting-like image remarkably bright.

  Here, the brightness of the photographic image and the brightness of the processed image are the brightness of the image, respectively. The brightness of an image is the brightness that the image has on the image data, and does not mean the brightness of the display image when the image is actually displayed on the display panel 32. This brightness is represented, for example, by an average luminance value calculated based on the image data of the image. This average luminance value is, for example, an average of luminance (Y) values for all pixels on the YUV data when the image data representing the image is YUV (Y: luminance, UV: color difference) data. (Average metering method). The average luminance value may be calculated by a method such as a center-weighted metering method that calculates the average luminance of the central portion of the image, or a spot metering method that calculates the average luminance of a specific portion of the image. It is assumed that the average photometry method is used. Note that the brightness of an image becomes brighter as the average luminance value of the image increases. That is, the average luminance value of the processed image is larger than the average luminance value of the photographic image.

  For example, the average luminance value of a picture-like image is larger than the average luminance value of a photographic image (original image). Note that the average luminance value of the painting-like image varies depending on the type of painting of the converted painting-like image. For example, when the average luminance value of a photographic image is “91”, the average luminance value of a painting-like image obtained by converting the photographic image according to the type of painting is “205” when the type of painting is pastel. “193” for stipple, “191” for airbrush, “188” for watercolor, “180” for colored pencil, “105” for Gothic oil, “102” for oil .

  The post-processed image that has been subjected to the image conversion process as described above has a brighter brightness than the photographic image. Therefore, the control unit 10 displays the brightness of the light emitted from the light source 30a at the same level when displaying the photographic image on the display panel 32 and when displaying the processed image on the display panel 32. When the panel 32 is illuminated, the brightness of the display panel 32 displaying an image is brighter when the processed image is displayed on the display panel 32 than when the photographic image is displayed on the display panel 32. . Here, the brightness of the display panel 32 refers to the luminance (display luminance) of light emitted from the display panel 32 when an image is displayed on the display panel 32. Here, this luminance refers to the luminance of the entire display panel 32, but this luminance corresponds to the image portion in the method used depending on the method used in the calculation of the average luminance value. The luminance of the area on the display panel 32 may be used.

  When the processed image is displayed on the display panel 32 in the power saving mode, the control unit 10 determines the brightness of the light emitted from the light source 30a so that the luminance of the light source 30a is lower than when the photographic image is displayed on the display panel 32. Adjust the height. Thereby, the power consumption of the light source 30a can be suppressed. Since the processed image has a brightness (image luminance) that is higher than that of the photographic image, even when the luminance of the light source 30a is adjusted as described above when the processed image is displayed on the display panel 32. The brightness (display brightness) on the display panel 32 does not become extremely dark compared to the brightness on the display panel 32 when a photographic image is displayed on the display panel 32.

  In addition, the control part 10 WHEREIN: The display brightness when displaying the image after a process in power saving mode, and the display brightness when displaying a photographic image are in a predetermined range (same level (including the same)). Thus, it is desirable to adjust the luminance of the light source 30a. As a result, when the processed image is displayed, a display brightness comparable to the display brightness when the photographic image is displayed is secured, so that the above-mentioned discomfort that the viewer feels is less or less. In such a case, the control unit 10 calculates a difference indicating the degree of difference between the brightness of the photographic image and the brightness of the processed image of the photographic image, and displays each image based on the calculated difference. The luminance of the light source 30a (light source luminance) is adjusted so that the display luminances at the same time are approximately the same. The degree of difference is represented by, for example, a difference (or ratio) between average luminance values of the respective images.

  The control unit 10 calculates an average luminance value for the photographic image and the processed image of the photographic image, and calculates the difference (or ratio) between the calculated average luminance values as the degree of difference between the photographic image and the processed image. Use. The control unit 10 acquires the target luminance, which is the light source luminance when displaying the processed image, by referring to a correspondence table stored in advance in the storage unit 20 or the like based on the degree of difference. In this correspondence table, the degree of difference and the target luminance are recorded in association with each other. The target brightness is the target brightness when the processed image is displayed in the power saving mode so that the display brightness is the same when each of the two images having a predetermined difference is displayed. Are basically associated with each degree of difference with different values and recorded in the correspondence table. The target brightness is set so as to decrease as the degree of difference increases (basically a proportional relationship). That is, as the degree of difference increases, the power consumption of the light source 30a is suppressed. When displaying the processed image in the power saving mode, the control unit 10 refers to such a correspondence table and adjusts the luminance of the light source 30a so that the target luminance corresponding to the degree of difference is obtained. Thereby, the brightness (display luminance) of the display panel 32 can be made substantially the same when the photographic image is displayed on the display panel 32 and when the processed image is displayed on the display panel 32. This adjustment is performed, for example, by controlling the voltage applied to the light emitting element of the light source 30a. If the applied voltage is large, the light source luminance is also increased. The target brightness may be acquired by the control unit 10 by substituting the degree of difference (previously stored in the storage unit 20 or the like) into a predetermined relational expression. As described above, the light source control device 1 suppresses power consumption of the light source 30a and reduces or eliminates stress for the viewer when the processed image is displayed on the display panel 32 in the power saving mode. It is assumed that the light source luminance (reference luminance) when displaying a photographic image is uniformly set in advance and stored in the storage unit 20 or the like. When the photographic image is displayed, the control unit 10 adjusts the light source luminance so that the reference luminance is obtained. The reference brightness is naturally higher than the target brightness.

  As a process different from the above-described image conversion process, there is also a process (a process such as gamma correction) in which the brightness of the image is increased as a result without changing the style of the photographic image. When such a process is performed on the photographic image and the image obtained thereby is displayed on the display panel 32, the luminance of the light source is adjusted to be darker than when the photographic image is displayed. The same effect as described above may be obtained. However, an image that has been subjected to such processing has a region in which the luminance value is saturated on the image, so that the contrast of the image before processing is lost, and the image quality may be deteriorated as compared to a photographic image. Therefore, a viewer who appreciates such an image is worried about the deterioration of the image quality and feels uncomfortable (stress). On the other hand, the processed image in the present embodiment is different from the photographic image (original image) in the style of painting, and the viewer is not particularly aware of the deterioration of the image quality in the first place. Does not occur. Thereby, for example, when there is a viewer who is away from the display panel 32, or there is a viewer in front of the display panel 32, it is determined that there is no viewer due to erroneous determination of the control unit 10. In some cases, even if there is a viewer who views the processed image displayed on the display panel 32 in the power saving mode, the processed image is different in style from the photograph image (original image). Is not particularly aware of image quality degradation. For this reason, from this point of view, according to the present embodiment, it is possible to reduce or eliminate the stress associated with viewing the image of the viewer even during power saving.

  The post-processing image obtained by the above-described image conversion processing may not be sufficiently bright because the original photographic image is originally dark or the degree of difference from the photographic image is small. In this case, the display brightness of the processed image displayed in the power saving mode is low, and the image is displayed darkly. Therefore, in such a case, as a process included in the image processing, a correction process (gamma correction or the like) having an effect of further increasing the brightness of the processed image is performed on the processed image, so that the image is displayed darkly. To prevent it. As a result, there is little or no stress on the viewer. According to such processing, degradation in image quality is unavoidable, but as described above, since the style of the processed image is changed, the degradation in image quality is not a concern. For this reason, even if such processing is performed, there is little or no stress on the viewer. In addition, the degree of difference between the photographic image and the processed image after correction processing (corrected painting-like image) can be increased by the processing as described above. As a result, the degree of suppression of power consumption can be increased, and greater power saving can be expected.

  On the other hand, when the brightness of the processed image is sufficiently bright, for example, when the average luminance value of the processed image approximates “255”, which is the maximum luminance value of the image, the above correction processing is applied to the processed image. Even if it is applied, the luminance value of each pixel of the image further approaches “255”, so that the image after the correction process may be completely white, and the image may be broken.

  In view of such circumstances, even when the degree of difference is small, the control unit 10 does not sufficiently brighten the processed image obtained by the image conversion process (the brightness does not satisfy a predetermined criterion). Correction process). The correction processing includes, for example, gamma correction, level correction, and the like, but any correction processing that further increases the average luminance value of the picture-like image may be used. This prevents image corruption.

  Next, the operation of the light source control device 1 will be described with reference to FIG. It is assumed that data necessary for the following operations are recorded in the storage unit 20 or the recording medium 100, and the control unit 10 acquires and uses necessary data at an appropriate timing.

  A user who uses the light source control device 1 performs an operation of turning on the light source control device 1 using the input unit 50. When the power source of the light source control device 1 is turned on, the control unit 10 starts the light source control process. In this light source control process, a slide show for displaying an image (a photographic image or a processed image) is performed at each slide show display timing.

  First, the control unit 10 sets the number n indicating the display order of the slide show displayed on the display screen (display panel 32) of the display unit 30 to n = 0 (step S10). Subsequently, the control unit 10 determines whether or not to turn off the light source control device 1 (step S11). When the control unit 10 receives an operation signal corresponding to an operation of turning off (turning off) the light source control device 1 from the input unit 50, or the power is turned off in a power saving display process (see FIG. 7) described later. If set (step S186 in FIG. 7), it is determined that the power source of the light source control device 1 is turned off (step S11; YES). In this case, the control unit 10 ends the light source control process and turns off the power of the light source control device 1.

  On the other hand, the control unit 10 determines that the power source of the light source control device 1 is not turned off when the operation signal is not received or the power-off is not set (step S11; NO), and slide show data ( It is determined whether or not (slide show data) is recorded in the storage unit 20 or the recording medium 100 (step S12). As will be described in detail later, the slide show data is slide show data displayed on the display panel 32, and one or more slide image data (used for slide display) representing each image displayed at each slide show display timing. Image data).

  When it is determined that slide show data is not recorded (step S12; NO), the control unit 10 determines whether slide information necessary for generating slide image data has been selected and determined (step S13). ). The slide information includes a photographic image that is displayed as a slide show and is a material (original image) on which image processing (image conversion processing) is performed, and a painting type (pastel, image) that represents the content of the image processing (image conversion processing). (Stipple, airbrush, watercolor, colored pencil, gothic oil, oil, etc.).

  Specifically, the control unit 10 displays a list of photographic images which are images of image data recorded in the storage unit 20 or the recording medium 100 and can be displayed on the display panel 32 on the display unit 30. In addition, the control unit 10 displays a list of painting types on the display unit 30. The user confirms each list displayed on the display unit 30 and uses the input unit 50 to perform an operation of selecting one or more sets of photographic images and painting types. The user may select the same painting type for all the selected photographic images, or may select the painting type for each photographic image.

  The user uses the input unit 50 to select one or more pieces of slide information and performs an operation of determining when the selection is completed. In response to this operation, the input unit 50 supplies an operation signal corresponding to an operation for selecting and determining slide information to the control unit 10. Upon receiving this operation signal from the input unit 50, the control unit 10 determines that the slide information has been selected and determined (step S13; YES), and performs slide show data generation processing described later based on this (step S14). .

  On the other hand, when the control unit 10 does not receive the operation signal from the input unit 50, the control unit 10 returns to step S11 and performs the same process as described above (step S13; NO). That is, if the control unit 10 determines in step S12 that slide show data is not recorded (step S12; NO), the power is turned off (step S11; NO), or slide information is determined. (Step S13; YES), a standby state is entered. On the other hand, if the control unit 10 determines in step S12 that slide show data is recorded, the control unit 10 proceeds to step S15.

  A slide show data generation process (step S14) performed by the control unit 10 will be described. The control unit 10 performs the following image processing shown in FIG. 5 using each piece of slide information (a set of photographic images and painting types) selected by the user. The control unit 10 repeatedly performs the following image processing for each piece of slide information, and performs this image processing for all pieces of slide information. For example, the control unit 10 performs image processing on the slide information in the same order as the order selected by the user.

  Based on the photographic image represented by the slide information and the type of painting, the control unit 10 performs the above-described image conversion processing to generate a painting-like image (step S141).

  The control unit 10 calculates the average luminance value of the generated painting-like image (step S142), and determines whether or not the calculated average luminance value of the painting-like image is greater than or equal to a preset threshold value (step S143). ). For example, the threshold value is set to a luminance value “178” that is 70% of the maximum luminance value “255” of the image. This threshold value is a criterion for determining whether or not the brightness of the processed image (painted image) is sufficiently bright (whether or not a predetermined criterion regarding brightness is satisfied).

  When the average luminance value of the painting-like image is equal to or greater than the threshold value “178” (step S143; YES), the control unit 10 determines that the processed image (painting-like image) is sufficiently bright. The image is used as a processed image (step S144).

  The control unit 10 displays the photographic image (slide information photographic image) before image processing when the painting-like image displayed on the display panel 32 is displayed on the display panel 32 for the painting-like image set as the processed image. The target luminance, which is the light source luminance that is approximately the same as the display luminance at the time of setting, is obtained (step S145). As described above, the control unit 10 calculates an average luminance value for a photographic image and a painting-like image (processed image), and calculates the difference (or ratio) between the calculated average luminance values as a photographic image and a painting-like image. Used as the degree of difference. The control unit 10 refers to the correspondence table stored in the storage unit 20 or the like and acquires the target luminance corresponding to the degree of difference. Thereafter, the control unit 10 performs the process of step S149.

  On the other hand, when the average luminance value of the painting-like image is less than the threshold value “178” in step S143 (step S143; YES), the control unit 10 determines that the painting-like image is not sufficiently bright, and the correction described above. Processing (gamma correction or the like) is performed on the painting-like image to generate a corrected painting-like image (step S146), and this corrected image is used as the processed image (step S147). Note that the type of correction and the like are set in advance.

  The control unit 10 displays a photographic image (slide information photographic image) before the image processing with respect to the corrected pictorial image set as the post-processing image when the corrected pictorial image is displayed on the display panel 32. A target luminance, which is a light source luminance that is comparable to the display luminance when the panel 32 is used, is obtained (step S148). As described above, the control unit 10 calculates an average luminance value for the photographic image and the corrected pictorial image (processed image), and calculates the difference (or ratio) between the calculated average luminance values as the photographic image and the corrected pictorial image. Used as the degree of difference from the image. The control unit 10 refers to the correspondence table stored in the storage unit 20 or the like and acquires the target luminance corresponding to the degree of difference. Thereafter, the control unit 10 performs the process of step S149.

  In step S149, the control unit 10 obtains the photographic image data representing the photographic image represented by the slide information and the reference luminance data described above (the luminance of the light source 30a when displaying the photographic image, the storage unit This data is recorded in 20 and acquired by the control unit 10.), and the painting-like image data representing the painting-like image or the correction representing the corrected painting-like image used as the post-processed image subjected to the image processing described above. The painting-like image data and the target luminance data acquired above are associated with each other and recorded in the storage unit 20 (step S149). Hereinafter, such data is collectively referred to as slide image data.

  The control unit 10 performs the image processing on all pieces of slide information (a set of a photographic image and a painting type). At the end of all image processing, each of the slide image data is further recorded in the storage unit 20 in association with display order data representing the display order (order number) of the images in the slide show. Is generated. The slide show display order is the order in which slide information is selected (that is, the order of slide information that has undergone image processing), the degree of difference between the photographic image and the processed image (difference in average luminance value, etc.), Alternatively, the control unit 10 generates the data in the display order and records it in the storage unit 20. The contents of the slide show data are shown in FIG.

  Returning to FIG. 4, when the slideshow data is generated (after step S14) or when it is determined that slideshow data is recorded in step S12 (step S12; YES), the control unit 10 displays the slideshow. The number indicating the order is set as n = n + 1 (n = 1) (step S15), and it is determined whether or not it is the slideshow display timing (step S16). The slideshow display timing is a timing at which the slideshow image displayed on the display panel 32 is switched to the next image, and here, every 10 seconds.

  Since the slide show has not yet started in step S16 that has arrived first, the control unit 10 determines that it is the slide show display timing in order to start the slide show (step S16; YES). At this time, the control unit 10 starts timing with a predetermined timer (not shown), and in step S16 that has arrived after the second time, whether or not it is the display timing depending on whether or not the time measured is the display timing time. To determine. If it is not the slideshow display timing (step S16; NO), the control unit 10 returns to step S11 and performs the same processing as described above. When the time measured is the time of the display timing, the control unit 10 performs the process of step S17 when determining that it is the display timing (step S16; YES).

  Next, the control unit 10 determines whether or not the processed image is currently displayed on the display panel 32 (step S17), and if the processed image is not displayed on the display panel 32 (step S17; NO). Then, normal display processing is performed (step S18). On the other hand, if the processed image is displayed on the display panel 32 (step S17; YES), the control unit 10 performs a power saving display process (step S19).

  In this manner, the control unit 10 performs normal display processing (step S18) or saves slide image data corresponding to the display order (number n) according to the slide show display order (number n) at each slide show display timing. A power display process (step S19) is performed, and a slide show for displaying images (photo images or processed images) on the display panel 32 is performed.

  The normal display process performed by the control unit 10 will be described with reference to FIG. The control unit 10 causes the front information acquisition unit 40 to acquire information ahead of the display unit 30 (forward information), and is there a viewer in front of the display panel 32 based on the front information acquired by the front information acquisition unit 40? Processing to determine whether or not is performed (step S181).

  Specifically, the control unit 10 causes the imaging unit 40a included in the front information acquisition unit 40 to capture an image in front of the display panel 32. The imaging unit 40a captures an image in front of the display panel 32 under the control of the control unit 10, and acquires a captured image (here, photographic image data) obtained by performing a predetermined process on the captured image as forward information. This is supplied to the control unit 10. The control unit 10 receives the captured image of the front information from the imaging unit 40a, and determines whether there is a viewer in front of the display panel 32 based on the captured image.

  For example, the control unit 10 has a face of a predetermined size facing the front in the captured image and the line of sight is facing the front (that is, looking at the light source control device 1 (digital photo frame)). If a face image is shown, it is determined that there is a viewer in front of the display panel 32. If no such face image is shown, it is determined that there is no viewer in front of the display panel 32. The control unit 10 performs an appropriate process such as template matching to detect a face image of a predetermined size or more facing the front from the captured image acquired by the control unit 10 and the detected face. A face image in which the line of sight represented by the image is facing the front is detected. For example, the control unit 10 performs template matching using a template image of a face having a predetermined size or more that faces the front, and faces an image that has a degree of similarity with the template image that is greater than or equal to a predetermined value. It is detected as a face image having a predetermined size or more. Further, the control unit 10 performs template matching on the detected face image using a template image with an eye with a black eye in the center, and an image whose similarity with the template image is greater than or equal to a predetermined value has a line of sight in front. Is detected as an image of the face facing the. Based on these detections, if the above-mentioned face image is reflected in the captured image, the control unit 10 determines that the viewer is in front of the display panel 32, and the above-mentioned face image is reflected in the captured image. For example, it is determined that there is no viewer in front of the display panel 32.

  In addition, the control unit 10 causes the sensor unit 40b included in the front information acquisition unit 40 to detect the presence or absence of a person in the sensing area in front of the display panel 32. Under the control of the control unit 10, the sensor unit 40 b detects the presence or absence of a person in the sensing area, acquires sensor information (here, sensor data) representing the detection result as forward information, and sends this to the control unit 10. Supply. The control unit 10 receives the sensor information of the front information from the sensor unit 40b, and determines whether there is a viewer in front of the display panel 32 based on the sensor information.

  For example, when the detection result represented by the sensor information acquired by the sensor unit 40b is a detection of a person in the sensing area, the control unit 10 determines that there is a viewer in front of the display panel 32. If the person in the sensing area is not detected, it is determined that there is no viewer in front of the display panel 32.

  In this way, the control unit 10 determines whether there is a viewer in front of the display panel 32 using the imaging information and sensor information acquired by the front information acquisition unit 40. When it is determined that there is a viewer in front of the display panel 32 based on at least one of the imaging information and sensor information, the control unit 10 determines that there is a viewer in step S181 (step S181; YES). On the other hand, when it is determined that there is no viewer based on the imaging information and sensor information, it is determined that there is no viewer (step S181; NO). If it is determined YES in step S181, the control unit 10 invalidates the previously set flag (step S183), and if NO is determined in step S181, the control unit 10 sets a flag (step S182). If the control unit 10 continuously determines NO in step S181 that repeatedly arrives, the control unit 10 raises the flag by the continuous amount.

  Subsequently, the control unit 10 determines whether or not the viewer is absent for a certain time (for example, 10 minutes) as a result of performing the above-described processing (step S184). The certain time here is a time used as a reference for whether or not to display the processed image. The control unit 10 makes this determination based on whether or not flags (60) for 10 minutes are set. If the flag for 10 minutes is set, the control unit 10 determines that the viewer is absent for a certain period of time (step S184; YES). It is determined that the person is not present (step S184; NO).

  When it is determined that there is no viewer for a certain period of time (step S184; NO), the control unit 10 refers to the slide show data and includes the photos included in the slide image data with the number corresponding to the number n set in step S15. Image data is acquired, the display unit 30 is controlled based on the acquired photographic image data, and a photographic image represented by the photographic image data is displayed on the display panel 32 (step S185). For example, when the slide show data shown in FIG. 8 is used, when the number n set in step S15 is n = 3, the photographic image C is displayed on the display unit 30.

  At this time, if an image has already been displayed, the control unit 10 erases the image displayed on the display panel 32 (the photographic image of number n-1) by fading out, and fades in. A photographic image corresponding to the number n is displayed on the display panel 32. Fade-in refers to a display mode in which an image displayed on the display panel 32 is gradually projected from a single color state (for example, a black state). Fade out refers to a display mode in which an image displayed on the display panel 32 is erased so as to gradually change to a single color state (for example, a black state). Note that the control unit 10 may perform the fade-out and the fade-in at the same time (cross-fade is performed). As a result, the photographic image corresponding to the number n is gradually projected on the display panel 32, so that no extra stress or the like is given to the viewer.

  At this time, the control unit 10 adjusts the luminance of the light source 30a based on the reference luminance data included in the slide image data with the number corresponding to the number n. The light source 30a illuminates the display panel 32 with the adjusted luminance of the light source 30a. For example, when the number n set in step S15 is n = 3, the luminance of the light source 30a is adjusted to the luminance A (reference luminance), and the light source 30a is displayed on the display panel according to the adjusted luminance A of the light source 30a. 32 is illuminated.

  On the other hand, when it is determined in step S184 that the viewer is absent for a certain time (step S184; YES), the control unit 10 refers to the slide show data and is included in the slide image data with the number corresponding to the number n. The processed image data is acquired, and the display unit 30 is controlled based on the acquired processed image data, and the processed image represented by the processed image data is displayed on the display panel 32 (step S186). For example, when the number n set in step S15 is n = 3, the processed image C ′ is displayed on the display unit 30.

  At this time, in the same manner as described above, the control unit 10 erases the image displayed on the display panel 32 (the photographic image of the number n-1) by fading out and corresponds to the number n by fading in. The processed image (painting-like image or corrected painting-like image) is displayed on the display panel 32. Thereby, the processed image corresponding to the number n is gradually displayed on the display panel 32. By performing the fade-out and the fade-in, the viewer can prevent the viewer from applying extra stress when viewing the image before and after the image display.

  At this time, the control unit 10 adjusts the luminance of the light source 30a according to the target luminance included in the slide image data with the number corresponding to the number n. The light source 30a illuminates the display panel 32 with the adjusted luminance of the light source 30a. For example, when the number n set in step S15 is n = 3, the luminance of the light source 30a is adjusted to luminance 3B (target luminance), and the light source 30a illuminates the display panel 32 with the adjusted luminance 3B. To do. This target luminance (luminance 3B) is lower than the reference luminance (luminance A). Thereby, when displaying a processed image on the display panel 32, the power consumption of the light source 30a can be suppressed.

  Next, a power saving display process (display process in the power saving mode) performed by the control unit 10 will be described with reference to FIG. The control unit 10 determines whether or not there is a viewer in front of the display panel 32 using the imaging information and sensor information acquired by the front information acquisition unit 40 as in the normal display process described above (step S191). The control unit 10 invalidates the previously set flag when it is determined YES in step S191 (step S192), and sets a flag when it is determined NO in step S191 (step S194). If the control unit 10 continuously determines NO in step S191 that repeatedly arrives, the control unit 10 raises the flag by the continuous amount.

  The control unit 10 sets a flag according to the above-described processing (step S191; NO) (step S194), and then determines whether or not the viewer is absent for a certain period (for example, 30 minutes) (step S194). S195). The fixed period here is a time (30 minutes) longer than the reference time (fixed time (10 minutes)) as to whether or not to display the processed image in step S184 of the normal display process described above. This is used as a reference for whether to turn off the power without displaying an image. The control unit 10 performs this determination based on whether or not flags (180) for 30 minutes are set. If the flag for 30 minutes is set, the control unit 10 determines that the viewer is absent for a certain period (step S195; YES). If the flag for 30 minutes is not set, the controller 10 watches for a certain period. It is determined that the person is not present (step S195; NO).

  When it is determined that there is no viewer for a certain period (step S195; NO), the control unit 10 refers to the slide show data, and includes the process included in the slide image data with the number corresponding to the number n set in step S15. After-image data is acquired, the display unit 30 is controlled based on the acquired processed image data, and the processed image represented by the processed image data is displayed on the display panel 32 (step S196). For example, when the slide show data shown in FIG. 8 is used, when the number n set in step S15 is n = 4, the processed image D ′ is displayed on the display unit 30.

  At this time, similarly to the above, the control unit 10 erases the image displayed on the display panel 32 (the photographic image of the number n-1) by fading out, and corresponds to the number n by fading in. The processed image (painting-like image or corrected painting-like image) is displayed on the display panel 32. As a result, the post-process image corresponding to the number n is gradually projected on the display panel 32, so that no extra stress is applied to the viewer.

  At this time, the control unit 10 adjusts the luminance of the light source 30a based on the target luminance data included in the slide image data with the number corresponding to the number n. The light source 30a illuminates the display panel 32 with the adjusted luminance of the light source 30a. For example, when the number n set in step S15 is n = 4, the luminance of the light source 30a is adjusted to the luminance 4B (target luminance), and the light source 30a is displayed on the display panel according to the adjusted luminance 4B of the light source 30a. 32 is illuminated. This target luminance (luminance 4B) is lower than the reference luminance (luminance A). Thereby, when displaying a processed image on the display panel 32, the power consumption of the light source 30a can be suppressed.

  On the other hand, the control unit 10 invalidates the set flag according to the above-described processing (step S191; YES), refers to the slide show data, and corresponds to the number n set in step S15. The photographic image data included in the slide image data of the number to be acquired is acquired, the display unit 30 is controlled based on the acquired photographic image data, and the photographic image represented by the photographic image data is displayed on the display panel 32 ( Step S193). For example, when the slide show data shown in FIG. 8 is used, when the number n set in step S15 is n = 4, the photographic image D is displayed on the display unit 30.

  At this time, in the same manner as described above, the control unit 10 erases the image displayed on the display panel 32 (the processed image of number n-1) by fading out, and corresponds to the number n by fading in. The photographic image to be displayed is displayed on the display panel 32. As a result, the post-process image corresponding to the number n is gradually projected on the display panel 32, so that no extra stress is applied to the viewer.

  At this time, the control unit 10 adjusts the luminance of the light source 30a based on the reference luminance data included in the slide image data with the number corresponding to the number n. The light source 30a illuminates the display panel 32 with the adjusted luminance of the light source 30a. For example, when the number n set in step S15 is n = 4, the luminance of the light source 30a is adjusted to the luminance A (reference luminance), and the light source 30a is displayed on the display panel according to the adjusted luminance A of the light source 30a. 32 is illuminated.

  Moreover, the control part 10 sets the power supply of the light source control apparatus 1 to OFF, when it is discriminate | determined in step S193 that a viewer is absent for a fixed period (step S193; YES) (step S196). That is, in this case, the control unit 10 determines that the light source control device 1 is turned off in step S11 shown in FIG. 4 (step S11; YES), ends the light source control process, and turns on the power source of the light source control device 1. Turn off.

  As described above, the light source control device 1 displays a photographic image on the display panel 32 when a viewer is absent for a certain period of time when a photographic image is displayed on the display panel 32 (normal display mode). Then, the luminance of the light source 30a is adjusted to the reference luminance for displaying the photographic image (normal display mode). That is, the normal display mode is continued by this. For example, as shown in FIG. 9A, a viewer A who is viewing a photographic image displayed on the display panel 32 and a viewer B who is in front of the display panel 32 and is away from the display panel 32. Can view a photographic image displayed on the display panel 32 at the slideshow display timing. A range surrounded by the dotted line shown in FIG. 9 indicates a region where the control unit 10 determines that a viewer is present.

  In addition, when a photographic image is displayed on the display panel 32 (normal display mode), the light source control device 1 displays the processed image on the display panel 32 if the viewer is absent for a certain period of time. The brightness of the light source 30a is adjusted to the target brightness when displaying the processed image (power saving mode). In other words, this shifts the normal display mode to the power saving mode. For example, as shown in FIG. 9B, at the position away from the display panel 32, the viewer B who is viewing the photographic image displayed on the display panel 32 switches to the display panel 32 at the slide show display timing. The processed image displayed can be viewed. Since the brightness of the processed image is brighter than the brightness of the photographic image, even if the luminance (target luminance) of the light source 30a is lower than the reference luminance when the processed image is displayed, the display in which the processed image is displayed. The display brightness of the panel 32 does not extremely decrease (does not darken). In particular, the target brightness acquired in the above-described image processing is approximately the same as the brightness when the photographic image is displayed on the display panel 32 when the processed image is displayed on the display panel 32. The brightness of the can be maintained. As a result, when the processed image is displayed on the display panel 32, it is possible to reduce or eliminate the stress associated with viewing the image of the viewer even during power saving.

  In addition, when the processed image is displayed on the display panel 32 (power saving mode), the light source control device 1 performs post-processing if the viewer is absent for a certain period even if the viewer is absent. The image is displayed on the display panel 32, and the luminance of the light source 30a is adjusted to the target luminance when the processed image is displayed (power saving mode). That is, the power saving mode is continued by this. For example, the viewer B shown in FIG. 9B can view the processed image displayed on the display panel 32 by switching at the slideshow display timing.

  In addition, when the processed image is displayed on the display panel 32 (power saving mode), the light source control device 1 displays a photographic image on the display panel 32 if there is no viewer (if there is a viewer). The brightness of the light source 30a is adjusted to the reference brightness for displaying the photographic image (normal display mode). That is, this shifts the power saving mode to the normal display mode. For example, as shown in FIG. 9C, when the viewer B who is at a position away from the display panel 32 comes near the front of the display panel 32, the viewer B displays the slide show on the display panel 32. It is possible to appreciate the photographic images displayed by switching at the timing.

  As described above, according to the light source control device 1 according to the present embodiment, the control unit 10 uses the post-processing image obtained by performing the image processing for increasing the brightness of the image and changing the style on the photographic image (original image). When the processed image is displayed on the display panel 32, the light source 30a used to display the photographic image (original image) or the processed image is controlled and the photographic image is displayed on the display panel 32. The luminance of the light source 30a is adjusted so that the luminance of the light source 30a is lowered. Since the brightness of the processed image is brighter than that of the original photographic image, the brightness of the processed image on the display panel 32 is extremely dark even if the brightness of the light source 30a is reduced to some extent when the processed image is displayed. Don't be. As a result, even if the luminance of the light source 30a is reduced (during power saving), it is possible to reduce or eliminate the stress associated with viewing the image of the viewer.

  In the above-described embodiment, the control unit 10 calculates a difference indicating the degree of difference between the brightness of the photographic image and the brightness of the processed image, and displays each image based on the calculated difference. Although the brightness (light source brightness) of the light source 30a is adjusted so that the display brightness at that time is approximately the same, the present invention is not limited to this. In other words, the brightness of the light source 30a may be adjusted to be lower when displaying the processed image than when displaying the photographic image so that the power consumption of the light source 30a can be suppressed. For example, the target brightness that is the brightness of the light source 30a when displaying the processed image is uniformly set so that the brightness of the light source 30a is lower than the reference brightness that is the brightness of the light source 30a when displaying the photographic image. A set one may be used. The target luminance is set to a luminance that does not cause the display panel 32 to be extremely dark when the processed image is displayed.

  In addition, when it is determined that there is a viewer, the control unit 10 displays a processed image (a painting-like image or a corrected painting-like image) in addition to the photographic image, and at this time, the normal display mode is used. You may adjust the brightness | luminance of the light source 30a so that it may become reference | standard brightness | luminance. Thereby, the viewer in front of the display panel 32 can appreciate the processed image displayed on the display panel 32 in the normal display mode.

  In addition, the control unit 10 is used in the above-described power saving mode when displaying a processed image (a painting-like image or a corrected painting-like image) regardless of whether or not there is a viewer in front of the display panel 32. You may adjust the brightness | luminance of the light source 30a so that it may become target brightness | luminance (light source brightness lower than reference | standard brightness). Thereby, the power saving of the light source 30a can be realized when the processed image is displayed on the display panel 32. Further, when displaying the processed image, it does not darken unnecessarily, so that no stress is given to the viewer.

  Further, the control unit 10 uses the imaging information and sensor information acquired by the front information acquisition unit 40 to add a degree of attention set in advance according to a predetermined determination result determined in the process of performing the determination, It may be determined whether or not there is a viewer in front of the display panel 32 by comparing the sum of the added attention levels and a predetermined level of attention (threshold value) for determining that there is a viewer.

  Specifically, the control unit 10 determines whether the captured image of the front information received from the imaging unit 40a includes a face image, whether the size of the face image is equal to or larger than a predetermined size, It is determined whether the image is in the front direction or the black eye of the face image is in the center of the eye, and a preset value is added as a degree of attention according to the determination result. For example, if the captured image includes a face image less than a predetermined size and the face and line of sight represented by the face image are facing the front, the control unit 10 The degree of attention is not added in determining whether the size is greater than or equal to a predetermined size, but the degree of attention is added in each of the other determinations. In this way, the control unit 10 adds the attention level in the process of determining whether or not there is a viewer in front of the display panel 32, and the total of the added attention levels is the viewer. It is determined that there is a viewer when it is equal to or higher than the predetermined attention level (threshold value). On the other hand, when it is less than the predetermined attention level (threshold value), it is determined that there is no viewer. Thereby, the light source control apparatus 1 can display a photographic image or a processed image according to the degree of attention of the viewer. Note that the sensor unit 40B also displays the display by comparing the total attention degree added according to a predetermined determination result in the same manner as described above with a predetermined attention level (threshold) for determining that there is a viewer. Whether or not there is a viewer in front of the panel 32 can be determined. Thereby, the display mode can be switched according to the degree of attention of the viewer.

  Further, in the above-described embodiment, whether or not the painting-like image obtained by performing the image conversion processing on the photographic image is subjected to the correction processing is compared with the average luminance value of the painting-like image and a preset threshold value. However, the present invention is not limited to this. For example, a type of painting (for example, Gothic oil or oil) that does not become bright enough compared to a photographic image (original image) by image conversion processing is set in advance, and It may be determined whether or not to perform the above-described correction processing (correction processing for further increasing the brightness of the painting-like image) depending on whether or not the type of painting is set.

  In the above-described embodiment, the above-described correction process is performed only once. However, after performing the correction process, the control unit 10 determines in advance the average luminance value of the processed image (corrected painting-like image), The above-described correction processing may be repeatedly performed until the set threshold value is compared and it is determined that the average luminance value of the processed image (corrected painting-like image) is equal to or greater than the threshold value.

  Further, in the above-described embodiment, it has been described that the slide information necessary for generating the slide image data includes a set of a photographic image and a type of painting. However, the slide information may be only a photographic image. good. That is, the control unit 10 performs the above-described image processing (image conversion processing and correction processing) depending on the type of painting arbitrarily arbitrarily selected based on each piece of slide information (photo image) selected and determined by the user. You can go.

  It should be noted that it is desirable that the painting type having a large power saving effect is automatically selected in order to realize power saving, particularly in the power saving mode. The control unit 10 automatically selects a type of painting that has a large power saving effect. For example, for the photographic image and the processed image (the painting-like image or the corrected painting-like image) described in the above embodiment, Each time the degree of difference represented by the average luminance value (or ratio) is calculated, the calculated degree of difference is stored in the storage unit 20 according to the type of painting that is the content of the image conversion process, and the following processing is performed. Note that, as the degree of difference increases, even if the light source luminance for the processed image is lowered, the display luminance is not unnecessarily lowered, so that the power saving effect is increased. In the above description, the processed image is generated in advance, but here, the control unit 10 performs image processing including the image conversion processing of the painting type selected below at the timing of displaying the processed image. The processed image converted in (appropriate correction processing may be included as appropriate) is displayed.

  For example, in the normal display mode described above, the type of painting is selected by the user or randomly (arbitrarily). The control unit 10 converts the photographic image into a painting-like image by performing image conversion processing of the selected type of painting on the photographic image. The control unit 10 displays the converted painting-like image on the display panel 32, calculates the difference between the photographic image and the painting-like image, and associates the calculated difference with the type of painting to record the difference. Is stored in the storage unit 20. When the brightness of the painting-like image is not sufficiently bright (when the brightness does not satisfy a predetermined standard), the control unit 10 performs a correction process on the painting-like image as described above to obtain a photographic image and The degree of difference from the corrected painting-like image is calculated, and the calculated degree of difference is stored in the storage unit 20 as a difference degree history in association with the type of painting.

  On the other hand, in the power saving mode, the control unit 10 refers to the history of the degree of difference stored in the storage unit 20 for each type of painting, and calculates, for example, the average value of the degree of difference for each type of painting. A painting type with a large average value of dissimilarity is automatically selected as a type of painting with a large power saving effect (for example, a painting with the largest power saving effect is selected, or a painting with a degree of difference equal to or greater than a predetermined threshold) Randomly select one of the types). The control unit 10 may automatically select a painting type set in advance as a painting type having a large power saving effect if a history of difference is not stored in the storage unit 20 (a plurality of paintings). You may choose at random from home.) As a result, the light source control device 1 can automatically select a type of painting having a large power saving effect in the power saving mode.

  Furthermore, in the above-described embodiment, the image displayed on the display panel 32 has been described as a still image, but may be a moving image (an image group configured by a plurality of continuous still images).

  Further, the light source control device according to the present invention has been exemplified by the digital photo frame as an example in the above-described embodiment, but any other device that controls display such as a personal computer can be applied. When the light source control device 1 is a personal computer, the light source control device 1 is appropriately connected to an external storage unit 20, display unit 30 and the like without including the storage unit 20, display unit 30 and the like.

  Note that the light source control program 21a of the above-described embodiment may be recorded on a portable recording medium or the like. Examples of portable recording media include CD-ROM (Compact Disk Read Only Memory) and DVD-ROM (Digital Versatile Disk Read Only Memory). Further, the light source control program 21a may be installed in the light source control device 1 from a portable recording medium via various reading devices. Further, the light source control program 21a may be downloaded and installed in the light source control device 1 from a network such as the Internet via a communication unit (not shown). The light source control program 21a may be stored in a storage device such as a server that can communicate with the light source control device 1 and may instruct the CPU or the like. Further, a readable recording medium (for example, RAM, ROM (Read Only Memory), CD-R, DVD-R, hard disk, or flash memory) that stores the light source control program 21a is a computer-readable program. Is a storage medium that stores.

  In addition, the present invention is not limited by the description of the above-described embodiments and the drawings, and appropriate modifications and the like can be added to the above-described embodiments and the drawings.

DESCRIPTION OF SYMBOLS 1 ... Light source control apparatus, 10 ... Control part, 11 ... CPU, 12 ... Primary storage device, 20 ... Storage part, 21 ... Secondary storage device, 21a ... Light source Control program, 30 ... display unit, 30a ... light source, 31 ... display panel drive circuit, 32 ... display panel, 33 ... backlight, 40 ... forward information acquisition unit, 40a ..Imaging unit, 40b ... sensor unit, 41 ... imaging device, 42 ... human sensor, 50 ... input unit, 51 ... input device, 60 ... reading / writing unit, 61 ... Read / write device, 100 ... recording medium, 101 ... memory card

Claims (3)

A light source control device including a control unit that displays an original image or a processed image obtained by performing image processing on the original image on a display unit,
The image processing includes at least processing for changing the style of the original image into a plurality of types of styles ,
The brightness of the processed image is brighter than the brightness of the original image,
The control unit controls a light source used for displaying the original image or the processed image provided in the display unit based on a difference between a brightness of the original image and a brightness of the processed image. Adjusting the luminance of the light source so that the luminance of the light source is lower when displaying the processed image on the display unit than when displaying the original image on the display unit ;
A power saving mode is provided, and in the power saving mode,
The light source control device , wherein the control means automatically selects a type of image style having a large difference in brightness as a type of image style having a large power saving effect . The control means acquires front information that is information for determining whether or not there is a viewer in front of the display unit, and based on the acquired front information, either the original image or the processed image And adjusting the brightness of the light source according to whether the original image or the processed image is displayed on the display unit.
The light source control device according to claim 1 . In the computer of the light source control device with power saving mode ,
A program for performing a control step of displaying an original image or a processed image obtained by performing image processing on the original image on a display unit,
The image processing includes at least processing for changing the style of the original image into a plurality of types of styles ,
The brightness of the processed image is brighter than the brightness of the original image,
In the control step, the light source used for displaying the original image or the processed image provided in the display unit is controlled based on the difference between the brightness of the original image and the brightness of the processed image. Adjusting the luminance of the light source so that the luminance of the light source is lower when displaying the processed image on the display unit than when displaying the original image on the display unit ;
During the power saving mode,
The control step automatically selects a style type having a large difference in brightness as a type of style having a large power saving effect .

Images