WO2018008297A1 - 表示制御装置、表示制御方法 - Google Patents

表示制御装置、表示制御方法 Download PDF

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Publication number
WO2018008297A1
WO2018008297A1 PCT/JP2017/020182 JP2017020182W WO2018008297A1 WO 2018008297 A1 WO2018008297 A1 WO 2018008297A1 JP 2017020182 W JP2017020182 W JP 2017020182W WO 2018008297 A1 WO2018008297 A1 WO 2018008297A1
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WIPO (PCT)
Prior art keywords
display
image data
unit
luminance
processing
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Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/JP2017/020182
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English (en)
French (fr)
Japanese (ja)
Inventor
勝之 小野澤
友樹 黒田
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Canon Inc
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Canon Inc
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Publication of WO2018008297A1 publication Critical patent/WO2018008297A1/ja
Priority to US16/239,731 priority Critical patent/US20190139502A1/en
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G5/00Control arrangements or circuits for visual indicators common to cathode-ray tube indicators and other visual indicators
    • G09G5/10Intensity circuits
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G3/00Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
    • G09G3/20Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters
    • G09G3/34Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source
    • G09G3/36Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source using liquid crystals
    • G09G3/3607Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source using liquid crystals for displaying colours or for displaying grey scales with a specific pixel layout, e.g. using sub-pixels
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G3/00Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
    • G09G3/20Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters
    • G09G3/34Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source
    • G09G3/3406Control of illumination source
    • G09G3/342Control of illumination source using several illumination sources separately controlled corresponding to different display panel areas, e.g. along one dimension such as lines
    • G09G3/3426Control of illumination source using several illumination sources separately controlled corresponding to different display panel areas, e.g. along one dimension such as lines the different display panel areas being distributed in two dimensions, e.g. matrix
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G5/00Control arrangements or circuits for visual indicators common to cathode-ray tube indicators and other visual indicators
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G5/00Control arrangements or circuits for visual indicators common to cathode-ray tube indicators and other visual indicators
    • G09G5/02Control arrangements or circuits for visual indicators common to cathode-ray tube indicators and other visual indicators characterised by the way in which colour is displayed
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G5/00Control arrangements or circuits for visual indicators common to cathode-ray tube indicators and other visual indicators
    • G09G5/36Control arrangements or circuits for visual indicators common to cathode-ray tube indicators and other visual indicators characterised by the display of a graphic pattern, e.g. using an all-points-addressable [APA] memory
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N23/00Cameras or camera modules comprising electronic image sensors; Control thereof
    • H04N23/10Cameras or camera modules comprising electronic image sensors; Control thereof for generating image signals from different wavelengths
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N23/00Cameras or camera modules comprising electronic image sensors; Control thereof
    • H04N23/70Circuitry for compensating brightness variation in the scene
    • H04N23/741Circuitry for compensating brightness variation in the scene by increasing the dynamic range of the image compared to the dynamic range of the electronic image sensors
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G2320/00Control of display operating conditions
    • G09G2320/02Improving the quality of display appearance
    • G09G2320/0233Improving the luminance or brightness uniformity across the screen
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G2320/00Control of display operating conditions
    • G09G2320/06Adjustment of display parameters
    • G09G2320/0626Adjustment of display parameters for control of overall brightness
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G2320/00Control of display operating conditions
    • G09G2320/06Adjustment of display parameters
    • G09G2320/066Adjustment of display parameters for control of contrast
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G2320/00Control of display operating conditions
    • G09G2320/06Adjustment of display parameters
    • G09G2320/0673Adjustment of display parameters for control of gamma adjustment, e.g. selecting another gamma curve
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G2320/00Control of display operating conditions
    • G09G2320/06Adjustment of display parameters
    • G09G2320/0686Adjustment of display parameters with two or more screen areas displaying information with different brightness or colours

Definitions

  • the present invention relates to a display control device.
  • Advances in technology relating to display devices are expected to popularize display devices capable of displaying an image with a wide luminance range (dynamic range of luminance), an image with high presence, and the like.
  • the spread of liquid crystal display devices capable of displaying an image with a wide luminance range, an image with a high sense of reality, etc. is expected due to improvement of light emission luminance (amount of light emission) of backlight unit and advancement of technology regarding local dimming. ing.
  • the BL brightness is partially changed such that the BL brightness in the dark portion of the image (emission brightness of the backlight unit) is lower than the BL brightness in the bright portion of the image.
  • An image having a wide luminance range is called “HDR (High Dynamic Range) image” or the like.
  • a workflow for producing image content such as digital cinema (image production workflow) generally includes a shooting process and an editing process.
  • the photographing step is a step of obtaining photographed image data (image data representing an image of a subject) which is digital image data by photographing.
  • the shooting process is performed at the shooting site.
  • the editing process is a process subsequent to the photographing process, and is a process of editing the photographed image data obtained in the photographing process.
  • the editing process is called "post production” or the like.
  • color grading is performed to correct the appearance of the image to a desired appearance.
  • the editing process is performed at the editing site.
  • the editing site is generally different from the shooting site.
  • the editing site is an editing studio.
  • HDR image data image data representing an HDR image
  • processing parameters used in temporary color grading are recorded.
  • parameters of the type defined in ASC CDL The American Society of Cinematographers Color Decision List
  • ASC CDL The American Society of Cinematographers Color Decision List
  • HDR display device capable of displaying an HDR image
  • the HDR display device can not be used or the HDR image can not be displayed on the HDR display device due to the restriction of the power supply, the restriction of the carried item, and the like.
  • a display device (SDR display device) that can display an SDR image and can not display an HDR image is used, or an image (SDR image) whose luminance range is narrowed from the luminance range of the HDR image is displayed Do.
  • SDR display device a display device that can display an SDR image and can not display an HDR image
  • an image (SDR image) whose luminance range is narrowed from the luminance range of the HDR image is displayed Do.
  • the HDR image is displayed using the HDR display device.
  • FIG. 21 shows an example of the luminance range of the HDR image and the luminance range of the SDR image.
  • SDR images are described, for example, in ITU Rec. 709, DCI-P3, etc. have a luminance range defined by standards.
  • the HDR image has a brightness range corresponding to, for example, a brightness contrast ratio (brightness contrast ratio) of 400,000: 1 to 1,000,000: 1.
  • the SDR image corresponding to the HDR image is displayed in any of the following display modes 1 to 4.
  • the display mode 1 is a display mode for displaying an image in a luminance range obtained by compressing the luminance range of input image data.
  • FIG. 22 shows an example of the correspondence between the luminance range before compression and the luminance range after compression.
  • the luminance range is compressed from the luminance range of 0 to 1000 cd / m 2 to the luminance range of 0 to 500 cd / m 2 .
  • the luminance after compression changes linearly with respect to the change in luminance before compression.
  • Display mode 2 In display mode 2, an image area corresponding to a part of the luminance range of input image data is displayed in a set luminance range, and a predetermined display is performed in an image area not corresponding to a part of the luminance range of input image data.
  • a display mode for performing FIG. 23 shows an example of the correspondence between the luminance range before conversion in display mode 2 and the luminance range after conversion in display mode 2.
  • 0 ⁇ 200cd / m 2 of luminance range is converted into 0 ⁇ 500cd / m 2 of luminance range
  • luminance of 200 ⁇ 1000cd / m 2 has been converted into 500 cd / m 2.
  • the luminance after conversion changes linearly with respect to the change in luminance before conversion.
  • the display mode 3 is a display mode in which a part of the image area is displayed with the set luminance and another image area is displayed with the reference luminance. Specifically, in the display mode 3, display is performed with luminance higher than the reference luminance in a partial image area of the HDR image, and display with reference luminance is performed in another image area of the HDR image.
  • the size of the part of the image area, the brightness of the part of the image area, and the like are determined based on the power supply constraints.
  • the display mode 4 is a display mode for displaying an image by controlling the light emission luminance of the backlight unit to the set light emission luminance. Specifically, in the display mode 4, the light emission luminance of the backlight unit is controlled to the light emission luminance designated by the user. Then, the HDR image data is corrected based on the light emission luminance of the backlight unit.
  • the luminance of the displayed image depends on the display mode. Therefore, when the display is performed in a display mode different from the past display mode, the display similar to the display in the past display mode (even if the same processing parameter as the processing parameter used in the past is used) ( The same display as the past display mode) is not necessarily realized.
  • the luminance of the displayed image may deviate from the luminance in the provisional color grading. Even if parameters, information, and the like recorded by the techniques described in Patent Documents 1 to 3 are used, it is not possible to easily reduce the difference in luminance due to the difference in display mode and the like. Therefore, even if the techniques described in Patent Documents 1 to 3 are used, it is not possible to easily realize display similar to the display in the past display mode.
  • the said subject arises irrespective of the confirmation method of an image.
  • one frame of the moving image data may be recorded as still image data.
  • a still image based on the recorded still image data may be confirmed.
  • the above-mentioned subject arises.
  • the luminance of the displayed still image may deviate from the luminance of the displayed moving image (frame corresponding to the still image).
  • An object of the present invention is to provide a technology that can easily realize display similar to the display in the past display mode.
  • the first aspect of the present invention is First setting means for setting processing parameters used in predetermined image processing according to a user instruction;
  • a processing unit configured to generate processed image data by performing the predetermined image processing on input image data using the processing parameter set by the first setting unit;
  • a second setting unit configured to set a display mode in which an image based on the processed image data is displayed on a display unit in a luminance range different from the luminance range of the input image data;
  • a display control apparatus characterized by comprising:
  • the second aspect of the present invention is Setting means for setting a display mode in which an image based on input image data is displayed on a display unit in a luminance range different from the luminance range of the input image data; Control means for performing display control for displaying a moving image based on moving image data on the display unit in the display mode set by the setting means; Generation means for generating the frame displayed on the display unit as still image data; Recording means for recording the information on the display mode set by the setting means and the still image data in a storage medium in association with each other; And a display control apparatus characterized by comprising:
  • the third aspect of the present invention is A display control device different from the display control device described above, An acquisition unit for acquiring information on a display mode recorded by the display control device described above; Control means for performing display control for displaying an image based on input image data on a display unit based on the information; And a display control apparatus characterized by comprising:
  • the fourth aspect of the present invention is A first setting step of setting processing parameters used in predetermined image processing according to a user instruction; A processing step of generating processing image data by performing the predetermined image processing on input image data using the processing parameter set in the first setting step; A second setting step of setting a display mode in which an image based on the processed image data is displayed on a display unit in a luminance range different from the luminance range of the input image data; A recording step of recording, on a storage medium, information on the display mode set in the second setting step together with the processing parameter set in the first setting step; And a display control method characterized by:
  • the fifth aspect of the present invention is A setting step of setting a display mode in which an image based on input image data is displayed on a display unit in a luminance range different from the luminance range of the input image data; A control step of performing display control for displaying a moving image based on moving image data on the display unit in the display mode set in the setting step; Generating the frame displayed on the display unit as still image data; Recording the information related to the display mode set in the setting step and the still image data in association with each other on a storage medium; And a display control method characterized by:
  • the sixth aspect of the present invention is A display control method different from the display control method described above, An acquisition step of acquiring information on a display mode recorded by the display control method described above; A control step of performing display control for displaying an image based on input image data on a display unit based on the information; And a display control method characterized by:
  • a seventh aspect of the present invention is a program for causing a computer to execute each step of the display control method described above.
  • the display similar to the display in the past display mode can be easily realized.
  • FIG. 2 is a view showing an example of the configuration of an on-set display device according to a first embodiment.
  • a figure showing an example of a display mode concerning Example 1 The figure which shows an example of the processing flow of the onset display apparatus which concerns on Example 1.
  • a figure showing an example of display information concerning Example 1 FIG. 6 is a view showing an example of the arrangement of an editing display apparatus according to the first embodiment; The figure which shows an example of the processing flow of the edit display apparatus which concerns on Example 1.
  • FIG. 6 is a view showing an example of the arrangement of an editing display apparatus according to a second embodiment; The figure which shows an example of the boost display which concerns on Example 3.
  • the figure which shows an example of the gamma curve concerning Example 5, a display range, and a branch point The figure which shows the structural example of the display apparatus which concerns on Example 6.
  • Examples 1 to 6 of the present invention will be described.
  • the following Examples 1 to 6 are merely examples, and configurations obtained by appropriately changing or changing the configurations of Examples 1 to 6 within the scope of the present invention are also included in the present invention.
  • FIG. 1 shows a configuration example of an image processing system according to the present embodiment.
  • standards such as color management are not particularly limited, in the image processing system of FIG. 1, ACES (Academy Color Encode Specification) standard proposed by the Academy of Motion Picture Arts and Sciences (AMPAS) is used.
  • the image processing system of FIG. 1 has a photographing system and an editing system.
  • the imaging system is a system for imaging, and is used, for example, at a shooting site.
  • the imaging system includes an imaging device (digital camera) and an on-set display device (first display device) 101.
  • the editing system is a system for editing image data and is used, for example, at an editing site.
  • the editing system comprises a converter and an editing display device (second display device) 102.
  • provisional color grading of photographed image data is performed using the on-set display device 101 at the photographing site.
  • the photographed image data is image data generated by photographing using a photographing device, and is image data representing an image of a subject.
  • Temporary color grading is rough color grading, and is sometimes called "onset grading" or the like.
  • Color grading is an operation for correcting the appearance of an image to a desired appearance.
  • the on-set display device 101 displays an image (an image based on photographed image data) in the set display mode. Thereafter, at the editing site, actual color grading of photographed image data is performed using the editing display device 102.
  • This color grading is color grading that is more detailed than provisional color grading, for example, color grading for fine adjustment of appearance.
  • the photographing device generates photographed image data by photographing.
  • the luminance range (dynamic range of luminance) of the photographed image data is not particularly limited, but in the present embodiment, image data (HDR (High Dynamic Range) image data) having a wide luminance range is generated as photographed image data.
  • the HDR image data has a brightness range corresponding to, for example, a brightness contrast ratio (brightness contrast ratio) of 400,000: 1 to 1,000,000: 1.
  • the data format of the photographed image data is not particularly limited. In this embodiment, image data having a RAW format (RAW image data), image data having an ACES Proxy format (ACES Proxy image data), and the like are generated as photographed image data.
  • the ACESProxy format is a data format (transmission format) defined by ACES (Academy Color Encoding System).
  • ACESProxy image data is generated by applying data compression processing or the like to RAW image data.
  • the photographing device can output photographed image data to the outside.
  • the imaging apparatus outputs ACES Proxy image data to the on-set display device 101, and records RAW image data in the storage device.
  • the on-set display device 101 performs first image processing (predetermined image processing) on ACESProxy image data output from the imaging device, and performs image processing based on the image data subjected to the first image processing. indicate.
  • the first image processing includes a reference rendering transform (RRT), an output device transform (ODT), and the like.
  • RRT and ODT are processes defined by ACES.
  • RRT is a process for visualizing ACES space.
  • the ACES space is a color space defined by a color management standard advocated by the Academy of Motion Picture Arts and Sciences (AMPAS), and is a color space (linear space) common to input and output devices.
  • AMPAS Academy of Motion Picture Arts and Sciences
  • the RRT is an example of an OCES (Output Color Encoding that conforms ACES image data to an idealized display device. Specification) It can also be said that it is a standard rendering conversion process of converting into image data. Specifically, RRT can be said to be "a process of converting ACES image data into OCES image data representing the appearance of a standard film tone".
  • RRT includes, for example, tone conversion processing using a look-up table (LUT), color correction processing using a LUT, and the like. As the LUT, a one-dimensional lookup table, a three-dimensional lookup table, etc. are used.
  • the ACES image data is image data in an ACES space, and is, for example, A
  • the ODT is an output device conversion process that converts the OCES image data obtained by the RRT according to the output device.
  • the ODT can also be referred to as "a process of converting OCES image data into image data of a color space specific to an output device".
  • the ODT includes, for example, tone conversion processing using a one-dimensional lookup table, color correction processing using a one-dimensional lookup table, and the like.
  • ACESProxy data is converted to image data in a color space specific to the onset display device 101 by RRT and ODT.
  • the converter converts the RAW image data recorded in the storage device into image data having a predetermined data format, and outputs the converted image data to the editing display device 102.
  • the editing display device 102 performs second image processing (predetermined image processing) on the image data output from the converter, and displays an image based on the image data subjected to the second image processing.
  • the second image processing includes an input device transform (IDT), an RRT, an ODT, and the like.
  • the IDT is a process defined by ACES, and is a process for converting image data in a color space unique to a photographing apparatus into ACES data.
  • the image data output from the converter is converted into image data in a color space specific to the editing display device 102 by the IDT, RRT, and ODT.
  • conversion processing is performed to convert the gradation characteristic of the image data so as to conform to the gradation characteristic (the gradation characteristic based on the human visual characteristic) according to SMPTE ST-2084 instead of the ODT. It may be done.
  • a conversion process may be performed in addition to the ODT.
  • the gradation characteristic is a characteristic that indicates the correspondence between the gradation value and the luminance.
  • the onset display device 101 can record processing parameters used in temporary color grading (image processing for temporary color grading) in a USB memory (storage unit). Then, the editing display apparatus 102 can read the processing parameter used in temporary color grading from the USB memory, and can use the read processing parameter in main color grading (image processing for main color grading). Also, the on-set display device 101 can record display information indicating the display mode set for the on-set display device 101 in the USB memory. Then, the editing display device 102 can read display information from the USB memory and can display an image in a display mode indicated by the read display information. Thus, the editing display device 102 can easily realize display similar to the display in the display mode of the onset display device 101 in temporary color grading. For example, the editing display device 102 can easily reproduce the display of the onset display device 101 in provisional color grading.
  • the information may be notified from the on-set display device 101 to the editing display device 102 via a portable medium different from the USB memory.
  • Information may be notified from the on-set display device 101 to the editing display device 102 via other devices capable of storing information.
  • Other devices may or may not be directly connected to the onset display device 101 and the editing display device 102.
  • Other devices may be connected to the on-set display device 101 and the editing display device 102 via the Internet or the like.
  • the processing parameters are not particularly limited.
  • the processing parameters may be parameters used in image processing different from image processing for color grading.
  • Image processing using processing parameters is brightness adjustment processing, color adjustment processing, blurring processing, edge enhancement processing, tone curve adjustment, matrix conversion, and the like.
  • ASC as processing parameter It is possible to use parameters of the type defined in CDL (The American Society of Cinematographers Color Decision List).
  • CDL The American Society of Cinematographers Color Decision List).
  • SLOPE is a gain value to be multiplied by each gradation value of the image data.
  • the parameter of OFFSET is an offset value to be added to or subtracted from each tone value of the image data.
  • the parameter of POWER is a gamma value of gamma conversion to be applied to image data.
  • SATURATION is a chroma gain value by which each chroma value of the image data is multiplied.
  • FIG. 2 is a block diagram showing a configuration example of the onset display device 101.
  • the display performance of the onset display device 101 and the display performance of the editing display device 102 are not particularly limited, but in the present embodiment, the display performance of the onset display device 101 is inferior to the display performance of the editing display device 102 I assume.
  • the on-set display device 101 is a display device whose display luminance range is narrower than the luminance range of HDR image data
  • the editing display device 102 is a display device whose display luminance range is more than the luminance range of HDR image data.
  • the onset display device 101 is a SDR (Standard Dynamic Range) display device, an HDR display device with a limited display luminance range, or the like.
  • the editing display device 102 is an HDR display device or the like whose display luminance range is not limited.
  • the SDR display device is a display device which does not correspond to HDR image data and corresponds to SDR image data (image data representing an SDR image having a general luminance range narrower than the luminance range of the HDR image). is there.
  • the HDR display device is a display device corresponding to HDR image data.
  • the SDR image data is, for example, ITU Rec. 709, DCI-P3, etc. have a luminance range defined by standards.
  • ACESProxy image data (input image data of the onset display device 101; image data input to the onset display device 101) output from the imaging apparatus is input to the RGB generation unit 201.
  • the RGB generation unit 201 separates ACESProxy image data into ACES_RGB image data, which is RGB image data, and other additional information.
  • ACES_RGB image data has a gradation characteristic (linear characteristic) in which gradation values (R value, G value, and B value) change linearly with respect to a change in object luminance. It has color reproducibility that faithfully represents colors.
  • the processing for obtaining ACES_RGB image data from ACESProxy image data includes, for example, degamma processing, color reproduction correction processing, color space conversion processing, and the like.
  • the ACES_RGB image data is input to the image processing unit 202.
  • the image processing unit 202 performs predetermined image processing on ACES_RGB image data, and outputs image data and the like after the predetermined image processing has been performed.
  • the image processing unit 202 includes an image adjustment unit 203, an RRT processing unit 205, and an ODT processing unit 206.
  • the ACES_RGB image data is input to the image adjustment unit 203.
  • the image adjustment unit 203 performs temporary color grading processing on ACES_RGB image data in accordance with an instruction from the user (a user operation on the on-set display device 101). Thereby, processed image data is generated. Temporary color grading processing is image processing for temporary color grading. Then, the image adjustment unit 203 outputs the processed image data to the RRT processing unit 205.
  • the processing parameter setting unit 204 determines processing parameters in accordance with an instruction from the user, and sets the determined processing parameters in the image processing unit 202 (image adjusting unit 203). Then, the image adjustment unit 203 performs temporary color grading processing using the set processing parameter on ACES_RGB image data.
  • the RRT processing unit 205 subjects the processed image data output from the image adjustment unit 203 to RRT, and outputs the image data subjected to RRT to the ODT processing unit 206.
  • the ODT processing unit 206 performs an ODT process on the image data output from the RRT processing unit 205. Thereby, image data of a color space specific to the LCD module 207 is generated. Further, the ODT processing unit 206 generates a BL adjustment value so that an image based on input image data (specifically, processed image data) is suitably displayed.
  • the LCD module 207 has a liquid crystal panel, which is a display panel, and a backlight unit, which is a light emitting unit.
  • the BL adjustment value is a value related to the light emission luminance (light emission amount) of the backlight unit.
  • the ODT processing unit 206 outputs the image data subjected to the ODT processing to the LCD module 207, and outputs the BL adjustment value to the BL adjustment unit 208.
  • the display mode setting unit 210 selects one of a plurality of display modes according to an instruction from the user, and transmits mode information on the selected display mode to the image processing unit 202 (ODT processing unit 206).
  • Set. Mode information includes display mode information, display parameters used in the display mode, and the like.
  • the ODT processing unit 206 generates image data after ODT processing and a BL adjustment value based on the image data from the RRT processing unit 205 and the mode information from the display mode setting unit 210.
  • image data after ODT processing and a BL adjustment value are generated so that an image based on input image data (processed image data) is displayed in the set display mode.
  • the display mode setting unit 210 records the currently set mode information in the information storage unit 211 at a predetermined timing as part of the display information.
  • the information storage unit 211 may be a storage unit incorporated in the onset display device 101, or may be a storage unit that is removable from the onset display device 101.
  • the above-described USB memory is used as the information storage unit 211.
  • the process of selecting the display mode and setting the mode information may be automatically performed according to the type of input image data of the on-set display device 101, the use environment of the on-set display device 101, and the like. Further, processing in consideration of mode information may be included in temporary color grading processing, RRT, and the like. A process in which mode information is taken into consideration may be performed as a process independent of the provisional color grading process, RRT, ODT, and the like.
  • the BL adjustment unit 208 generates a BL control signal in accordance with the BL adjustment value output from the ODT processing unit 206. Then, the BL adjustment unit 208 outputs the generated BL control signal to the BL drive unit 209.
  • the BL control signal is a signal related to the light emission luminance of the backlight unit.
  • the light emitted from the backlight unit is applied to the back of the liquid crystal panel.
  • An image is displayed on the screen as light from the backlight unit passes through the liquid crystal panel.
  • the transmittance of the liquid crystal panel (the transmittance of light from the backlight unit through the liquid crystal panel) is controlled according to the image data after ODT processing. Ru.
  • the BL control signal is input to the BL driving unit 209
  • the BL driving unit 209 controls the light emission luminance of the backlight module according to the BL control signal.
  • an image based on input image data is displayed in the set display mode.
  • the “process of outputting the image data after the ODT process to the LCD module 207” can also be referred to as “the process of controlling the transmittance of the LCD module 207”.
  • the image processing unit 202 controls the transmittance of the liquid crystal panel
  • the BL driving unit 209 controls the light emission luminance of the backlight unit.
  • an image based on the input image data (processed image data) is displayed on the LCD module 207 in the set display mode. Therefore, in the present embodiment, display control for displaying an image based on input image data (processed image data) in the display mode set by the image processing unit 202 (ODT processing unit 206) and the BL driving unit 209 on the LCD module 207. Is done.
  • the processing parameter recording unit 212 acquires the currently set processing parameter from the image processing unit 202 (image adjustment unit 203). Then, the processing parameter recording unit 212 records the acquired processing parameter (the currently set processing parameter) in the information storage unit 211 at a predetermined timing as part of the display information.
  • the currently set processing parameter may be acquired from the processing parameter setting unit 204.
  • Performance information indicating the display performance (display brightness range, display brightness upper limit, settable display mode, settable parameters, and the like) of the onset display device 101 is recorded in the performance storage unit 213 in advance.
  • the performance storage unit 213 records performance information in the information storage unit 211 at a predetermined timing as part of display information. Performance information may be acquired from the outside.
  • the additional information obtained by the RGB generation unit 201 is input to the time code extraction unit 214.
  • the time code extraction unit 214 extracts the time code of the image data (frame) to be processed at present from the additional information. Then, the time code extraction unit 214 records the extracted time code (time code of the image data (frame) to be currently processed) as a part of the display information in the information storage unit 211 at a predetermined timing.
  • FIGS. 3A and 3B show an example of the display mode according to the present embodiment. Specifically, FIG. 3A shows the compression mode, and FIG. 3B shows the clip mode.
  • the compression mode is a display mode for performing simple compression display.
  • the simple compression display an image is displayed in a luminance range obtained by compressing the luminance range of input image data.
  • the simple compression display of the onset display device 101 for example, all or part of the display luminance range of the onset display device 101 is used as the luminance range after compression.
  • the luminance range (0.001 to 10000 cd / m 2 ) of the input image data is compressed to the display luminance range (0.01 to 400 cd / m 2 ) of the on-set display device 101. There is.
  • the clip mode is a display mode for displaying a clip.
  • clip display an image area corresponding to a part (clip range) of the luminance range of input image data is displayed in the set luminance range and is an image area not corresponding to a part of the luminance range of input image data.
  • a predetermined display is performed.
  • clip display of the onset display device 101 for example, all or part of the display luminance range of the onset display device 101 is used as the set luminance range.
  • the luminance range (0.001 ⁇ 10000cd / m 2) part of the input image data (1000 ⁇ 10000cd / m 2) is the display brightness range of onsets display device 101 (0.
  • predetermined display is performed in the image area of luminance lower than 1000 cd / m 2 .
  • lower luminance than 1000 cd / m 2 is displayed at 0 cd / m 2.
  • the maximum brightness of the clip range (part of the brightness range of the input image data) is lower than the maximum brightness of the brightness range of the input image data, in the image area of the brightness higher than the maximum brightness of the clip range.
  • a predetermined image display is performed. For example, the luminance higher than the maximum luminance of the clip range is displayed at the same luminance as the upper limit of the display luminance of the onset display device 101.
  • FIG. 4 is a flowchart showing an example of a process flow of the on-set display device 101.
  • the process flow of FIG. 4 is started, for example, in response to a provisional color grading start operation on the on-set display device 101.
  • the provisional color grading start operation is a user operation that instructs the start of provisional color grading.
  • the display mode setting unit 210 selects one of a plurality of display modes in accordance with an instruction from the user, and the mode information on the selected display mode is sent to the image processing unit 202 (ODT processing unit 206). Set against.
  • step S402 the processing parameter setting unit 204 determines processing parameters according to an instruction from the user, and sets the determined processing parameters in the image processing unit 202 (image adjustment unit 203).
  • processed image data is generated using the set processing parameter, and an image based on the processed image data is displayed in the set display mode.
  • the user performs a display mode change operation (a user operation instructing change of the display mode) on the on-set display device 101.
  • a display mode change operation a user operation instructing change of the display mode
  • the user roughly determines processing parameters by performing provisional color grading in a compression mode in which the entire luminance range of input image data is used.
  • the user performs a display mode change operation such that the display mode is changed to the clip mode in which part of the luminance range of the input image data is extracted and used.
  • the user determines the processing parameters in detail by performing temporary color grading in the clip mode.
  • “a plurality of display modes having different display parameters” may also be referred to as "a plurality of display modes different from each other”. Therefore, the change of the display mode (change of the display mode) may be a change of the display parameter.
  • the processes of S404 to S408 are performed.
  • the display mode change operation is not performed, the process proceeds to S409.
  • the time code extraction unit 214 extracts the time code of the image data (frame) to be processed at the time of the display mode change operation from the additional information.
  • the processing parameter recording unit 212 acquires, from the image processing unit 202, the processing parameter set at the time of the display mode change operation.
  • display information corresponding to the display mode before the change is recorded in the information storage unit 211.
  • the display mode setting unit 210 records the mode information set at the time of the display mode change operation in the information storage unit 211 as a part of the display information corresponding to the display mode before the change.
  • the processing parameter recording unit 212 records the processing parameter acquired in S405 in the information storage unit 211 as part of the display information corresponding to the display mode before the change.
  • the performance storage unit 213 records the performance information in the information storage unit 211 as part of the display information corresponding to the display mode before the change.
  • the time code extraction unit 214 records the time code extracted in S404 in the information storage unit 211 as part of display information corresponding to the display mode before the change.
  • step S407 the display mode setting unit 210 selects the display mode after the change in accordance with the display mode change operation in step S404, and transmits mode information on the selected display mode to the image processing unit 202 (ODT processing unit 206). Set Thereby, the set mode information is updated, and the display is updated.
  • step S408 the processing parameter setting unit 204 determines (changes) processing parameters in accordance with an instruction from the user, and sets the determined processing parameters in the image processing unit 202 (image adjustment unit 203). Thereby, the set processing parameter is updated and the display is updated. Thereafter, the process proceeds to S409.
  • the on-set display device 101 determines whether or not the temporary color grading termination operation has been performed on the on-set display device 101.
  • the provisional color grading termination operation is a user operation that instructs the termination of provisional color grading. If the provisional color grading termination operation is not performed, the process returns to S403, and if the provisional color grading termination operation is performed, the present processing flow is terminated.
  • the display information is recorded in the information storage unit 211 according to the change of the set mode information.
  • the timing of recording the display information is not particularly limited. For example, recording of display information may be performed according to a change in display luminance of the on-set display device 101. Display information may be recorded in response to a recording operation on the on-set display device 101. The recording operation is a user operation that instructs recording of display information. Recording of display information may be performed periodically at predetermined time intervals.
  • the data format of the display information is not particularly limited. For example, a data file of display information may be generated by adding other information to the data file of the processing parameter. Another data file associated with the data file of the processing parameter is generated as a data file of information different from the processing parameter, and a combination of the processing parameter and the other data file is generated as the data file of the display information Good.
  • FIG. 5 shows an example of display information.
  • FIG. 5 is an example of the case where parameters of the type defined in ASC CDL are used as processing parameters.
  • FIG. 5 is also an example of a case where a data file of display information is generated by appending other information to the data file of processing parameters.
  • the display information includes time code, processing parameters, color space information, display mode information, display parameters, and performance information.
  • the color space information is information indicating a color space of input image data of the on-set display device 101. Specifically, the color space information is information indicating a color space of image data used in temporary color grading processing.
  • the display information of FIG. 5 is display information of a certain period. In the example of FIG. 5, the time code of the start point of the corresponding period and the time code of the end point of the corresponding period are included in the display information. In addition, when a part of moving image data is removed or a scene is added to moving image data, the time code changes. In the example of FIG.
  • the time code before such editing and the time code after editing are included in the display information.
  • luminance conversion LUT information is further included in the display information.
  • the luminance conversion LUT information is information indicating a LUT (LUT for converting luminance) used in the onset display device 101.
  • a parameter indicating a luminance range after being compressed is described as a display parameter used in the simple compression display.
  • luminance range are included as a display parameter used by a clip display.
  • the color space information and the luminance conversion LUT information are recorded by, for example, the processing parameter recording unit 212.
  • the display information is not limited to the display information of FIG.
  • display mode information setting values of the image quality mode for changing the image quality of the display image (image displayed on the screen), setting values of the picture mode for changing the atmosphere of the display image, etc. are described. May be Although the display information corresponding to the frame is described in the example of FIG. 5, the display information corresponding to the scene may be described, or the display information corresponding to the entire input image data may be described.
  • a plurality of display modes can be selected for one frame, one scene, the entire input image data, and the like.
  • information on each of the plurality of display modes is described in the display information.
  • a plurality of processing parameters respectively corresponding to the plurality of display modes can be set individually.
  • the plurality of processing parameters are described in the display information.
  • FIG. 6 is a block diagram showing an exemplary configuration of the editing display apparatus 102.
  • Image data input image data of the editing display device 102; image data input to the editing display device 102; edited image data
  • the image input unit 601 outputs the edited image data to the image processing unit 602. Further, the image input unit 601 transmits and receives synchronization information between the synchronization control units 603.
  • the image input unit 601 when the image input unit 601 outputs edited image data of a certain frame, the image input unit 601 outputs, to the synchronization control unit 603, synchronization information for reading display information of the frame from the information storage unit 604. Do. In that case, the synchronization control unit 603 reads out from the information storage unit 604 the display information of the frame (frame to be displayed) output from the image input unit 601 in accordance with the synchronization information from the image input unit 601. Output an instruction (read instruction). The read instruction is output to the display mode setting unit 613, the performance information extraction unit 614, and the processing parameter extraction unit 615.
  • a user operation (read operation) for reading display information of a certain frame from the information storage unit 604 may be performed on the editing display device 102.
  • the synchronization control unit 603 outputs an instruction (readout instruction) for reading out the display information corresponding to the read operation.
  • the synchronization control unit 603 outputs synchronization information for displaying a frame corresponding to the read operation to the image input unit 601. Then, in response to the synchronization information from the synchronization control unit 603, the image input unit 601 outputs edited image data of a frame corresponding to the user operation.
  • the information storage unit 604 the same information as the information recorded in the information storage unit 211 is recorded.
  • the information storage unit 604 may be a storage unit built in the editing display device 102, or may be a storage unit that is removable from the editing display device 102.
  • the information storage unit 604 is an information storage unit 211 (USB memory).
  • the image processing unit 602 performs predetermined image processing on the edited image data, and outputs image data and the like after the predetermined image processing has been performed.
  • the image processing unit 602 includes an IDT processing unit 605, an image adjustment unit 606, an RRT processing unit 608, and an ODT processing unit 609.
  • the IDT processing unit 605 applies IDT to the edited image data.
  • edited image data which is image data of a color space unique to the photographing apparatus, is converted into ACES_RGB image data, which is image data of ACES space.
  • the IDT processing unit 605 outputs the ACES_RGB image data to the image adjustment unit 606.
  • the image adjustment unit 606 applies main color grading processing according to an instruction from the user (a user operation on the editing display device 102) to the ACES_RGB image data output from the IDT processing unit 605.
  • the main color grading processing is image processing for main color grading.
  • the image adjustment unit 606 outputs the image data subjected to the main color grading processing to the RRT processing unit 608.
  • the monitor adjustment value conversion unit 607 determines processing parameters in accordance with an instruction from the user, and sets the determined processing parameters in the image processing unit 602 (image adjustment unit 606). Then, the image adjustment unit 606 performs main color grading processing using the set processing parameter on ACES_RGB image data.
  • the RRT processing unit 608 subjects the image data output from the image adjustment unit 606 to RRT, and outputs the image data subjected to RRT to the ODT processing unit 609.
  • the ODT processing unit 609 subjects the image data output from the RRT processing unit 608 to ODT processing and conversion processing based on SMPTE ST-2084. Thereby, image data corresponding to the color space specific to the LCD module 611 and having gradation characteristics (gradation characteristics based on human visual characteristics) according to SMPTE ST-2084 is generated. Also, the ODT processing unit 609 generates a BL adjustment value so that an image based on the edited image data is suitably displayed. The ODT processing unit 609 outputs the image data after the ODT processing to the LCD module 611, and outputs the BL adjustment value to the BL adjustment unit 610. When the image data after ODT processing is input to the LCD module 611, the transmittance of the liquid crystal panel of the LCD module 611 is controlled according to the image data after ODT processing.
  • the BL adjustment unit 610 generates a BL control signal in accordance with the BL adjustment value output from the ODT processing unit 609. Then, the BL adjusting unit 610 outputs the generated BL control signal to the BL driving unit 612.
  • the BL driving unit 612 controls the light emission luminance of the backlight module included in the LCD module 611 according to the BL control signal output from the BL adjusting unit 610.
  • mode information may be set in the image processing unit 602. Then, in the image processing unit 602, processing in consideration of the mode information may be performed.
  • the editing display device 102 can perform display imitating the display of the on-set display device 101.
  • display simulating the display of the on-set display device 101 will be referred to as “emulated display”.
  • the emulated display is a display similar to the display in the display mode of the onset display device 101 at the time of temporary color grading processing. The method of realizing the emulated display will be described below.
  • display information is acquired from the information storage unit 604 by the display mode setting unit 613, the performance information extraction unit 614, and the processing parameter extraction unit 615.
  • the acquired display information indicates the past display mode of the image based on the edited image data (specifically, the input image data of the onset display device 101). Specifically, the acquired display information indicates the display mode of the onset display apparatus 101 at the time of temporary color grading processing.
  • the display mode setting unit 613 reads out the mode information (display mode information and display parameter) from the information storage unit 604 in response to the read instruction. Then, the display mode setting unit 613 converts the read mode information into mode information corresponding to the editing display device 102, and outputs the converted mode information to the monitor adjustment value conversion unit 607.
  • the converted mode information is one of the information required to realize the emulated display.
  • a plurality of mode information (a plurality of display mode information, a plurality of display parameters, and the like) exist as mode information corresponding to one frame.
  • the display mode setting unit 613 selects and uses one of a plurality of mode information in accordance with the user operation on the editing display apparatus 102. By switching the selected mode information to other mode information, it is possible to switch the display mode and display parameter reproduced in the emulated display.
  • the display mode setting unit 613 can also select and use two or more mode information. Thereby, a plurality of emulated displays corresponding to a plurality of mode information can be realized simultaneously.
  • the performance information extraction unit 614 reads the performance information from the information storage unit 604 according to the read instruction. Then, the performance information extraction unit 614 generates a performance adjustment value, which is one of the information necessary for realizing the emulated display, from the read performance information, and the generated performance adjustment value is converted to a monitor adjustment value conversion unit 607. Output to The performance adjustment value is, for example, a LUT that fills in the performance difference between the onset display device 101 and the editing display device 102.
  • the processing parameter extraction unit 615 reads the processing parameter from the information storage unit 604 according to the read instruction. Then, the process parameter extraction unit 615 adjusts the read process parameter, and outputs the adjusted process parameter to the monitor adjustment value conversion unit 607.
  • the adjusted processing parameters are one piece of information necessary to realize the emulated display.
  • the process parameter extraction unit 615 for example, the process of converting the read process parameter into the process parameter corresponding to the editing display device 102 is performed as adjustment of the process parameter.
  • the monitor adjustment value conversion unit 607 determines processing parameters for realizing the emulated display based on the information output from the display mode setting unit 613, the performance information extraction unit 614, and the processing parameter extraction unit 615. Then, the monitor adjustment value conversion unit 607 sets the determined processing parameter to the image processing unit 602 (image adjustment unit 606). As a result, display control to realize emulated display is performed. In other words, display control is performed to display an image based on the edited image data on the LCD module 611 in the same display mode as the past display mode.
  • display control for realizing emulated display is performed based on the display information. If display information is used, the method of realizing emulated display is not particularly limited.
  • FIG. 7 is a flowchart showing an example of the processing flow of the editing display apparatus 102.
  • the processing flow of FIG. 7 is started, for example, in response to an emulated display start operation on the editing display apparatus 102.
  • the emulated display start operation is a user operation instructing to start emulated display.
  • the display mode setting unit 613 selects one of a plurality of display modes selectable by the on-set display device 101 in accordance with an instruction from the user.
  • a list of a plurality of display modes is displayed, and one of the plurality of display modes indicated in the list is selected.
  • the process of S701 may be performed after the process of S703. In that case, only the display mode associated with the mode information indicated by the obtained display information may be used as a display mode selectable by the display mode setting unit 613.
  • the synchronization control unit 603 performs synchronization processing so that the display information is read from the information storage unit 604 in synchronization with the output of the edited image data from the image input unit 601. Specifically, the synchronization control unit 603 outputs a read instruction according to the synchronization information from the image input unit 601.
  • display information corresponding to the display mode selected in S701 is acquired from the information storage unit 604 by the display mode setting unit 613, the performance information extraction unit 614, and the processing parameter extraction unit 615. Then, the display mode setting unit 613, the performance information extraction unit 614, and the processing parameter extraction unit 615 perform processing using the acquired display information.
  • the processing of the display mode setting unit 613, the processing of the performance information extraction unit 614, and the processing of the processing parameter extraction unit 615 are as described above.
  • predetermined information is notified to the user. Then, the process returns to S701. For example, an image (text image, icon, etc.) indicating that display information is not present is displayed on the screen of the editing display device 102.
  • the predetermined information may be notified by voice.
  • step S704 the monitor adjustment value conversion unit 607 determines processing parameters for realizing emulated display based on the result of the processing in step S703 (processing using display information).
  • the monitor adjustment value conversion unit 607 sets the processing parameter determined in S704 in the image processing unit 602 (image adjustment unit 606).
  • the image processing unit 602 the BL adjustment unit 610, and the BL drive unit 612 perform display control using the processing parameter determined in S705. As a result, emulated display corresponding to the display mode selected in S701 is realized.
  • the editing display apparatus 102 determines whether a display mode addition operation has been performed on the editing display apparatus 102.
  • the display mode addition operation is a user operation for adding a display mode for realizing emulated display. If the display mode addition operation has been performed, the process proceeds to S 708. If the display mode addition operation has not been performed, the processing flow is ended.
  • display mode setting unit 613 additionally selects a display mode in accordance with the display mode addition operation. Then, the process returns to S702. As a result, emulated display of an image corresponding to the display mode selected in S708 is additionally performed. That is, multi-screen display is performed in which the image corresponding to the display mode selected in S701 and the image corresponding to the display mode selected in S708 are displayed side by side.
  • a display mode switching operation may be performed instead of the display mode addition operation.
  • the display mode switching operation is a user operation for switching the display mode for realizing the emulated display to another display mode.
  • the display mode switching operation is performed, the display is switched from emulating the image corresponding to the display mode selected in S701 to emulating the image corresponding to the display mode after switching according to the display mode switching operation. , The display of the editing display device 102 is updated.
  • the past display mode is a simple method of recording display information indicating the used display mode in the storage unit and reading out and using the display information from the storage unit. It is possible to easily realize the display similar to the display in.
  • Example 2 A second embodiment of the present invention will be described. In the present embodiment, an example will be described in which the convenience of the image processing system is further improved. In the following, the description of the same points (configuration and processing) as the first embodiment will be omitted, and the points different from the first embodiment will be described in detail.
  • the brightness outside the clip range is limited to a predetermined brightness.
  • the user pays attention to the image area limited to a predetermined luminance and uses the compression mode for detailed adjustment / confirmation on the image area. Also, the user pays attention to the image area corresponding to the clip range, and uses the clip mode for detailed adjustment / confirmation on the image area.
  • the image area to which the user focuses is dependent on the display mode.
  • the display control (display control for emulating display) of the editing display device 102 makes it possible to distinguish an image area focused on in the past display in the past display mode from other image areas.
  • An image based on the edited image data is displayed.
  • an image area focused by provisional color grading is distinguished from other image areas.
  • the convenience of the image processing system can be further improved.
  • the user can easily grasp the image area focused on in the past display.
  • the focused image area, the intention of the operation, and the like can be conveyed to the post-process user with high accuracy.
  • the working efficiency of the post process can be improved.
  • FIG. 8 is a block diagram showing a configuration example of the editing display apparatus 102 according to the present embodiment.
  • the editing display apparatus 102 according to the present embodiment further includes a threshold value determination unit 801.
  • the same functional units as in the first embodiment (FIG. 6) are denoted by the same reference numerals as those in the first embodiment.
  • the threshold determination unit 801 determines a threshold for determining an image area focused on in the past. Then, the threshold determination unit 801 outputs the determined threshold to the image processing unit 602 (image adjustment unit 606). In the present embodiment, the threshold value determination unit 801 acquires the converted mode information from the display mode setting unit 613 and acquires the performance adjustment value from the display mode setting unit 613. Then, the threshold determination unit 801 determines a threshold based on the converted mode information and the performance adjustment value. For example, as the threshold value, a gradation value corresponding to the upper limit of luminance in the clip range, a gradation value corresponding to the lower limit of luminance in the clip range, and the like are determined.
  • the image adjustment unit 606 performs the same processing as that of the first embodiment. However, in the present embodiment, the image adjustment unit 606 determines an image area focused on in the past based on the threshold value from the threshold value determination unit 801. Then, the image adjustment unit 606 processes and outputs the image data after the main color grading processing so that the focused image area is displayed in a distinguishable manner.
  • the gradation value corresponding to the upper limit of the luminance in the clip range is determined as the threshold value. In this case, an image range having a tone value larger than the threshold value after the main color grading process is detected, and the detected image range is identifiably displayed. Image data is processed.
  • the method for identifiably displaying the image area focused in the past is not limited to the above method. Any method may be used as long as the image area focused in the past is distinguished from other image areas.
  • a method of changing the display of the focused image area a method of emphasizing the outline of the focused image area, a method of blinking the focused image area, a method of changing the color of the focused image area, There is a method of changing the luminance of the selected image area, and the like.
  • the display of image areas other than the noted image area may be changed.
  • the image area in which the gradation value has been changed may be detected by this color grading processing, and the image area may be displayed in a distinguishable manner.
  • display control is performed to display an image such that the image area focused in the past display in the past display mode is distinguished from other image areas.
  • a notification process may be performed to notify the user of display information indicating a past display mode.
  • Such a configuration can also improve the convenience of the image processing system. For example, the user can easily grasp the past display mode.
  • a process of notifying display information for example, display of a graphic image indicating display information, output of sound indicating display information, and the like are performed.
  • Example 3 A third embodiment of the present invention will be described. In the following, the description of the same points (configuration and processing) as the first embodiment will be omitted, and the points different from the first embodiment will be described in detail.
  • a display mode different from those of Embodiments 1 and 2 is used will be described.
  • a display mode for performing boost display is used will be described.
  • the simple compression display or the clip display and the boost display are used in combination will be described below, the simple compression display or the clip display may not be performed.
  • the boost display a part of the image area is displayed with the set luminance, and the other image area is displayed with the reference luminance.
  • the set brightness is used as the upper limit value of the display brightness of a part of the image area
  • the reference brightness is used as the upper limit value of the display brightness of the other image area.
  • Onset display devices may not be able to display the entire image with high brightness due to power supply constraints. However, if limited to a part of the image area, even with the onset display device, high brightness display is possible.
  • FIG. 9 shows an example of the boost display.
  • the brightness of the image area in the first row and the third column is enhanced by the boost display.
  • FIG. 10 is a block diagram showing a configuration example of the on-set display device 101 according to the present embodiment.
  • the onset display device 101 according to the present embodiment further includes a luminance boost setting unit 1001.
  • the same functional units as in the first embodiment (FIG. 2) are denoted by the same reference numerals as those in the first embodiment.
  • the luminance boost setting unit 1001 determines whether to perform boost display according to an instruction from the user (an instruction to specify whether to perform boost display). When performing boost display, the luminance boost setting unit 1001 determines a boost region in accordance with an instruction from the user (an instruction to specify a boost region). The boost area is an image area displayed at the set luminance. Further, the luminance boost setting unit 1001 acquires the currently set mode information from the display mode setting unit 210. Then, the luminance boost setting unit 1001 determines the luminance of the boost region based on the determined boost region and the acquired mode information. For example, the brightness of the boost region is determined such that the power state of the onset display device 101 satisfies the constraints.
  • the luminance boost setting unit 1001 sets the determined boost region and the determined luminance in the BL adjustment unit 208.
  • the luminance boost setting unit 1001 records information regarding the current state of boost display as a part of display information in the information storage unit 211 at a predetermined timing. For example, information indicating the presence or absence of execution of boost display, the boost region, the brightness of the boost region, and the like are recorded in the information storage unit 211.
  • the method of determining whether or not to perform boost display, the method of determining the boost region, the method of determining the brightness of the boost region, and the like are not particularly limited.
  • display control may be performed such that boost display is always performed.
  • the boost region and its luminance may be automatically determined based on the luminance distribution of the image, the use environment of the on-set display device 101, and the like.
  • the brightness of the boost region may be determined according to only the instruction from the user.
  • the BL adjustment unit 208 performs the same processing as that of the first embodiment. However, in the present embodiment, when boost display is performed, the BL adjustment unit 208 uses the BL adjustment value from the ODT processing unit 206 and the boost information (boost region and brightness) set by the brightness boost setting unit 1001. To generate a BL control signal. Specifically, the BL adjustment unit 208 generates a BL control signal such that the display luminance of the set boost region is controlled to the luminance corresponding to the set luminance. Thereby, a boost display is realized.
  • the implementation method of a boost display is not specifically limited.
  • the boost display may be realized by correcting the image data based on the set boost region and the set luminance.
  • the boost display may be realized by the BL drive unit 209 correcting the BL control signal based on the set boost region and the set brightness.
  • FIG. 11 is a flowchart showing an example of the process flow of the on-set display device 101 according to the present embodiment.
  • the processing flow of FIG. 11 is started, for example, in response to a provisional color grading start operation on the on-set display device 101.
  • boost display is performed is demonstrated.
  • the processing flow when the boost display is not performed is the same as that of the first embodiment (FIG. 4).
  • the display mode setting unit 210 selects any of a plurality of display modes in accordance with an instruction from the user. Mode information on the selected display mode is set for the image processing unit 202 (ODT processing unit 206) and the luminance boost setting unit 1001.
  • the luminance boost setting unit 1001 determines a boost region according to an instruction from the user, and based on the determined boost region and the mode information set in S1101, the luminance of the boost region is determined. Decide. Then, the luminance boost setting unit 1001 sets the determined boost region and the determined luminance in the BL adjustment unit 208.
  • step S1103 the processing parameter setting unit 204 determines processing parameters in accordance with an instruction from the user, and sets the determined processing parameters in the image processing unit 202 (image adjustment unit 203).
  • processed image data is generated using the set processing parameter, and an image based on the processed image data is displayed in the set display mode.
  • processing parameters corresponding to the entire image may be determined, in the present embodiment, processing parameters are determined for the boost region determined in S1102.
  • the time code extraction unit 214 extracts the time code of the image data (frame) to be processed at present from the additional information.
  • step S1105 the processing parameter recording unit 212 acquires the processing parameter currently set from the image processing unit 202.
  • display information corresponding to the current display mode is recorded in the information storage unit 211.
  • the display mode setting unit 210 records the currently set mode information in the information storage unit 211 as part of the display information corresponding to the current display mode.
  • the processing parameter recording unit 212 records the processing parameter acquired in S1105 in the information storage unit 211 as a part of display information corresponding to the current display mode.
  • the performance storage unit 213 records the performance information in the information storage unit 211 as a part of display information corresponding to the current display mode.
  • the time code extraction unit 214 records the time code extracted in S1104 in the information storage unit 211 as part of the display information corresponding to the current display mode.
  • the luminance boost setting unit 1001 records information regarding the current state of boost display in the information storage unit 211 as part of display information corresponding to the current display mode.
  • the on-set display device 101 determines whether or not the boost display on the frame to be processed is completed. For example, when a user operation instructing the completion of the boost display is performed, it is determined that "the boost display for the frame to be processed is completed". When a user operation instructing change of a boost area, addition of a boost area, or the like is performed, it is determined that "the boost display for the frame to be processed is not completed". If the boost display is not completed, the process proceeds to S1108. If the boost display is completed, the process proceeds to S1109.
  • luminance boost setting unit 1001 redetermines the boost region in accordance with an instruction from the user, and the redetermined boost region based on the redetermined boost region and the currently set mode information. Determine the brightness of the Then, the luminance boost setting unit 1001 sets, for the BL adjustment unit 208, the redetermined determined boost region and the determined luminance (the luminance of the redetermined boost region). Thereby, the boost display is updated. Thereafter, the process returns to S1103. Then, the processing in S1103 to S1107 is performed again, and display information corresponding to the redetermined boost area is recorded in the information storage unit 211.
  • the "redetermined boost region” means a "boost region after change", a “boost region added”, and the like.
  • display information is recorded in the information storage unit 211 according to the change of the set boost region.
  • the timing of recording the display information is not particularly limited.
  • display mode setting unit 210 selects the display mode after the change according to the display mode change operation, and sets mode information on the selected display mode in image processing unit 202 (ODT processing unit 206). . Thereby, the set mode information is updated, and the display is updated.
  • the on-set display device 101 for example, the control unit (not shown) of the on-set display device 101
  • boost display corresponding to the display mode after change For example, when a user operation instructing to execute boost display is performed, it is determined that “boost display corresponding to the display mode after change is performed”. When a user operation instructing non-execution of boost display is performed, it is determined that "boost display corresponding to the display mode after change is not performed”. If the boost display is to be performed, the process returns to S1102, and if the boost display is not to be performed, the process proceeds to S1111.
  • step S1111 the processing parameter setting unit 204 determines (changes) processing parameters in accordance with an instruction from the user, and sets the determined processing parameters in the image processing unit 202 (image adjustment unit 203). Thereby, the set processing parameter is updated and the display is updated. Thereafter, the process proceeds to S1112.
  • the processing of S1109 to S1111 is performed only when the display mode change operation is performed.
  • the on-set display device 101 determines whether or not the temporary color grading termination operation has been performed on the on-set display device 101. If the provisional color grading termination operation is not performed, the process returns to S1101. If the provisional color grading termination operation is performed, the present processing flow is terminated.
  • FIG. 12 shows an example of display information according to the present embodiment.
  • FIG. 12 is an example in which a parameter of the type defined in ASC CDL is used as a processing parameter.
  • FIG. 12 is also an example of a case where a data file of display information is generated by appending other information to the data file of processing parameters.
  • the display information in FIG. 12 is merely an example, and the display information is not limited to the information in FIG.
  • the display information of FIG. 12 further includes information on the state of boost display, in addition to the information of the first embodiment (FIG. 5). Specifically, information indicating whether or not boost display has been performed is included in the display information of FIG. 12 as part of the information of the display mode.
  • the display information in FIG. 12 includes information indicating the boost region and information indicating the brightness of the boost region as part of the display parameters of the booth display. Furthermore, the display information of FIG. 12 includes tone map information of the boost region as part of the display parameters of the boost region.
  • the tone map information of the boost region is information indicating the conversion characteristic of the tone value of the boost region.
  • multiple image areas can be used as boost areas.
  • a plurality of boost regions a plurality of pieces of boost information (combination of boost region and luminance) corresponding to the plurality of boost regions are described in the display information.
  • a plurality of processing parameters respectively corresponding to the plurality of boost regions can be set individually.
  • the plurality of processing parameters are described in the display information.
  • FIG. 13 is a block diagram showing a configuration example of the editing display apparatus 102 according to the present embodiment.
  • the editing display apparatus 102 according to the present embodiment further includes a luminance boost setting unit 1301.
  • the same functional units as those of the first embodiment (FIG. 6) are denoted by the same reference numerals as those of the first embodiment.
  • the editing display apparatus 102 further performs the following processing at the time of emulated display.
  • the readout instruction from the synchronization control unit 603 is also input to the luminance boost setting unit 1301.
  • the luminance boost setting unit 1301 reads out information related to the state of boost display from the information storage unit 604 according to the read instruction. For example, boost information (boost region and brightness of boost region) is read out. Then, the luminance boost setting unit 1301 sets the read boost information in the BL adjustment unit 610.
  • a BL control signal is generated based on the BL adjusting value from the ODT processing unit 609 and the boost information set by the luminance boost setting unit 1301.
  • the BL adjusting unit 610 generates a BL control signal such that the display luminance of the set boost region is controlled to the luminance corresponding to the set luminance. Thereby, the emulated display is realized in the set boost region.
  • the luminance boost setting unit 1301 selects and uses one of a plurality of boost regions used in the past according to a user operation on the editing display apparatus 102. By switching the selected boost area to another boost area, it is possible to switch the image area (boost area) in which the emulated display is realized. Also, the luminance boost setting unit 1301 can select and use two or more boost regions. For example, the brightness boost setting unit 1301 may select and use two or more boost regions whose mode information is equal to each other. Thereby, emulated display can be realized simultaneously in each of the plurality of boost regions.
  • FIG. 14 is a flowchart showing an example of the processing flow of the editing display apparatus 102 according to the present embodiment.
  • the processing flow of FIG. 14 is started, for example, in response to an emulated display start operation on the editing display apparatus 102.
  • the emulated display start operation is a user operation instructing to start emulated display.
  • the display mode setting unit 613 selects one of a plurality of display modes selectable by the on-set display device 101 according to an instruction from the user.
  • the luminance boost setting unit 1301 selects one of a plurality of boost regions selectable by the onset display device 101 according to an instruction from the user.
  • a list of a plurality of boost regions is displayed, and one of the plurality of boost regions indicated in the list is selected.
  • the process of S1402 may be performed after the process of S1404. In that case, only the boost region indicated by the obtained display information may be used as a boost region selectable by the brightness boost setting unit 1301.
  • the synchronization control unit 603 performs synchronization processing so that the display information is read from the information storage unit 604 in synchronization with the output of the edited image data from the image input unit 601. Specifically, the synchronization control unit 603 outputs a read instruction according to the synchronization information from the image input unit 601.
  • display information is acquired from the information storage unit 604 by the display mode setting unit 613, the performance information extraction unit 614, the processing parameter extraction unit 615, and the luminance boost setting unit 1301.
  • display information corresponding to the display mode selected in S1401 and the boost region selected in S1402 is acquired from the information storage unit 604.
  • the display mode setting unit 613, the performance information extraction unit 614, and the processing parameter extraction unit 615 perform processing using the acquired display information.
  • predetermined information is notified to the user. Then, the process returns to S1401. For example, an image (text image, icon, etc.) indicating that display information is not present is displayed on the screen of the editing display device 102.
  • the predetermined information may be notified by voice.
  • step S1405 the monitor adjustment value conversion unit 607 determines processing parameters for realizing emulated display based on the result of the processing in step S1404 (processing using display information).
  • step S1406 the luminance boost setting unit 1301 sets, for the BL adjustment unit 610, the boost information (boost region and luminance of boost region) read in step S1404.
  • step S1407 the monitor adjustment value conversion unit 607 sets the processing parameter determined in step S1405 to the image processing unit 602 (image adjustment unit 606).
  • the image processing unit 602, the BL adjustment unit 610, and the BL drive unit 612 perform display control using the processing parameters determined in S1405 and the boost information read in S1404. .
  • emulated display corresponding to the display mode selected in S1401 is realized in the boost region selected in S1402.
  • other information for controlling display luminance such as tone map information of a boost region may be further used.
  • the editing display apparatus 102 determines whether a boost region addition operation has been performed on the editing display apparatus 102.
  • the boost area addition operation is a user operation for adding an image area (boost area) for realizing emulated display. If the boost region addition operation has been performed, the process proceeds to S1410, and if the boost region addition operation is not performed, the present processing flow is ended.
  • the luminance boost setting unit 1301 additionally selects a boost region in accordance with the boost region addition operation. Then, the process returns to S1403. As a result, emulation display in the boost region selected in S1410 is additionally performed. That is, emulated display is performed in parallel in the boost region selected in S1402 and the boost region selected in S1410.
  • a boost region switching operation may be performed instead of the boost region addition operation.
  • the boost area switching operation is a user operation for switching the boost area for realizing the emulated display to another boost area.
  • the display of the editing display device 102 is changed from the emulation display in the boost area selected in S1401 to the emulation display in the boost area after switching according to the display mode switching operation. It will be updated.
  • Embodiment 1 the same processing as that of Embodiment 1 is performed in consideration of the boost display. Thereby, it is possible to easily realize emulated display imitating past boost display by a simple method.
  • Example 4 A fourth embodiment of the present invention will be described.
  • a display unit LCD module
  • a light emitting unit backlight unit
  • a display panel liquid crystal panel
  • FIG. 15 is a block diagram showing a configuration example of a display device 1501 according to the present embodiment.
  • the image processing unit 1503 includes an image adjustment unit 1504, a luminance control unit 1505, and a capture unit 1508.
  • the image data output from the image data receiving unit 1502 is input to the image adjusting unit 1504.
  • the image adjustment unit 1504 performs predetermined image processing on the image data output from the image data reception unit 1502.
  • the predetermined image processing is, for example, image processing for color grading.
  • the predetermined image processing includes color matrix conversion, CDL adjustment, and the like.
  • the color matrix conversion is, for example, image processing for converting each pixel value of the image data output from the image data receiving unit 1502 from YCbCr values to RGB values.
  • CDL adjustment is image processing using parameters of the type defined in ASC CDL.
  • the image adjustment unit 1504 outputs the image data subjected to the predetermined image processing to the capture unit 1508. Further, the image adjustment unit 1504 can omit predetermined image processing, and can output the image data output from the image data reception unit 1502 to the capture unit 1508 as it is (through processing).
  • the image adjustment unit 1504 receives, from the display state control unit 1510, a notification regarding whether capture reproduction is in progress. Capture reproduction is processing for reading out captured image data from the setting storage unit 1512 and displaying a still image based on the read out captured image data. Then, the image adjustment unit 1504 determines whether or not predetermined image processing is to be performed, depending on whether capture reproduction is in progress. Details will be described later.
  • the brightness control unit 1505 has a BL control unit 1507.
  • the display brightness is notified from the display state control unit 1510 to the BL control unit 1507.
  • the BL control unit 1507 generates a control value related to the light emission luminance of the backlight unit 1506 according to the display luminance notified from the display state control unit 1510.
  • the BL control unit 1507 generates a control value such that white is displayed with the display luminance notified from the display state control unit 1510.
  • the BL control unit 1507 displays white with a display brightness of 500 cd / m 2.
  • the luminance control unit 1505 outputs the generated control value to the backlight unit 1506.
  • the backlight unit 1506 emits light with emission luminance according to the control value output from the BL control unit 1507.
  • the emission luminance of the backlight unit 1506 can be changed by changing the pulse width of the pulse signal supplied to the light emitting element of the backlight unit 1506, the pulse amplitude of the pulse signal, or both of them.
  • a light emitting element of the backlight unit 1506 a light emitting diode, an organic EL element, a cold cathode tube, a plasma element or the like can be used.
  • pulse width, pulse amplitude, or both can be used as control values.
  • the “display luminance notified from the display state control unit 1510” can also be referred to as “a set value of light emission luminance of the backlight unit 1506”.
  • the “processing of outputting a control value to the backlight unit 1506” can also be referred to as “processing of controlling the light emission luminance of the backlight unit 1506”.
  • the capture unit 1508 outputs the image data output from the image adjustment unit 1504 to the liquid crystal panel 1509 as it is. Also, the capture unit 1508 receives, from the data generation unit 1511, a notification regarding whether or not to perform the capture process. Then, the capture unit 1508 does not execute the capture process when not receiving the notification of performing the capture process, and executes the capture process when receiving the notification of performing the capture process.
  • the capture process is a process of generating a frame currently displayed on the display device 1501 (liquid crystal panel 1509) out of a plurality of frames of a moving image based on input image data as captured image data which is still image data. Captured image data is generated using the image data output from the image adjustment unit 1504. Then, the capture unit 1508 outputs the generated capture image data to the data generation unit 1511.
  • the liquid crystal panel 1509 displays an image by transmitting the light from the backlight unit 1506.
  • the transmittance of the liquid crystal panel 1509 is controlled according to the image data output from the capture unit 1508 to the liquid crystal panel 1509.
  • the display state control unit 1510 notifies the BL control unit 1507 of the display brightness.
  • the display state control unit 1510 reads display brightness from the setting storage unit 1512 and notifies the BL control unit 1507 of the read display brightness.
  • the display state control unit 1510 can also notify the BL control unit 1507 of the display luminance designated by the user.
  • the user can instruct the display device 1501 to change the display luminance.
  • the display state control unit 1510 notifies the BL control unit 1507 of the display brightness after the change.
  • the display state control unit 1510 outputs a notification as to whether or not capture reproduction is in progress to the image adjustment unit 1504. For example, the display state control unit 1510 notifies the start of capture reproduction to the image adjustment unit 1504 in response to a capture reproduction start operation (a user operation instructing start of capture reproduction) on the display device 1501. Then, the display state control unit 1510 notifies the image adjustment unit 1504 of the end of the capture reproduction in response to the capture reproduction end operation (a user operation instructing the end of the capture reproduction) on the display device 1501. In that case, the image adjustment unit 1504 determines a period from the capture reproduction start operation to the capture reproduction end operation as a period during capture reproduction, and determines another period as a period during capture reproduction.
  • a capture reproduction start operation a user operation instructing start of capture reproduction
  • the data generation unit 1511 outputs a notification as to whether or not to perform the capture process to the capture unit 1508. For example, the data generation unit 1511 outputs, to the capture unit 1508, a notification that the capture process is to be performed, in response to a capture execution operation (a user operation instructing execution of the capture process) on the display device 1501.
  • a capture execution operation a user operation instructing execution of the capture process
  • the data generation unit 1511 acquires captured image data output from the capture unit 1508.
  • the data generation unit 1511 acquires information on the currently set display luminance from the setting storage unit 1512.
  • the data generation unit 1511 associates the acquired captured image data and the acquired display luminance (information of display luminance) with each other, and records them in the setting storage unit 1512.
  • "information of display luminance” can be said to be "display information indicating a display mode”.
  • "information of display brightness” can also be referred to as "information of parameter indicating display brightness”, “information of display parameter used in BL control display”, and the like.
  • the setting storage unit 1512 is a storage unit such as a non-volatile memory.
  • the setting storage unit 1512 acquires information (setting information) of the currently set display luminance from the display state control unit 1510, and stores the acquired setting information.
  • the setting storage unit 1512 also acquires information (captured image data associated with each other and information including display luminance; capture data) output from the data generation unit 1511, and stores the acquired capture data.
  • the capture data is stored separately from the setting information.
  • the setting storage unit 1512 may be a device separate from the display device 1501 (for example, a storage device such as a USB memory).
  • each functional unit at the time of capture processing will be described.
  • a moving image based on input image data is displayed by the display device 1501.
  • predetermined image processing is being performed in the image adjustment unit 1504.
  • the data generation unit 1511 outputs a notification (capture execution notification) of performing the capture process to the capture unit 1508. Based on the image data output from the image adjustment unit 1504, the capture unit 1508 generates capture image data of the frame displayed at the timing when the capture execution notification is received. Then, the capture unit 1508 outputs the generated capture image data to the data generation unit 1511.
  • the data format of the capture image data is not particularly limited. As captured image data, for example, BMP image data, JPEG image data, PNG image data, etc. are generated.
  • the data generation unit 1511 When acquiring captured image data from the capture unit 1508, the data generation unit 1511 acquires, from the setting storage unit 1512, information on display luminance that is currently set. Then, the data generation unit 1511 associates the acquired captured image data and the acquired display luminance (information of display luminance) with each other, and records them in the setting storage unit 1512.
  • display luminance information is described as metadata in a maker note of Exif (Exchange image file format) included in the capture image data.
  • the set display luminance is 500 cd / m 2
  • “500” is described as metadata. Thereby, capture data including capture image data and display brightness associated with each other is generated.
  • the display luminance information is not particularly limited as long as the display luminance information is information indicating the setting value of the light emission luminance of the backlight unit 1506, the setting value of the display luminance, and the like.
  • the method of generating capture data is also not particularly limited. For example, data in which a storage path of captured image data and information of display luminance are described may be generated as data different from the captured image data. In that case, a combination of the capture image data and the other data is used as capture data.
  • the display state control unit 1510 reads from the setting storage unit 1512 the display luminance associated with the capture image data to be reproduced. Then, the display state control unit 1510 notifies the BL control unit 1507 of the read display luminance.
  • the capture data is capture image data including information of display luminance as metadata
  • the display state control unit 1510 reads the capture data to be reproduced from the setting storage unit 1512. Then, the display state control unit 1510 analyzes the read capture data to obtain display brightness information (display brightness information) included in the read capture data. Thereafter, the display state control unit 1510 notifies the BL control unit 1507 of the acquired display luminance information.
  • the display state control unit 1510 also instructs the setting storage unit 1512 to output captured image data to be reproduced to the image data receiving unit 1502.
  • the setting storage unit 1512 outputs capture image data to be reproduced to the image data receiving unit 1502 in accordance with the instruction from the display state control unit 1510. Further, the display state control unit 1510 notifies the image adjustment unit 1504 that the capture reproduction is in progress.
  • the image data receiving unit 1502 When acquiring captured image data to be reproduced from the setting storage unit 1512, the image data receiving unit 1502 converts the data format of the acquired captured image data into a data format that can be processed inside the display device 1501. Then, the image data receiving unit 1502 outputs the image data after the data format is converted to the image processing unit 1503.
  • the image adjustment unit 1504 obtains a notification that capture reproduction is in progress from the display state control unit 1510, and determines that capture reproduction is in progress according to the notification. During capture reproduction, the image adjustment unit 1504 performs through processing. That is, the image adjustment unit 1504 omits predetermined image processing and outputs the same image data as the image data output from the image data reception unit 1502 to the capture unit 1508.
  • captured image data is generated based on the image data that has been subjected to predetermined image processing. Therefore, predetermined image processing is already reflected on the captured image data recorded in the setting storage unit 1512. Then, when the image adjustment unit 1504 performs predetermined image processing during capture reproduction, the image adjustment unit 1504 outputs the image data after the predetermined image processing has been performed twice. Since this is not desirable, through processing is performed during capture reproduction.
  • the set information on the display luminance is not used for predetermined image processing. Therefore, the set display luminance is not reflected in the captured image data recorded in the setting storage unit 1512.
  • the BL control unit 1507 controls the light emission luminance of the backlight unit 1506 according to the display luminance (display luminance associated with the capture image data to be reproduced) notified from the display state control unit 1510. Thereby, an image based on the captured image data is displayed in the same display mode as in the capture processing.
  • the user may be inquired as to whether or not to control the light emission luminance of the backlight unit 1506 according to the display luminance associated with the capture image data to be reproduced. For example, a message such as “The display brightness setting is different between capture processing and capture playback. Would you like to change the setting to the display brightness during capture processing?” Is displayed, and the user responds to the message. Processing may be switched and executed according to the instruction. Specifically, when an instruction to change the setting to the display luminance at the time of capture processing is issued, the light emission luminance of the backlight unit 1506 is controlled in accordance with the display luminance associated with the capture image data to be reproduced.
  • the light emission luminance of the backlight unit 1506 is controlled in accordance with the currently set display luminance.
  • the “display luminance currently set” is “display luminance before being changed to display luminance associated with captured image data to be reproduced”.
  • the past display mode can be obtained by a simple method in which the captured image data and the display luminance are associated with each other and recorded in the storage unit, and the recorded display luminance is used when reproducing the captured image data. It is possible to easily realize the display similar to the display in. Specifically, at the time of reproducing captured image data, it is possible to easily perform BL control display for controlling the light emission luminance of the backlight unit to the same luminance as at the time of generation of the captured image data.
  • Example 5 A fifth embodiment of the present invention will be described. In the following, the description of the same points (configuration and processing) as the fourth embodiment will be omitted, and the points different from the fourth embodiment will be described in detail.
  • this embodiment an example will be described in which display modes different from those in Embodiments 1 to 4 are used. Specifically, an example in which a display mode for performing gradation characteristic control display is used will be described.
  • the gradation characteristic control display an image is displayed with the set gradation characteristic (correspondence between gradation value and luminance).
  • the BL control display and the gradation characteristic control display are used in combination will be described below, the BL control display may not be performed.
  • FIG. 16 is a block diagram showing a configuration example of a display device 1501 according to the present example.
  • the luminance control unit 1505 of the display device 1501 according to the present embodiment further includes a gamma control unit 1601.
  • the same functional units as those in the fourth embodiment are denoted by the same reference numerals as those in the fourth embodiment.
  • the image adjustment unit 1504 of this embodiment performs the same process as that of the fourth embodiment. However, the image adjustment unit 1504 of this embodiment outputs the image data to the gamma control unit 1601.
  • the display state control unit 1510 according to this embodiment performs the same process as that of the fourth embodiment. However, the display state control unit 1510 according to this embodiment further performs the following processing.
  • the display state control unit 1510 notifies the gamma control unit 1601 of the gradation characteristic.
  • the display state control unit 1510 reads the gradation characteristic from the setting storage unit 1512 and notifies the gamma control unit 1601 of the read gradation characteristic.
  • the display state control unit 1510 can also notify the gamma control unit 1601 of the gradation characteristic designated by the user.
  • the user can instruct the display device 1501 to change the gradation characteristics.
  • the display state control unit 1510 notifies the gamma control unit 1601 of the gradation characteristic after the change.
  • the method of expressing the gradation characteristic is not particularly limited, in the present embodiment, the gradation characteristic is represented by a gamma curve, a display range, and a branch point. Then, the display state control unit 1510 acquires and notifies information on gamma curves, information on display ranges, information on branch points, and the like as information on gradation characteristics. The user can individually instruct the display device 1501 to change the gamma curve, change the display range, and change the branch point. Details of the gamma curve, the display range, and the branch point will be described later.
  • the gamma control unit 1601 corrects the image data output from the image adjustment unit 1504 in accordance with the gradation characteristics (gamma curve, display range, and branch point) notified from the display state control unit 1510. Specifically, the gamma control unit 1601 outputs from the image adjustment unit 1504 to the gradation characteristic (gamma curve, display range, and gradation characteristic represented by a branch point) notified from the display state control unit 1510. Convert the tone characteristics of the received image data. Then, the gamma control unit 1601 outputs the image data after the gradation characteristic has been converted to the capture unit 1508.
  • the data generation unit 1511 of this embodiment performs the same process as that of the fourth embodiment. However, in the data generation unit 1511 of this embodiment, the following processing is performed according to the acquisition of the capture image data output from the capture unit 1508.
  • the data generation unit 1511 acquires, from the setting storage unit 1512, the information of the currently set display luminance as in the fourth embodiment. Further, the data generation unit 1511 acquires information on the gradation characteristic currently set (information on the display range and the branch point) from the setting storage unit 1512. Then, the data generation unit 1511 records the acquired captured image data, the acquired display luminance (information of display luminance), and the acquired gradation characteristic (information of gradation characteristic) in association with each other in the setting storage unit 1512. Do.
  • the display mode corresponds to the gradation characteristic control display can be determined from the information of the gradation characteristic. Therefore, "information on gradation characteristics" can also be said to be “display information indicating a display mode". Of course, “information on gradation characteristics” can also be referred to as “information on parameters indicating gradation characteristics”, “information on display parameters used in gradation characteristics control display”, and the like. Note that the information of the gradation characteristic to be associated may include information of a gamma curve.
  • the setting storage unit 1512 of this embodiment performs the same process as that of the fourth embodiment. However, the setting storage unit 1512 according to the present embodiment displays, as setting information, information on display luminance currently set and information on gradation characteristics currently set (information on display range and branch point). It is acquired from the control unit 1510.
  • the capture data of the present embodiment is information including capture image data, display luminance, and gradation characteristics associated with one another.
  • the gamma curve is, for example, a gamma curve having a gamma value of 2.2, a Log curve having logarithmic characteristics, a curve of SMPTE ST-2084, or the like.
  • the display range is a part or all of the luminance range of the input image data, and is the luminance range to be displayed.
  • the display range is set, for example, based on the set gamma curve. Specifically, when the Log curve is set, part or all of the luminance range of 0 to 1000% is set as the display range.
  • the display luminance to be realized is determined based on the set display range and the set display luminance.
  • FIG. 17 shows an example of the correspondence between the actual luminance and the luminance of the display range.
  • FIG. 17 shows the case where the set display luminance is 500 cd / m 2 , the luminance range of 0 to 1000% is the luminance range of the input image data, and the set display range is the luminance range of 0 to 200%.
  • clip display is performed in which the luminance range (display range) of 0 to 200% is used as the clip range.
  • FIG. 18 shows another example of the correspondence between the actual luminance and the luminance of the display range.
  • FIG. 18 shows the case where the set display luminance is 500 cd / m 2 , the luminance range of 0 to 1000% is the luminance range of the input image data, and the set display range is the luminance range of 0 to 200%.
  • clip display is performed with the brightness range of 0 to 200% as the clip range.
  • a branch point is set.
  • the branch point defines the correspondence between the actual luminance and the luminance of the display range.
  • the branch point indicates a combination of the actual luminance and the luminance of the display range.
  • the correspondence between the actual luminance and the luminance of the display range is determined so that the set branch point is included.
  • the correspondence from the point of minimum luminance to the branch point is determined by linear interpolation using the point of minimum luminance of the display range (combination of the minimum luminance and the actual luminance of the display range) and the branch point.
  • a combination of an actual luminance of 100 cd / m 2 and a luminance of 100% (luminance of the display range) is set as a branch point.
  • the actual brightness increases linearly from 0 cd / m 2 to 100 cd / m 2.
  • the actual luminance increases linearly from 100 cd / m 2 to 500 cd / m 2 with respect to the increase of the luminance of the input image data from 100% to 200%.
  • 500 cd / m 2 is obtained as the actual luminance corresponding to the luminance (luminance of the input image data) higher than 200%.
  • FIG. 19 shows an example of a combination of a gamma curve, a display range, and a branch point.
  • the correspondence between the actual brightness and the brightness of the display range is not limited to the correspondence shown in FIGS.
  • the actual brightness may change non-linearly with the change of the brightness of the input image data.
  • the combination of the gamma curve, the display range, and the branch point is not limited to the combination of FIG. Multiple branch points may be set.
  • the luminance range of SDR image data is 0 to 100%
  • the luminance range of 0 to 100% it is possible to realize a display simulating the display of the SDR display device. .
  • the data generation unit 1511 records the acquired captured image data, the acquired display luminance (information of display luminance), and the acquired gradation characteristic (information of gradation characteristic) in the setting storage unit 1512 in association with each other.
  • the capture image data is JPEG image data
  • information of display luminance and information of gradation characteristics are described as metadata in a maker note of Exif included in the capture image data.
  • capture data including capture image data, display brightness, and gradation characteristics associated with one another is generated.
  • the other processes are substantially the same as in the fourth embodiment.
  • the gamma control unit 1601 or the like performs the above-described processing.
  • the display state control unit 1510 reads from the setting storage unit 1512 the display luminance and the gradation characteristics (display range and branch point) associated with the capture image data to be reproduced. Then, the display state control unit 1510 notifies the BL control unit 1507 of the read display luminance and notifies the gamma control unit 1601 of the read gradation characteristic. Here, it is assumed that the gamma curve has already been notified. The other processes are substantially the same as in the fourth embodiment. The gamma control unit 1601 or the like performs the above-described processing.
  • the captured image data, the display luminance, and the gradation characteristic are associated with one another and recorded in the storage unit, and the display luminance recorded at the time of reproduction of the captured image data and the recorded gradation characteristic are Images are displayed in a simple way to use. Thereby, display similar to the display in the past display mode can be easily realized. Specifically, at the time of reproducing captured image data, it is possible to easily perform BL control display for controlling the light emission luminance of the backlight unit to the same luminance as at the time of generation of the captured image data. Furthermore, when reproducing captured image data, it is possible to easily perform gradation characteristic control display in which an image is displayed with the same gradation characteristics as at the time of generation of captured image data.
  • Example 6 A sixth embodiment of the present invention will be described. In the following, the description of the same points (configuration and processing) as the fourth embodiment will be omitted, and the points different from the fourth embodiment will be described in detail.
  • a display mode different from those of Embodiments 1 to 5 is used.
  • a display mode that performs LD (Local Dimming) control display is used.
  • the LD control display uses a display unit having a plurality of light emitting units respectively corresponding to a plurality of regions (partial regions) of the screen, and a display panel for displaying an image by transmitting light from the plurality of light emitting units. It is display control. Specifically, in the LD control display, the light emission luminance of each light emitting unit is individually controlled to display an image. As a plurality of partial areas, for example, a plurality of divided areas constituting an area of a screen are used.
  • FIG. 20 is a block diagram showing a configuration example of a display device 1501 according to the present embodiment.
  • the brightness control unit 1505 of the display device 1501 according to the present embodiment further includes an LD control unit 2001.
  • the same functional units as those of the fourth embodiment are denoted by the same reference numerals as those of the fourth embodiment.
  • the image adjustment unit 1504 of this embodiment performs the same process as that of the fourth embodiment. However, the image adjustment unit 1504 of this embodiment outputs the image data to the LD control unit 2001.
  • the display state control unit 1510 according to this embodiment performs the same process as that of the fourth embodiment. However, the display state control unit 1510 according to this embodiment further performs the following processing.
  • the display state control unit 1510 notifies the LD control unit 2001 of the LD control value.
  • the display state control unit 1510 reads the LD control value from the setting storage unit 1512 and notifies the LD control unit 2001 of the read LD control value.
  • the display state control unit 1510 can also notify the LD control unit 2001 of the LD control value designated by the user.
  • the user can instruct the display device 1501 to change the LD control value.
  • the display state control unit 1510 notifies the LD control unit 2001 of the LD control value after the change. Further, the display state control unit 1510 notifies the display luminance not only to the BL control unit 1507 but also to the LD control unit 2001.
  • the LD control value is a parameter indicating a method of LD control (individual control of light emission luminance of each light emitting unit). For example, any one of a plurality of parameters such as “strong”, “weak”, and “off” is selectively used as the LD control value.
  • the LD control value “strong” is a parameter for significantly increasing the contrast ratio. For example, when the LD control value “strong” is used, the LD control is performed on the basis of a large difference between the upper limit value and the lower limit value of the light emission luminance of the light emitting unit.
  • the LD control value "weak” is a parameter for slightly increasing the contrast ratio.
  • the LD control value “weak” when the LD control value “weak” is used, the LD control is performed on the basis that the difference between the upper limit value and the lower limit value of the light emission luminance of the light emitting unit is small.
  • the LD control value “off” is a parameter for not performing the LD control.
  • the BL control display of the fourth embodiment is performed without performing the LD control.
  • the LD control value “OFF” when the LD control value “OFF” is used, the light emission luminance of each light emitting unit may be controlled to a predetermined reference luminance.
  • the LD control unit 2001 sets each light emitting unit based on the image data output from the image adjustment unit 1504, the display brightness notified from the display state control unit 1510, and the LD control value notified from the display state control unit 1510. Determine the light emission luminance of the For example, when the LD control value “off” is notified, the LD control unit 2001 determines one light emission luminance corresponding to the notified display luminance as the light emission luminance of each light emitting unit. When the LD control value “strong” or “weak” is notified, the LD control unit 2001 determines the light emission luminance of each light emitting unit individually.
  • the following conditions are set based on the image data output from the image adjustment unit 1504, the display luminance notified from the display state control unit 1510, and the LD control value notified from the display state control unit 1510:
  • the emission brightness of each light emitting unit is individually determined so as to satisfy the conditions.
  • Condition 1 A light emission luminance higher than the light emission luminance of the light emitting part corresponding to the partial area where the dark image is displayed is used as the light emission luminance of the light emitting part corresponding to the partial area where the bright image is displayed.
  • Condition 2 The light emission luminance according to the notified display luminance is used as the upper limit of the light emission luminance.
  • Condition 3 The light emission luminance according to the notified LD control value is used as the lower limit value of the light emission luminance.
  • the LD control unit 2001 notifies the BL control unit 1507 of the determined light emission brightness (light emission brightness of each light emitting unit). Also, the LD control unit 2001 outputs the image data from the image adjustment unit 1504 to the capture unit 1508. In addition, the determination method of the light emission luminance of each light emission part is not specifically limited. The LD control unit 2001 may correct the image data from the image adjustment unit 1504 based on the light emission luminance of each light emitting unit, and may output the corrected image data to the capture unit 1508.
  • the BL control unit 1507 of this embodiment performs the same process as that of the fourth embodiment. However, the BL control unit 1507 of this embodiment generates control values of the respective light emitting units. Specifically, the BL control unit 1507 generates a control value according to the light emission luminance notified from the LD control unit 2001 for each of the plurality of light emitting units. Then, the BL control unit 1507 outputs the control value of each light emitting unit to the backlight unit 1506. The control value may be generated in consideration of the notified display brightness.
  • the backlight unit 1506 of this embodiment performs the same process as that of the fourth embodiment.
  • the backlight unit 1506 according to the present embodiment includes the plurality of light emitting units described above (a plurality of light emitting units respectively corresponding to a plurality of partial regions). Each light emitting unit emits light with emission luminance according to the control value output from the BL control unit 1507.
  • the data generation unit 1511 of this embodiment performs the same process as that of the fourth embodiment. However, in the data generation unit 1511 of this embodiment, the following processing is performed according to the acquisition of the capture image data output from the capture unit 1508.
  • the data generation unit 1511 acquires, from the setting storage unit 1512, the information of the currently set display luminance as in the fourth embodiment. Further, the data generation unit 1511 acquires the currently set LD control value from the setting storage unit 1512. Then, the data generation unit 1511 associates the acquired captured image data, the acquired display luminance, and the acquired LD control value with each other, and records the same in the setting storage unit 1512. It can be determined from the LD control value that the display mode corresponds to the LD control display. Therefore, "LD control value" can be said to be "display information indicating a display mode". Of course, "LD control value" can be said to be "information of display parameter used in LD control display” or the like.
  • the setting storage unit 1512 of this embodiment performs the same process as that of the fourth embodiment. However, the setting storage unit 1512 according to the present embodiment acquires information on the currently set display luminance and the currently set LD control value from the display state control unit 1510 as setting information.
  • the capture data of the present embodiment is information including capture image data, display luminance, and LD control value associated with each other.
  • the data generation unit 1511 When acquiring captured image data from the capture unit 1508, the data generation unit 1511 acquires, from the setting storage unit 1512, information on display luminance that is currently set and an LD control value that is currently set. Then, the data generation unit 1511 associates the acquired captured image data, the acquired display luminance (information of display luminance), and the acquired LD control value with each other, and records them in the setting storage unit 1512.
  • the capture image data is JPEG image data
  • display brightness information and an LD control value are described as metadata in a maker note of Exif included in the capture image data. Specifically, “500 (display luminance), High (LD control value)” is described as metadata.
  • capture data including capture image data, display brightness, and LD control values associated with one another is generated.
  • the other processes are substantially the same as in the fourth embodiment. The above-described process is performed in the LD control unit 2001 or the like.
  • the display state control unit 1510 reads from the setting storage unit 1512 the display brightness and the LD control value associated with the capture image data to be reproduced. Then, the display state control unit 1510 notifies the read display luminance to the BL control unit 1507 and the LD control unit 2001, and notifies the LD control unit 2001 of the read LD control value.
  • the other processes are substantially the same as in the fourth embodiment. The above-described process is performed in the LD control unit 2001 or the like.
  • the captured image data, the display luminance, and the LD control value are associated with each other and recorded in the storage unit, and the recorded display luminance and the recorded gradation characteristic are recorded when the captured image data is reproduced.
  • Images are displayed in a simple way to use. Thereby, display similar to the display in the past display mode can be easily realized. Specifically, at the time of reproducing captured image data, it is possible to easily perform LD control display in which the light emission luminance of each light emitting unit is controlled to the same luminance as at the time of generation of captured image data.
  • the device is a display device having a display unit
  • a separate device may be used as the display unit.
  • the display unit is an LCD module having a liquid crystal panel and a backlight unit.
  • the display unit is not limited to the LCD module.
  • Another display unit having a light emitting unit and a display panel that displays an image by transmitting light from the light emitting unit may be used.
  • a MEMS shutter display device using a MEMS (Micro Electro Mechanical System) shutter as a display element may be used.
  • a self-luminous display may be used.
  • An organic EL (Electro-Luminescence) display panel, a plasma display panel, or the like may be used.
  • input image data of each device is not limited to photographed image data. Computer graphic image data, illustration image data, etc. may be used as input image data.
  • the functional units of the apparatuses according to the first to sixth embodiments may or may not be separate hardware.
  • the functions of two or more functional units may be realized by common hardware.
  • Each of the plurality of functions of one functional unit may be realized by separate hardware.
  • Two or more functions of one functional unit may be realized by common hardware.
  • each functional unit may or may not be realized by hardware.
  • the device may have a processor and a memory in which a control program is stored. The functions of at least some of the functional units of the device may be realized by the processor reading and executing the control program from the memory.
  • the present invention supplies a program that implements one or more functions of the above-described embodiments to a system or apparatus via a network or storage medium, and one or more processors in a computer of the system or apparatus read and execute the program. Can also be realized. It can also be implemented by a circuit (eg, an ASIC) that implements one or more functions.
  • a circuit eg, an ASIC
  • Onset display device 102 Editing display device 202, 602, 1503: Image processing unit 209, 612: BL drive unit 210, 613: Display mode setting unit 1501: Display device 1510: Display condition control unit 1511: Data generation unit

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