JP2009017306A - Image display device and imaging apparatus using the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve visibility by effectively emphasizing contrast for various subjects in an image. <P>SOLUTION: An image display device 10 which receives an input image signal, performs gradation conversion thereon and then displays an image, comprises: a display mode switching section 16 for switching a display mode in response to an input from a user I/F 12 or a luminosity sensor 14; a local histogram smoothing section 18 for performing local gradation correction upon the input image signal; a second tone curve converting section 22 for performing gradation conversion processing upon an image on which the local gradation correction has been performed by the local histogram smoothing section 18, using tone curve conversion corresponding to the display mode switched by the display mode switching section 16; and an image display section 26 for displaying an image after the gradation conversion processing by the second tone curve converting section 22. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an image display device that is used in an environment where ambient light is strong, such as outdoors, and performs image conversion after performing gradation conversion on an input image signal, and an imaging device using the image display device.

  When an imaging device such as a digital camera is used in a bright place such as outdoors, there is a problem in that the contrast of an image viewer such as a liquid crystal monitor is remarkably reduced due to strong outdoor light, resulting in poor visibility.

  On the other hand, Patent Document 1 adopts a method of adjusting the backlight luminance of the liquid crystal monitor according to the ambient brightness to make it easy to see. However, in the case of intense external light such as in fine weather, this is countered. If the backlight luminance is increased until it is, the problem that the power consumption becomes extremely high arises.

For this reason, in Patent Documents 2 to 6, when the surrounding brightness is bright, there is a method for improving the visibility of the liquid crystal monitor by changing the gradation characteristics of the image signal to increase the contrast of the image. It has been taken.
JP-A-6-148600 JP-A-4-270571 JP-A-6-83287 JP-A-6-303551 JP 2003-186455 A JP 2006-350318 A

  However, if the contrast is increased by changing the gradation characteristics of the image signal, depending on the input image signal, if the contrast in one gradation area is enhanced, the image signal in the other gradation area will be crushed, and it will be visually recognized. May be worse. For example, when the halftone contrast is increased by tone curve conversion as shown in FIG. 2B, a subject having only a low gradation region signal photographed darkly is crushed black by gradation conversion. Become invisible.

  In Patent Document 2 and Patent Document 4, a method for adjusting the contrast according to the brightness of the input image signal in addition to the brightness of the ambient light is also proposed. However, various methods are still included in one image. When subjects are mixed, signal collapse occurs with respect to a subject in the image, resulting in poor visibility.

  For this reason, a method of effectively enhancing contrast and improving visibility for various subjects in an image is desired.

  The present invention has been made in view of the above points, and an image display device capable of effectively enhancing contrast and improving visibility for various subjects in an image and the same are used. An object is to provide an imaging device.

One aspect of the image display device of the present invention is an image display device that displays an image after receiving an input image signal and performing gradation conversion,
Display mode switching means for switching the display mode;
Local gradation correction means for performing local gradation correction on the input image signal;
A gradation that performs gradation conversion processing on an image that has been subjected to local gradation correction by the local gradation correction means, using tone curve conversion corresponding to the display mode switched by the display mode switching means. Conversion means;
Display means for displaying an image after gradation conversion processing by the gradation conversion means;
It is characterized by comprising.

One embodiment of the imaging apparatus of the present invention is an imaging apparatus that captures an image of a subject, records the captured image, and further reproduces the recorded image or displays the captured image live using an image viewer. There,
An imaging unit for imaging a subject;
An image recording unit for recording an image captured by the imaging unit;
Display mode switching means for switching the display mode of the image viewer;
Local gradation correction means for performing local gradation correction on an image captured by the imaging unit or an image recorded in the image recording unit;
A gradation that performs gradation conversion processing on an image that has been subjected to local gradation correction by the local gradation correction means, using tone curve conversion corresponding to the display mode switched by the display mode switching means. Conversion means;
Display means for displaying an image after gradation conversion processing by the gradation conversion means;
It is characterized by comprising.

  According to the present invention, it is possible to provide an image display device capable of effectively enhancing contrast and improving visibility for various subjects in an image, and an imaging device using the image display device.

  The best mode for carrying out the present invention will be described below with reference to the drawings.

[First Embodiment]
FIG. 1 is a diagram showing an overall configuration of an image display apparatus according to the first embodiment of the present invention. The image display apparatus 10 according to the present embodiment includes a user I / F 12, an illuminance sensor 14, a display mode switching unit 16, a local histogram smoothing unit 18, a first tone curve conversion unit 20, a second tone curve conversion unit 22, and a display. The mode message superimposing unit 24 and the image display unit 26 are included.

  Here, the display mode switching unit 16 changes the input image signal when the external light is weak based on the state of the surrounding environment (external light is strong or weak) input by the user I / F 12 or the illuminance sensor 14. Is output to the image display unit 26 via the first tone curve conversion unit 20, and to the image display unit 26 via the subsequent local histogram smoothing unit 18 and the second tone curve conversion unit 22 when the external light is strong. Output.

  As shown in FIG. 2A, the first tone curve conversion unit 20 performs tone curve conversion with linear output characteristics with respect to the input. Therefore, in the display mode in which the external light is weak, the gradation characteristics are not changed particularly between input and output, and are output as they are.

  The local histogram smoothing unit 18 is for smoothing the histogram for each local part of the image in the display mode with strong external light, and a known technique can be applied as a specific method.

For example, assuming that the pixel value before smoothing at a certain pixel position is I _IN and the pixel value after smoothing is I _OUT , the histogram is smoothed using the following equation (1).

In this equation (1), N is the number of image gradations (N = 255 in the case of 8 bits), k and l are pixel positions in a region (local region) having a histogram to be smoothed, and M is the above k, l Further, δ (·) and θ (·) are expressed by the following equation (2), and the smaller the pixel area of k and l, the more local the histogram smoothing becomes. Done.

Further, the average calculation 1 / M × Σ in the above equation (1) is regarded as a low-pass filter LPF _Ω having a cut-off frequency Ω corresponding to the size of the pixel regions k and l. It can also be expressed as the following equation (3).

  Further, the parameter α representing the degree of smoothing may be added and converted by the method shown in the following equation (4) so that the histogram is not completely smoothed and the original histogram shape is left to some extent.

In addition, when high-speed processing such as moving image display or live view display is required, it is desirable to apply a method disclosed in, for example, JP-T-2004-530368. If further high-speed processing is required, simple processing may be performed in which gain correction is performed so as to approximate a signal in the vicinity of a certain gradation _IO as shown in the following equation (5).

  In any case, by performing the local gradation correction as described above, it is possible to distribute the gradation distribution uniformly from the low gradation to the high gradation for each subject of the image.

  In the display mode with strong external light, the second tone curve conversion unit 22 applies an image subjected to gradation correction by the local histogram smoothing unit 18 in the case of weak external light as shown in FIG. The S-shaped tone curve conversion is performed uniformly for all pixels so as to emphasize halftone contrast as compared with the tone curve conversion. As a specific method for performing such tone curve conversion, the relationship between input and output shown in FIG. 2A is stored as a one-dimensional lookup table (hereinafter referred to as 1D-LUT). Input / output conversion may be performed based on -LUT, or pixel values may be converted according to a sigmoid function expressed by the following equation (6).

Moreover, you may convert by the combination of (gamma) curve type | formula for every certain area like the following (7) Formula.

In the above formulas (6) and (7), I _C and I _k are parameters indicating the position of the inflection point in the S-shaped tone curve curve, and μ, γ1, and γ2 are fixed parameters representing the curvature of the S-shaped curve. It is.

  The tone curve shape in the second tone curve conversion unit 22 is not only an S-shape, but a tone obtained by clipping the output of the low gradation region and the high gradation region, for example, as shown in FIG. A curve shape may be used, or a signal may be multi-valued by a step-like tone curve shape as shown in FIG. In any case, when the input image value is divided into the low gradation area, halftone area, and high gradation area, the output gradation for the signals in the low gradation area and high gradation area is compressed, and the signal in the halftone area is compressed. By using a tone curve that extends the output gradation with respect to the contrast, it is possible to effectively enhance the contrast, and to improve the visibility in the strong outdoor light.

  As shown in FIG. 3A, in the digital camera 28 as the imaging device according to the first embodiment of the present invention using the image display device 10 according to the present embodiment, an optical lens (not shown) is usually arranged. The image display surface 26 </ b> A of the image display unit 26 is arranged on the surface opposite to the surface. The illuminance sensor 14 is installed on the same surface as the image display surface 26A, and acquires the intensity of only the external light incident on the image display surface 26A.

  FIG. 3B is a cross-sectional view showing the configuration of the illuminance sensor 14. The illuminance sensor 14 is configured by arranging a diffusion plate 14B on the front surface of the photodiode 14A. Further, by providing a light shielding portion 14C on the surface of the illuminance sensor 14, only external light incident at an incident angle substantially perpendicular to the image display surface 26A may be detected. In this case, since the reflection component caused by the surface reflection (specular reflection) on the image display surface 26A can be accurately detected, appropriate visibility can be ensured depending on the reflection state.

  As shown in FIG. 3A, the user I / F 12 is configured as a display mode selection button 12A arranged near the image display surface 26A, and the display mode switching unit 16 refers to an operation of the display mode selection button 12A. The display mode can be switched with a simple operation.

  Further, according to the configuration of the image display device 10 described above, the contrast is extremely emphasized in the display mode in the strong external light. For example, in the strong external light in spite of the weak external light due to the user's operation error. When an image is displayed in the display mode, the image becomes excessively high in contrast and looks bad. In order to prevent such an operation error, only the state in which the display mode selection button 12A is kept pressed is set as a display mode in strong external light, and the display mode in weak external light is restored when the display mode selection button 12A is released. It may be configured. Even in the state where the user I / F 12 and the illuminance sensor 14 are linked and the user I / F 12 is set to the strong external light display mode, if the illuminance is significantly reduced by the illuminance sensor 14, the weak external light is automatically generated. The display mode may be restored.

  The display mode message superimposing unit 24 superimposes a message corresponding to the display mode on the image signal input from the second tone curve converting unit 22 and outputs the superimposed image to the image display unit 26. FIG. 4 is a diagram illustrating an example of an image on which the display mode message 30 is superimposed. For example, as shown in FIG. 4, a display mode message 30 such as “strong external light mode” is superimposed on the corner of the image. The display mode message 30 may be text or a mark. Further, the display mode message 30 may be displayed only in the strong external light mode, and the display mode message 30 may not be displayed in the low external light mode. By displaying the display mode message 30 only in the strong external light, the user can easily recognize that the display mode is in the strong external light, and as described above, the excessive display in the weak external light due to the operation error. It is possible to avoid the phenomenon of poor appearance due to contrast enhancement.

  Next, specific functions and effects of the present embodiment will be described with reference to FIGS.

  FIG. 5A is an example of an input image taken in a backlight state, and FIG. 5B is a diagram showing a histogram distribution for subject areas a and b in this image. Here, since the subject in the subject area a was photographed relatively dark due to backlight, the image signals are gathered mainly in the low gradation area. The subject in the subject area b is a signal that is almost uniformly distributed from a low gradation to a high gradation with little influence of backlight because of a distant view.

  FIG. 5C shows a histogram when the halftone contrast is enhanced by tone curve conversion as shown in FIG. 2B for the signal shown in FIG. 5B. When halftone contrast enhancement is performed on such an input image, the subject in the subject region b is effectively enhanced in contrast, but the subject in the subject region a is converted into a dark signal and is blacked out.

  On the other hand, FIG. 5D shows a histogram when local histogram smoothing is performed on the signal of FIG. 5B, and by performing local histogram smoothing, Both the subject areas a and b are signals distributed almost uniformly from a low gradation to a high gradation. In the image display apparatus 10 according to the present embodiment, the local histogram smoothing unit 18 smooths the local histogram, and then the second tone curve conversion unit 22 performs the smoothing of the local histogram as shown in FIG. The tone contrast is enhanced by such tone curve conversion. As a result, as shown in FIG. 5 (E), a darkly photographed subject is not crushed black, and the contrast is favorably enhanced, and visibility can be improved under strong outside light such as outdoors. .

  As described above, in strong external light, the input image signal is first subjected to smoothing of a local histogram, the tone distribution of the input image signal is smoothed for each local area, and then a tone curve for contrast enhancement. By performing the correction process, it is possible to effectively enhance the contrast for all shooting conditions and the input video signal of the subject, and to improve the visibility of the image viewer even under strong external light.

  As described above, according to the present embodiment, when observing the image viewer under strong external light conditions such as outdoors, the display mode is automatically set to the strong external light mode manually by the user I / F 12 or by the illuminance sensor 14. In addition, it is possible to enhance the visibility by optimally enhancing the contrast of the image for each subject.

  In the above-described embodiment, in the display mode in which the external light is weak, the first tone curve conversion unit 20 only performs tone curve conversion based on linear characteristics. However, for example, the display element characteristics in the image display unit 26 are changed. Tone curve conversion to be corrected may be performed. However, in that case, the second tone curve conversion unit 22 in the display mode in the strong external light has the tone curve conversion for contrast enhancement and the tone for correcting the display element characteristics as shown in FIG. The tone curve conversion combined with the curve conversion is performed.

[Second Embodiment]
Next, a second embodiment of the present invention will be described.

  In the second embodiment, when a color image signal is input as an input image signal, tone curve conversion is performed by separating the color image signal into a brightness component such as YUV and a color difference component.

  FIG. 6 is a diagram illustrating a configuration of the image display device 32 according to the second embodiment. The image display device 32 according to the present embodiment includes a first color space conversion unit 34, a Y tone instead of the second tone curve conversion unit 22 in the overall configuration of the image display device 10 according to the first embodiment shown in FIG. A curve conversion unit 36Y, a U tone curve conversion unit 36U, a V tone curve conversion unit 36V, and a second color space conversion unit 38 are provided.

  That is, the color image signal R′G′B ′ obtained by performing local histogram smoothing on the input image signal RGB in the local histogram smoothing unit 18 is converted into a YUV color difference signal in the first color space conversion unit 34. Convert. Next, the Y tone curve conversion unit 36Y, the U tone curve conversion unit 36U, and the V tone curve conversion unit 36V perform tone curve conversion for contrast enhancement on the converted color difference signals YUV independently of each other. Each tone curve converted color difference signal Y′U′V ′ is returned to the original color space signal R ″ G ″ B ″ in the second color space conversion unit 38 in the subsequent stage and output to the image display unit 26. To do.

  FIGS. 7A and 7B show examples of tone curve conversion for Y and U (or V) signals, respectively. In these drawings, the effect of suppressing the saturation enhancement by contrast enhancement is set by setting the level of the halftone contrast enhancement for the U (or V) signal to be loose relative to the level of the halftone contrast enhancement for the Y signal. Giving.

  Thus, by making it possible to adjust the tone curve shape independently for each of the color difference signals YUV, it is possible to adjust the saturation of the image after contrast enhancement and improve the appearance of the display color outdoors.

  In the above, YUV is used as the color difference signal. However, the present invention is not limited to this, and any other space may be used as long as it is a signal space that independently represents brightness and color difference. For example, YCbCr, YPbPr, HVC (hue, brightness, saturation), or L * a * b * may be used. If YUV, YCbCr, YPbPr, the color space conversion process can be performed relatively simply and at high speed. If it is HVC (hue, lightness, saturation) and L * a * b *, the process is complicated. Therefore, it is possible to perform color adjustment that is relatively suitable for human eye attributes.

[Third Embodiment]
Next, a third embodiment of the present invention will be described.

  FIG. 8 is a diagram showing a configuration of the image display device 40 according to the third embodiment. The image display device 40 according to the present embodiment includes a display mode selection unit 42 instead of the display mode switching unit 16 in the overall configuration of the image display device 10 according to the first embodiment shown in FIG. Further, instead of the second tone curve conversion units 20 and 22, a smoothing parameter selection unit 44, a parameter storage unit 46, a tone curve table selection unit 48, a tone curve table storage unit 50, and a tone curve conversion unit 52 are provided. is there.

  The display mode selection unit 42 receives inputs from the user I / F 12 and the illuminance sensor 14 and selects one of several display modes. Here, as shown in FIG. 9A, the display modes are classified according to the shooting environment and subject conditions. As for the selection method, the shooting environment may be selected according to the external light intensity of the ambient light detected by the illuminance sensor 14, and the subject scene may be selected by the user I / F 12 for the subject condition. .

  Based on the display mode selected by the display mode selection unit 42, the smoothing parameter selection unit 44 stores parameters for smoothing processing executed by the local histogram smoothing unit 18 in the parameter storage unit 46 in advance. One of several smoothing parameters is selected and output to the local histogram smoothing unit 18.

  The tone curve table selection unit 48 stores in advance the tone curve conversion 1D-LUT executed in the tone curve conversion unit 52 in the tone curve table storage unit 50 based on the display mode selected in the display mode selection unit 42. One of several LUTs selected is selected and output to the tone curve converter 52.

  The local histogram smoothing unit 18 and the tone curve converting unit 52 are described in the first embodiment using the smoothing parameters and the tone curve table selected by the smoothing parameter selecting unit 44 and the tone curve table selecting unit 48, respectively. Processing is performed by the method described above.

  The other user I / F 12, the illuminance sensor 14, the display mode message superimposing unit 24, and the image display unit 26 are the same as those in the first embodiment described above, and thus detailed description thereof is omitted.

  FIG. 9A is a diagram illustrating an example of a smoothing parameter and a tone curve table in each display mode. The smoothing degree in the smoothing parameter shown in the figure corresponds to the value of α in the above-mentioned equation (4). If this value is 1, smoothing is maximized, and if it is 0, smoothing is completely performed. There will be no. Similarly, the local degree corresponds to the value of Ω in the equation (4), and as this value increases, histogram smoothing is performed in a narrower local range, and if 0, histogram smoothing is performed on the entire image. become.

  In addition, tone curve No. 1 shown in FIG. A to C indicate that the tone curve shape tables A to C shown in FIG. 9B are referred to, respectively.

  As shown in FIG. 9A, when a subject such as a landscape image is captured to a certain extent, compared to a case where a large subject is captured in the image, such as a macro or portrait-up image, with respect to the subject scene. Can increase the contrast and contour of the subject by increasing the locality.

  Also, in the case of a night scene with no external light in relation to the shooting environment, smoothing processing and tone curve processing are not performed, and the external light intensity increases in the order of indoor → outdoor clear sky light / cloudy → outdoor clear sky backlight. Therefore, it is possible to realize the appearance of the display image suitable for each photographing environment by increasing the smoothing degree and the inclination of the tone curve.

  As described above, according to the third embodiment, it is possible to obtain optimal visibility for each environment by setting the state of the external environment more finely, selecting parameters suitable for each environment, and performing processing. It becomes.

  FIG. 10 is a diagram illustrating a configuration of a digital camera 54 as an imaging device using the image display device 40 according to the third embodiment as an image viewer. The digital camera 54 includes an optical lens 56, an imaging element 58, an imaging processing unit 60, an image recording unit 62, and a live / reproduction switching unit 64 in addition to the configuration of the image display device 40 according to the third embodiment. is there.

  Here, the optical lens 56 is a lens for forming a subject image on the surface of the image sensor 58 at the subsequent stage.

  The image sensor 58 photoelectrically converts a subject image formed on the surface of the image sensor 58 and outputs a charge signal, and a CCD or CMOS sensor or the like is used.

  The imaging processing unit 60 performs signal processing based on the charge signal obtained by the imaging element 58 and outputs a color image signal. The signal processing includes processing such as Bayer processing, γ correction processing, and color matrix correction processing. In addition, the color image signal output from the imaging processing unit 60 is normally output to the subsequent live / reproduction switching unit 64 for displaying a live image of the subject, but when the shutter is released by the operation of the user I / F 12. Is output to the image recording unit 62.

  The image recording unit 62 is for recording and storing the color image signal processed by the imaging processing unit 60. Note that the image recording unit 62 performs processing for improving the quality of an image to be recorded / saved, such as noise reduction processing, gradation correction processing, edge enhancement processing, and color correction processing, for the input color image signal. Is also included.

  The live / reproduction switching unit 64 selects either the live image of the subject output from the imaging processing unit 60 or the reproduced image once recorded in the image recording unit 62 in accordance with the operation of the user I / F 12, and the subsequent stage The result is output to the local histogram smoothing unit 18.

  With the configuration as described above, when the digital camera 54 captures an image with strong external light such as outdoors, the visibility of the live image of the subject by the image viewer can be improved, and the framing of the subject can be facilitated. Furthermore, by performing the same processing on the replayed image once recorded, it becomes easier to reconfirm the subject image captured on the spot immediately after the image is taken outdoors, and it is determined whether to retake the image. It becomes easy to do.

  As described above, as described in the first to third embodiments, according to the present invention, when observing an image in an environment with strong outside light such as outdoors, the contrast of the image is effectively increased without increasing power consumption. It is possible to improve the visibility.

  Although not specifically described, also in the first or second embodiment, the optical lens 56, the imaging device 58, the imaging processing unit 60, the image recording unit 62, and the live / recording unit as described in the third embodiment. Of course, a combination of the reproduction switching unit 64 and the image display device 10 or the image display device 32 constitutes a digital camera as an imaging device.

  The present invention has been described based on the first to third embodiments. However, the present invention is not limited to the above-described embodiments, and various modifications and applications are possible within the scope of the gist of the present invention. Of course.

  For example, as an application example of an image display device, a digital camera has been described as an example, but when a subject image (subject video) with various conditions comes in, the visibility is effectively improved without causing gradation collapse. Therefore, if the present invention is applied not only to a digital camera but also to an image viewer of a camera-equipped mobile phone, a mobile TV represented by a portable DVD player, etc., a great effect can be obtained.

  Further, in the projector for home theater, even when the usage environment is not a dark room and the screen contrast is remarkably reduced, the present invention can be applied to effectively increase the contrast of the video and make it easy to see.

  Furthermore, due to recent advances in CG technology, many CG images displayed on game machines and the like express very fine gradations, and are effective in portable game machines that display such images. Can do.

(Appendix)
The invention having the following configuration can be extracted from the specific embodiment.

(1) An image display device that displays an image after receiving an input image signal and performing gradation conversion,
Display mode switching means for switching the display mode;
Local gradation correction means for performing local gradation correction on the input image signal;
A gradation that performs gradation conversion processing on an image that has been subjected to local gradation correction by the local gradation correction means, using tone curve conversion corresponding to the display mode switched by the display mode switching means. Conversion means;
Display means for displaying an image after gradation conversion processing by the gradation conversion means;
An image display device comprising:

(Corresponding embodiment)
The first to third embodiments correspond to the embodiment related to the image display device described in (1). In these embodiments, the image display devices 10, 32, and 40 are local to the image display device, the user I / F 12, the illuminance sensor 14, the display mode switching unit 16, and the display mode selection unit 42 are locally to the display mode switching unit. The histogram smoothing unit 18, the parameter storage unit 46, and the smoothing parameter selection unit 44 include the second tone curve conversion unit 22, the first color space conversion unit 34, the Y tone curve conversion unit 36Y, The U tone curve conversion unit 36U, the V tone curve conversion unit 36V, the second color space conversion unit 38, the tone curve table selection unit 48, the tone curve table storage unit 50, and the tone curve conversion unit 52 are used as the gradation conversion unit. The display unit 26 corresponds to each of the display means.

(Function and effect)
According to the image display device described in (1), it is possible to effectively enhance the contrast and improve visibility for various subjects in the image.

  (2) The image display apparatus according to (1), wherein the local gradation correction unit smoothes a histogram of the input image signal for each local portion of the image.

(Corresponding embodiment)
The first to third embodiments correspond to the embodiment related to the image display device described in (2).

(Function and effect)
According to the image display device described in (2), it is possible to disperse the gradation distribution uniformly from the low gradation to the high gradation for each subject in the image.

  (3) The image display according to (1), wherein the local gradation correction unit performs gain correction for correcting the input image signal into a predetermined gradation region for each local portion of the image. apparatus.

(Corresponding embodiment)
The first to third embodiments correspond to the embodiment relating to the image display device described in (3).

(Function and effect)
According to the image display device described in (3), since processing is simple, high-speed processing is possible.

  (4) The local gradation correction means switches between performing or not performing the local gradation correction according to the display mode switched by the display mode switching means. The image display device according to any one of (3).

(Corresponding embodiment)
The embodiment related to the image display device described in (4) corresponds to the third embodiment.

(Function and effect)
According to the image display device described in (4), when it is not necessary to perform local gradation correction as in a display mode such as a night scene without any external light, it is not performed. You can switch to

(5) The local gradation correction means includes:
Parameter storage means for storing parameters for performing the local gradation correction corresponding to each display mode switched by the display mode switching means;
According to the display mode switched by the display mode switching unit, the parameter stored in the parameter storage unit is switched and used to perform local gradation correction on the input image signal. The image display device according to any one of (1) to (3).

(Corresponding embodiment)
The embodiment relating to the image display device described in (5) corresponds to the third embodiment. In the embodiment, the parameter storage unit 46 corresponds to the parameter storage means.

(Function and effect)
According to the image display device described in (5), by switching the parameters for performing a plurality of gradation corrections according to the display mode, for example, a macro or a portrait-up image with respect to the subject scene. Compared to a case where a large subject is captured in an image, when a subject such as a landscape image is captured to a certain extent, the contrast and contour of the subject can be enhanced by increasing the local degree.

  (6) The image display device according to any one of (1) to (5), wherein the display mode switching unit includes a display mode switching operation unit that allows a user to manually switch a display mode. .

(Corresponding embodiment)
The first to third embodiments correspond to the image display device according to (6). In these embodiments, the user I / F 12 corresponds to the display mode switching operation unit.

(Function and effect)
According to the image display device described in (6), the user can arbitrarily set the display mode, and the user's intention can be reflected.

  (7) The image display according to (6), wherein the display mode switching unit switches the display mode depending on whether the user is operating or not operating the display mode switching operation unit. apparatus.

(Corresponding embodiment)
The first to third embodiments correspond to the embodiment related to the image display device described in (7).

(Function and effect)
According to the image display device described in (7), it is possible to reduce user operation errors.

(8) The display mode switching means is
Ambient light detection means for detecting ambient light intensity when performing image display is provided,
The image display device according to any one of (1) to (5), wherein the display mode is switched in accordance with the intensity of external light detected by the ambient ambient light detection means.

(Corresponding embodiment)
The embodiment relating to the image display device described in (8) corresponds to the first to third embodiments. In those embodiments, the illuminance sensor 14 corresponds to the ambient light detection means.

(Function and effect)
According to the image display device described in (8), the display mode can be automatically switched.

  (9) The gradation conversion means converts the tone curve characteristic in the display mode with a high external light intensity into a tone curve characteristic that enhances contrast as compared with the display mode with a low external light intensity (8). ) Image display device.

(Corresponding embodiment)
The first to third embodiments correspond to the image display device according to (9).

(Function and effect)
According to the image display device described in (9), it is possible to improve the visibility of the image viewer even under strong external light by performing gradation conversion that enhances the contrast under strong external light. .

  (10) The image according to any one of (1) to (9), wherein the gradation converting means converts the tone curve characteristics into different brightness components and chromaticity components in the input image signal. Display device.

(Corresponding embodiment)
The embodiment relating to the image display device described in (10) corresponds to the second embodiment.

(Function and effect)
According to the image display device described in (10), it is possible to adjust the saturation of the image after contrast enhancement and improve the appearance of the display color outdoors.

(11) A display mode in which a message indicating the type of the switched display mode is superimposed on the image after the gradation conversion processing by the gradation conversion unit according to the display mode switched by the display mode switching unit. A message superimposing unit;
The image display device according to any one of (1) to (10), wherein the display unit displays an image on which the message is superimposed by the display mode message superimposing unit.

(Corresponding embodiment)
The embodiment relating to the image display device described in (11) corresponds to the first to third embodiments. In these embodiments, the display mode message superimposing unit 24 corresponds to the display mode message superimposing means.

(Function and effect)
According to the image display device described in (11), by notifying the user of the type of the display mode, it is possible to avoid a phenomenon in which the appearance is deteriorated due to excessive contrast enhancement in weak external light due to an operation error. .

(12) An imaging apparatus that captures an image of a subject, records the captured image, and further reproduces the recorded image or displays the captured image live using an image viewer.
An imaging unit for imaging a subject;
An image recording unit for recording an image captured by the imaging unit;
Display mode switching means for switching the display mode of the image viewer;
Local gradation correction means for performing local gradation correction on an image captured by the imaging unit or an image recorded in the image recording unit;
A gradation that performs gradation conversion processing on an image that has been subjected to local gradation correction by the local gradation correction means, using tone curve conversion corresponding to the display mode switched by the display mode switching means. Conversion means;
Display means for displaying an image after gradation conversion processing by the gradation conversion means;
An imaging apparatus comprising:

(Corresponding embodiment)
The first to third embodiments correspond to the embodiment related to the imaging device described in (12). In these embodiments, the digital cameras 28 and 54 are the imaging device, the optical lens 56, the imaging element 58, the imaging processing unit 60 are the imaging unit, the image recording unit 62 is the image recording unit, and the user I / F 12 The illuminance sensor 14, the display mode switching unit 16, the display mode selection unit 42, and the live / reproduction switching unit 64 are the display mode switching unit, and the local histogram smoothing unit 18, the parameter storage unit 46, and the smoothing parameter selection unit 44. The local tone correction means includes a second tone curve converter 22, a first color space converter 34, a Y tone curve converter 36Y, a U tone curve converter 36U, a V tone curve converter 36V, and a second color space. The conversion unit 38, the tone curve table selection unit 48, the tone curve table storage unit 50, and the tone curve conversion unit 52 receive the image table as the gradation conversion unit. Part 26 on the display means, corresponding.

(Function and effect)
According to the imaging device described in (12), it is possible to effectively enhance the contrast and improve the visibility for various subjects in the image. Further, the visibility of the live image of the subject by the image viewer is improved, so that the framing of the subject can be facilitated.

  (13) The local gradation correction means smoothes an image captured by the imaging unit or a histogram of an image recorded in the image recording unit for each local portion of the image ( The imaging device according to 12).

(Corresponding embodiment)
The first to third embodiments correspond to the embodiment related to the imaging device described in (13).

(Function and effect)
According to the imaging device described in (13), it is possible to distribute the gradation distribution so as to be uniform from low gradation to high gradation for each subject in the image.

  (14) The local gradation correction unit performs gain correction for correcting an image captured by the imaging unit or an image recorded in the image recording unit for each local part of the image into a predetermined gradation region. The imaging apparatus according to (12), wherein the imaging apparatus is performed.

(Corresponding embodiment)
The first to third embodiments correspond to the embodiment related to the imaging device described in (14).

(Function and effect)
According to the imaging device described in (14), since the processing is simple, high-speed processing is possible.

  (15) The local gradation correction means switches between performing or not performing the local gradation correction in accordance with the display mode switched by the display mode switching means. The imaging device according to any one of (14).

(Corresponding embodiment)
The embodiment relating to the imaging device described in (15) corresponds to the third embodiment.

(Function and effect)
According to the imaging device described in (15), when it is not necessary to perform local gradation correction as in a display mode such as a night scene without any external light, it is not performed. Can be switched.

(16) The local gradation correction means includes:
Parameter storage means for storing parameters for performing the local gradation correction corresponding to each display mode switched by the display mode switching means;
Depending on the display mode switched by the display mode switching unit, the parameter stored in the parameter storage unit is switched and used for the image captured by the imaging unit or the image recorded in the image recording unit. The image pickup apparatus according to any one of (12) to (14), wherein local gradation correction is performed.

(Corresponding embodiment)
The embodiment relating to the imaging device described in (16) corresponds to the third embodiment. In the embodiment, the parameter storage unit 46 corresponds to the parameter storage means.

(Function and effect)
According to the imaging device described in (16), by switching the parameters for performing a plurality of gradation corrections according to the display mode, for example, an image such as a macro or a portrait up-image with respect to the subject scene. When a subject such as a landscape image is captured to a certain extent as compared with a case where a large subject is captured inside, the contrast and contour of the subject can be further enhanced by increasing the local degree.

  (17) The imaging apparatus according to any one of (12) to (16), wherein the display mode switching unit includes a display mode switching operation unit that allows a user to manually switch a display mode.

(Corresponding embodiment)
The first to third embodiments correspond to the embodiment related to the imaging device described in (17). In these embodiments, the user I / F 12 corresponds to the display mode switching operation unit.

(Function and effect)
According to the imaging device described in (17), the user can arbitrarily set the display mode, and the user's intention can be reflected.

  (18) The imaging apparatus according to (17), wherein the display mode switching unit switches the display mode depending on whether the user is operating or not operating the display mode switching operation unit. .

(Corresponding embodiment)
The first to third embodiments correspond to the embodiment related to the imaging device described in (18).

(Function and effect)
According to the imaging device described in (18), it is possible to reduce user operation errors.

(19) The display mode switching means
Ambient light detection means for detecting ambient light intensity when performing image display is provided,
The imaging apparatus according to any one of (12) to (16), wherein the display mode is switched in accordance with the intensity of external light detected by the ambient ambient light detection means.

(Corresponding embodiment)
The embodiment relating to the imaging device described in (19) corresponds to the first to third embodiments. In those embodiments, the illuminance sensor 14 corresponds to the ambient light detection means.

(Function and effect)
According to the imaging device described in (19), the display mode can be automatically switched.

  (20) The gradation conversion means converts the tone curve characteristic in the display mode having a high external light intensity into a tone curve characteristic that enhances contrast as compared with the display mode having a low external light intensity (19 ).

(Corresponding embodiment)
The first to third embodiments correspond to the embodiment relating to the imaging device described in (20).

(Function and effect)
According to the image pickup apparatus described in (20), it is possible to improve the visibility of the image viewer even under strong external light by performing gradation conversion that enhances the contrast under strong external light.

  (21) The gradation conversion means converts the tone component into different tone curve characteristics depending on a lightness component and a chromaticity component in an image picked up by the image pickup unit or an image recorded in the image recording unit. (12) The imaging device according to any one of (20).

(Corresponding embodiment)
The embodiment relating to the imaging device described in (21) corresponds to the second embodiment.

(Function and effect)
According to the imaging device described in (21), it is possible to adjust the saturation of the image after contrast enhancement and improve the appearance of the display color outdoors.

(22) A display mode in which a message indicating the type of the switched display mode is superimposed on the image after the gradation conversion processing by the gradation conversion unit according to the display mode switched by the display mode switching unit. A message superimposing unit;
The imaging apparatus according to any one of (12) to (21), wherein the display unit displays an image on which the message is superimposed by the display mode message superimposing unit.

(Corresponding embodiment)
The first to third embodiments correspond to the embodiment related to the imaging device described in (22). In these embodiments, the display mode message superimposing unit 24 corresponds to the display mode message superimposing means.

(Function and effect)
According to the imaging device described in (22), by notifying the user of the type of the display mode, it is possible to avoid a phenomenon in which the appearance is deteriorated due to excessive contrast enhancement in weak external light due to an operation error.

FIG. 1 is a diagram showing an overall configuration of an image display apparatus according to a first embodiment of the present invention. 2A is a diagram showing input / output characteristics of tone curve conversion performed in the first tone curve conversion unit in FIG. 1, and FIGS. 2B to 2D are diagrams showing the second tone in FIG. It is a figure which shows the input / output characteristic of the tone curve conversion performed in a curve conversion part. FIG. 3A is a diagram showing an arrangement of user I / Fs and illuminance sensors in the digital camera as the imaging apparatus according to the first embodiment of the present invention using the image display according to the first embodiment. (B) is sectional drawing which shows the structure of an illumination intensity sensor. FIG. 4 is a diagram showing an example of a display mode message superimposed by the display mode message superimposing unit in FIG. FIG. 5A is a diagram showing an example of an input image photographed in a backlight state, and FIG. 5B is a diagram showing a histogram distribution with respect to the subject areas a and b in the image of FIG. 5A. FIG. 5C is a diagram showing a histogram when the halftone contrast is emphasized by the tone curve conversion shown in FIG. 2B with respect to the signal of FIG. 5B, and FIG. FIG. 5B is a diagram showing a histogram when local histogram smoothing is performed on the signal of FIG. 5B, and FIG. 5E shows the signal of FIG. FIG. 6 is a diagram showing a histogram when halftone contrast enhancement is performed by tone curve conversion shown in FIG. FIG. 6 is a diagram showing a configuration of an image display apparatus according to the second embodiment of the present invention. 7A and 7B are diagrams showing input / output characteristics of tone curve conversion performed in the Y tone curve conversion unit and the U or V tone curve conversion unit in FIG. 6, respectively. FIG. 8 is a diagram showing a configuration of an image display apparatus according to the third embodiment of the present invention. FIG. 9A is a diagram showing an example of the smoothing parameter and tone curve table in each display mode, and FIG. 9B is a diagram showing the tone curve shape of each tone curve table in FIG. 9A. is there. FIG. 10 is a diagram illustrating a configuration of a digital camera as an imaging apparatus using the image display apparatus according to the third embodiment as an image viewer.

Explanation of symbols

    DESCRIPTION OF SYMBOLS 10, 32, 40 ... Image display apparatus 12 ... User I / F, 12A ... Display mode selection button, 14 ... Illuminance sensor, 14A ... Photodiode, 14B ... Diffuser plate, 14C ... Light-shielding part, 16 ... Display mode switching part 18 ... Local histogram smoothing unit, 20 ... First tone curve conversion unit, 22 ... Second tone curve conversion unit, 24 ... Display mode message superposition unit, 26 ... Image display unit, 26A ... Image display surface, 28, 54 ... Digital camera 30 ... Display mode message 34 ... First color space conversion unit 36Y ... Y tone curve conversion unit 36U ... U tone curve conversion unit 36V ... V tone curve conversion unit 38 ... Second color space conversion 42: Display mode selection unit 44 ... Smoothing parameter selection unit 46 ... Parameter storage unit 48 ... Tone car Table selection section 50 ... tone curve table storage section 52 ... tone curve conversion section 56 ... optical lens 58 ... imaging device 60 ... imaging processing section 62 ... image recording section 64 ... live / reproduction switching section a , B... Subject area.

Claims (22)

An image display device that displays an image after receiving an input image signal and performing gradation conversion,
Display mode switching means for switching the display mode;
Local gradation correction means for performing local gradation correction on the input image signal;
A gradation that performs gradation conversion processing on an image that has been subjected to local gradation correction by the local gradation correction means, using tone curve conversion corresponding to the display mode switched by the display mode switching means. Conversion means;
Display means for displaying an image after gradation conversion processing by the gradation conversion means;
An image display device comprising:   The image display apparatus according to claim 1, wherein the local gradation correcting unit smoothes a histogram of the input image signal for each local portion of the image.   The image display apparatus according to claim 1, wherein the local gradation correction unit performs gain correction for correcting the input image signal into a predetermined gradation region for each local portion of the image.   4. The local gradation correction unit switches between performing and not performing the local gradation correction according to the display mode switched by the display mode switching unit. An image display device according to claim 1. The local gradation correction means includes
Parameter storage means for storing parameters for performing the local gradation correction corresponding to each display mode switched by the display mode switching means;
According to the display mode switched by the display mode switching unit, the parameter stored in the parameter storage unit is switched and used to perform local gradation correction on the input image signal. The image display device according to claim 1.   The image display device according to claim 1, wherein the display mode switching unit includes a display mode switching operation unit that allows a user to manually switch a display mode.   The image display device according to claim 6, wherein the display mode switching unit switches the display mode depending on whether the user is operating or not operating the display mode switching operation unit. The display mode switching means is
Ambient light detection means for detecting ambient light intensity when performing image display is provided,
6. The image display device according to claim 1, wherein the display mode is switched in accordance with the intensity of external light detected by the ambient light detection unit.   9. The gradation conversion unit according to claim 8, wherein the gradation converting unit converts the tone curve characteristics in the display mode having a high external light intensity into a tone curve characteristic that enhances contrast as compared with the display mode having a low external light intensity. Image display device.   The image display apparatus according to claim 1, wherein the gradation converting unit converts the tone curve characteristics into different brightness components and chromaticity components in the input image signal. Display mode message superimposing means for superimposing a message indicating the type of the switched display mode on the image after the gradation conversion processing by the gradation converting means according to the display mode switched by the display mode switching means. Further comprising
The image display apparatus according to claim 1, wherein the display unit displays an image on which the message is superimposed by the display mode message superimposing unit. An imaging device that images a subject, records the captured image, and further reproduces the recorded image or displays the captured image live by an image viewer,
An imaging unit for imaging a subject;
An image recording unit for recording an image captured by the imaging unit;
Display mode switching means for switching the display mode of the image viewer;
Local gradation correction means for performing local gradation correction on an image captured by the imaging unit or an image recorded in the image recording unit;
A gradation that performs gradation conversion processing on an image that has been subjected to local gradation correction by the local gradation correction means, using tone curve conversion corresponding to the display mode switched by the display mode switching means. Conversion means;
Display means for displaying an image after gradation conversion processing by the gradation conversion means;
An imaging apparatus comprising:   The local gradation correction means smoothes an image captured by the imaging unit or a histogram of an image recorded in the image recording unit for each local part of an image. The imaging device described.   The local gradation correction means performs gain correction for correcting an image captured by the imaging unit or an image recorded in the image recording unit into a predetermined gradation region for each local portion of the image. The imaging apparatus according to claim 12, characterized in that:   15. The local gradation correction unit switches between performing and not performing the local gradation correction in accordance with the display mode switched by the display mode switching unit. An imaging apparatus according to claim 1. The local gradation correction means includes
Parameter storage means for storing parameters for performing the local gradation correction corresponding to each display mode switched by the display mode switching means;
Depending on the display mode switched by the display mode switching unit, the parameter stored in the parameter storage unit is switched and used for the image captured by the imaging unit or the image recorded in the image recording unit. The imaging apparatus according to claim 12, wherein local gradation correction is performed.   The imaging apparatus according to claim 12, wherein the display mode switching unit includes a display mode switching operation unit that allows a user to manually switch a display mode.   18. The imaging apparatus according to claim 17, wherein the display mode switching unit switches the display mode depending on whether the user is operating or not operating the display mode switching operation unit. The display mode switching means is
Ambient light detection means for detecting ambient light intensity when performing image display is provided,
The imaging apparatus according to claim 12, wherein the display mode is switched according to the intensity of external light detected by the ambient light detection unit.   The gradation conversion means converts to a tone curve characteristic that enhances contrast in a display mode with a high external light intensity compared to a display mode with a low external light intensity. Imaging device.   13. The gradation converting unit converts the tone curve characteristics into different brightness curve components and chromaticity components in an image captured by the image capturing unit or an image recorded in the image recording unit, respectively. The imaging device according to any one of 1 to 20. Display mode message superimposing means for superimposing a message indicating the type of the switched display mode on the image after the gradation conversion processing by the gradation converting means according to the display mode switched by the display mode switching means. Further comprising
The imaging device according to any one of claims 12 to 21, wherein the display unit displays an image on which the message is superimposed by the display mode message superimposing unit.

Images