JP2018201250A - Imaging device and image processing method - Google Patents

Abstract

To reproduce an image intended by a photographer and a photographing supervisor more quickly and accurately at the stage of post-production.SOLUTION: The developing device comprises: an imaging unit that picks up an image and generates raw data; a first meta data acquisition unit that acquires first meta data automatically generated during the imaging; and a second meta data acquisition unit that acquires second meta data including information set by a user to an image based on the raw data displayed on a display unit after the imaging. The first meta data acquisition unit acquires the ISO sensitivity during the imaging as the first meta data, and the second meta data acquisition unit acquires setting information on the color of the image as the second meta data.SELECTED DRAWING: Figure 1

Description

  The present technology relates to an imaging apparatus that performs RAW imaging and a post-production apparatus that performs post-production on RAW data captured by the imaging apparatus.

  In the video content creation process, which consists of various video scenes that include captured video material, the task of capturing a scene using a camera and the post-processing (post-production process) of the captured image source Are performed sequentially. A content creation system for efficiently performing these operations has been proposed (for example, see Patent Document 1).

  In the content creation system described in Patent Document 1, two types of correction parameters are used in the post-production process, which are a camera setting value set at the time of shooting and an effect correction value for adjusting video. The camera setting value is a setting value at the time of shooting, and includes values for setting each function of the camera such as exposure, white balance, gamma correction, and color adjustment. On the other hand, the effect correction value is a setting value used for correcting a video after shooting in order to obtain a desired image quality. For example, it includes values for adjusting attributes relating to image effects such as exposure, white balance, gamma correction, 3D effect, trimming, and zoom. During post-production processing, correction parameter values set by the user via the operation input unit, correction parameter values set in past editing information stored in the database, and the like are used.

JP 2007-43373 (paragraph numbers [0076] to [0113], FIGS. 14 to 16)

  In recent years, it has become possible to confirm an image after development by giving various parameters to the image pickup apparatus at the shooting site. Furthermore, a mechanism is being studied in which parameters used in the imaging apparatus are transmitted to the post-production apparatus side as metadata together with RAW data and reflected in development in the post-production.

  This technology realizes further enhancement of the mechanism to transmit the parameters used in the imaging device as metadata along with the RAW data to the post-production device side and reflect them in the development in the post-production. An object of the present invention is to provide an imaging apparatus and an image processing apparatus that can reproduce an image intended by a person etc. more quickly and accurately in a post-production field, and can improve the work efficiency of the post-production.

In order to solve the above-described problem, an imaging apparatus according to the present technology includes:
An imaging unit that performs imaging and generates RAW data;
A first converter that converts the generated RAW data into image data by interpolation;
An acquisition unit for acquiring an exposure index value corresponding to the illuminance of the shooting environment;
A first correction unit that corrects the value of the image data based on the exposure index value;
And an output unit that outputs the RAW data and the acquired exposure index value in association with each other.

  The acquisition unit may include an illuminance acquisition unit that acquires a measurement value from an illuminometer and converts the measurement value into the exposure index value.

The acquisition unit further acquires information on an effective area for post-production of image data,
The output unit may output the RAW data and the acquired information on the effective area in association with each other.

The acquisition unit further acquires information for color correction of image data,
The output unit may output the RAW data and the acquired information for color correction in association with each other.

  The information for color correction may be ASC-CDL (The American Society of Cinematographers Color Decision List).

In order to solve the above-described problem, an image processing apparatus according to the present technology includes:
An input unit for inputting RAW data output from the imaging apparatus and an exposure index value related to the RAW data;
A second conversion unit for converting the RAW data into image data by interpolation;
And a second correction unit that corrects the value of the image data based on the exposure index value.

The input unit further inputs information about an effective area for post-production of image data,
The image processing apparatus may further include a cutout unit that cuts out a portion corresponding to the effective area from the image data based on information on the effective area.

The input unit further inputs information for color correction of the image data,
The image processing apparatus may further include a color correction unit that corrects the color of the image data based on the information for color correction.

  The information for color correction may be ASC-CDL (The American Society of Cinematographers Color Decision List).

  As described above, according to the present technology, an image intended by a photographer or a photography supervisor can be reproduced more quickly and accurately in the post-production field, and the work efficiency of the post-production can be improved. Can do.

It is a block diagram showing the composition of the imaging device of one embodiment concerning this art. It is a block diagram showing composition of a post-production device of one embodiment concerning this art. It is a figure which shows the correspondence table of illumination intensity measured value (dB) and EI. It is a figure explaining gain adjustment using EI. It is a figure which shows the metadata structure of an effective marker. It is a figure explaining the process using an effective marker. It is a figure which shows the example of the graphical user interface for setting ASC-CDL.

Hereinafter, embodiments according to the present technology will be described.
The present embodiment relates to an imaging apparatus that performs RAW imaging and recording, and a post-production apparatus that performs post-production by acquiring RAW data imaged by the imaging apparatus and development metadata for the RAW data.

  In this imaging apparatus, image data obtained by performing color interpolation processing, sensitization / desensitization processing, gain adjustment, color adjustment, etc. on RAW data captured by a camera imager The image data can be displayed on a monitor connected to the imaging apparatus or a viewfinder provided in the imaging apparatus so that a radiographer or the like can check in real time. A photographer, a photography supervisor, or the like can set various parameters for development of the image data as part of the metadata while confirming the image data displayed on the monitor or viewfinder.

Here, the metadata includes
1. What is automatically reflected in the image data in a post-production device.
2. What is arbitrarily reflected in image data in a post-production device. In other words, there is recommended metadata such as “I want you to develop in this way” for a worker who a post-production by a photographer or a film supervisor at the shooting site.
The former is called “first metadata”, and the latter is called “second metadata”.

  The first metadata further includes parameters uniquely determined according to the type of camera imager to be used, and parameters artificially set at the time of shooting.

  Then, the imaging apparatus associates the RAW data and the above metadata with each other and transmits them to the post-production apparatus.

  In the post-production device, RAW data and metadata transmitted from the imaging device are acquired, the first metadata is automatically reflected in the development of the RAW data, and the result is connected to the post-production device. Is displayed. The second metadata is appropriately reflected in the development of the RAW data under the instruction from the post production operator. As a result, the image data intended by the photographer, the film supervisor, and the like and the recommended image data can be reproduced in the post-production field.

Examples of the first metadata include the following.
1. Capture Gamma Equation
Examples of shooting gamma include Scene Linear, Cine-Log, and Sony-developed S-Log.
2. White balance
3. Imager sensitivity (ISO Sensitivity)
4). RAW data black / gray / white values (RAW Code Value)
5. CDL application gamma (Gamma For CDL)
Here, the shooting gamma, the RAW data black / gray / white value, and the CDL application gamma are parameters uniquely determined by the type of the camera imager used in the imaging apparatus. White balance and imager sensitivity are data selected by the photographer at the time of shooting.

Examples of the second metadata include the following.
1. EI (Exposure Index Of Photo Meter)
EI is an exposure index value corresponding to the illuminance obtained from the illuminometer. Based on the values of EI and imager sensitivity, processing such as gain adjustment for image data is performed.

2. Effective Marker
The effective marker is information for identifying an effective area intended by a photographer, a supervisor of photography, or the like in the photographed image data. In the post-production device, an effective area is cut out from the image data based on the information of the effective marker.

3. ASC-CDL (The American Society of Cinematographers Color Decision List)
ASC-CDL is information for color correction defined by the American Cinematographers Association (ASC). In ASC-CDL, a color is defined for each RGB by three parameters: offset (output value when input is zero), slope (input / output gain), and power (input / output gun marker characteristic).

  These second metadata are appropriately selected by a photographer at the shooting site, a shooting supervisor, or the like. In the imaging apparatus, an image in which the second metadata is reflected can be viewed through the monitor.

  The first metadata and the second metadata set in the imaging apparatus are collected as a file in XML (Extensible Markup Language) format, for example, and stored in a storage or a communication medium in association with a RAW data file. Is transmitted to post-production equipment.

Hereinafter, a first embodiment according to the present technology will be described with reference to the drawings.
[Imaging device]
FIG. 1 is a block diagram illustrating a configuration of an imaging apparatus 100 according to an embodiment of the present technology.
As shown in the figure, the imaging apparatus 100 of this embodiment includes a camera imager 101, a RAW file writing unit 102, a first debayer processing unit 103, a first sensitization / desensitization / gain adjustment / color space conversion unit. 104, a first IDT (Input Device Transform) processing unit 105, a first color correction unit 106, a first ODT (Onput Device Transform) processing unit 107, an effective marker synthesis unit 108, and a first metadata acquisition unit 109 , A second metadata acquisition unit 110, and a transmission unit 111.

  The imaging apparatus 100 includes a computer system such as a CPU (Central Processing Unit), a ROM (Read Only Memory), a main memory, a storage, and a network I / F as other hardware configurations. The main memory and storage store programs executed by the CPU. The CPU executes the program so that the RAW file writing unit 102, the first debayer processing unit 103, the first sensitization / desensitization / gain adjustment / color space conversion unit 104, the first IDT Operates as the processing unit 105, the first color correction unit 106, the first ODT processing unit 107, the effective marker synthesis unit 108, the first metadata acquisition unit 109, the second metadata acquisition unit 110, and the transmission unit 111 Let

The camera imager 101 (imaging unit) is an imager for RAW shooting, and is, for example, a complementary metal oxide semiconductor (CMOS).
The RAW file writing unit 102 writes the RAW data obtained by the camera imager 101 to the file 120 as it is.

  The first debayer processing unit 103 (first conversion unit) generates an RGB image (image data) by performing color interpolation on the RAW data.

  The first sensitization / desensitization / gain adjustment / color space conversion unit 104 (first correction unit) performs sensitization processing, desensitization processing, and the like on the image data converted by the first debayer processing unit 103. I do. The first sensitization / desensitization / gain adjustment / color space conversion unit 104 receives the first metadata acquired from the first metadata acquisition unit 109 for the image data subjected to the sensitization process and the desensitization process. White balance and imager sensitivity (ISO Sensitivity) belonging to the second metadata, and EI (Exposure Index Of Photo Meter) belonging to the second metadata acquired by the second metadata acquisition unit 110 The image data color space is converted from the color space of the camera imager 101 to the standard color space.

  The first IDT processing unit 105 outputs the image data output from the first sensitization / desensitization / gain adjustment / color space conversion unit 104 to the first meta data acquired from the first meta data acquisition unit 109. Based on the shooting gamma equation and the CDL application gamma (Gamma For CDL) respectively belonging to the data, the values are converted into values for color adjustment using ASC-CDL.

  The first color correction unit 106 corrects the color by applying the ASC-CDL acquired by the second metadata acquisition unit 110 to the image data converted by the first IDT processing unit 105.

  The first ODT processing unit 107 converts the color space of the image data color-corrected by the first color correction unit 106 into the color space of the monitor connected to the imaging apparatus 100 and outputs the color space to the monitor.

  The effective marker synthesizer 108 adds an effective marker (Effective Marker) acquired by the second metadata acquisition unit 110 to the image data output from the first sensitization / desensitization / gain adjustment / color space conversion unit 104. The graphics are combined and output to the viewfinder.

  The first metadata acquisition unit 109 acquires the shooting metadata gamma, white balance, RAW data black / gray / white values, and CDL application gamma, which are the first metadata, and the camera imager 101 and the first increase. Sense / Desensitization / Gain adjustment / Color space conversion unit 104, first IDT processing unit 105, and first color correction unit 106.

  The second metadata acquisition unit 110 acquires EI, an effective marker, and ASC-CDL, which are the second metadata, and a first sensitization / desensitization / gain adjustment / color space conversion unit 104, the effective marker synthesis unit 108, and the first color correction unit 106.

  The second metadata acquisition unit 110 includes an EI acquisition unit 112 (illuminance acquisition unit) that acquires EI. The EI acquisition unit 112 acquires a measurement value transmitted from the illuminance meter 113 by wire or wirelessly in real time, and converts it into an EI (Exposure Index of Photo Meter) value that is an exposure index value. Further, the second metadata acquisition unit 110 has a graphical user interface (GUI) 114. These are obtained by receiving an effective marker (Affective Marker) and ASC-CDL input from a photographer or a director of photography through a graphical user interface (GUI) 114.

  The transmission unit 111 (output unit) associates the RAW data and the metadata obtained by the imaging device 100 with each other and transmits them to a subsequent processing environment (such as the post-production device 200).

[Post production equipment]
FIG. 2 is a block diagram illustrating a configuration of the post-production device 200 according to an embodiment of the present technology.
As shown in the figure, the post-production device 200 (image processing device) of the present embodiment includes a RAW data / metadata acquisition unit 201, a second debayer processing unit 202, and a second sensitization / desensitization / gain adjustment. A color space conversion unit 203, a second IDT processing unit 204, a second color correction unit 205, an effective marker processing unit 206, and a second ODT processing unit 207.

  The post-production device 200 includes other hardware configurations such as a CPU (Central Processing Unit), a ROM (Read Only Memory), a main memory, a storage, a network I / F, a monitor, an input device such as a mouse and a keyboard, and the like. Having a computer system; The main memory and storage store programs executed by the CPU. The CPU executes the program so that the computer system is divided into a RAW data / metadata acquisition unit 201, a second debayer processing unit 202, a second sensitization / desensitization / gain adjustment / color space conversion unit 203, 2 IDT processing unit 204, second color correction unit 205, effective marker processing unit 206, and second ODT processing unit 207.

  The RAW data / metadata acquisition unit 201 (input unit) acquires a RAW file and metadata transmitted from the imaging apparatus 100.

  Similar to the imaging apparatus 100, the second debayer processing unit 202 (second conversion unit) generates an RGB image (image data) by performing color interpolation on the RAW data.

  The second sensitization / desensitization / gain adjustment / color space conversion unit 203 (second correction unit) performs sensitization processing and RGB image (image data) converted by the second debayer processing unit 202. Perform desensitization processing. The second sensitization / desensitization / gain adjustment / color space conversion unit 203 uses the first RAW data / metadata acquisition unit 201 to acquire the image data subjected to the sensitization process and the desensitization process. The white space (White Balance) and imager sensitivity (ISO Sensitivity) that belong to the metadata of the image, and the EI (Exposure Index Of Photo Meter) that belongs to the second metadata, the gain is adjusted, the color space of the image data The color space of the camera imager 101 of the imaging apparatus 100 is converted into a standard color space.

  The second IDT processing unit 204 outputs the image data output from the second sensitization / desensitization / gain adjustment / color space conversion unit 203 to the first meta data acquired by the RAW data / metadata acquisition unit 201. Based on the shooting gamma equation and the CDL application gamma (Gamma For CDL) respectively belonging to the data, the values are converted into values for color correction using ASC-CDL.

  The second color correction unit 205 (color correction unit) applies the ASC-CDL acquired by the RAW data / metadata acquisition unit 201 to the image data converted by the second IDT processing unit 204 to correct the color. Do.

  The effective marker processing unit 206 (cutout unit) is an effective marker belonging to the second metadata acquired by the RAW data / metadata acquisition unit 201 from the image data subjected to the color correction by the second color correction unit 205. Based on (Effective Marker), processes such as extraction and resizing of the effective area are performed.

  The second ODT processing unit 207 converts the color space of the image data cut out and resized by the effective marker processing unit 206 into the color space of the monitor connected to the post-production device 200 and outputs the color space to the monitor. .

[Processing based on second metadata]
In the present embodiment, in the imaging apparatus 100, EI, an effective marker, and ASC-CDL are set as second metadata that is recommended to be reflected in the development processing of RAW data, and the RAW data and the first metadata are set. The data is transmitted to the post-production device 200 together with the data. Therefore, the imaging apparatus 100 and the post-production apparatus 200 can share the same second metadata, and the image data recommended by the photographer or the imaging supervisor can be reproduced in the post-production field. it can.

  Next, processing based on EI, effective markers, and ASC-CDL will be described. However, the present technology is not characterized by the following processing itself.

(Gain adjustment using EI)
Next, an example of processing based on EI in the imaging device 100 and the post-production device 200 will be described.
In the imaging device 100, the EI acquisition unit 112 of the second metadata acquisition unit 110 receives the measurement value (dB) transmitted from the illuminance meter 113 in a wired or wireless manner in real time, and this is shown in a table shown in FIG. To convert it into an EI (Exposure Index of Photo Meter) value. As shown in the table, EI covers at least a plurality of integer values determined in the range of “200” to “3200”, and “800” is used as a reference value.

In the imaging apparatus 100 and the post-production apparatus 200, the sensitization / desensitization / gain adjustment / color space conversion unit (103, 203) calculates a gain to be applied to the white value of the RAW data by the following equation.
EI / imager sensitivity (1)
Therefore, when the imager sensitivity (ISO Sensitivity) value given as the first metadata is “800” and the EI is “1600”, “2” is the gain value applied to the white value of the RAW data. Desired.

  FIG. 4 is a graph showing gains assigned to image data by the sensitization / desensitization / gain adjustment / color space conversion unit (103, 203). Since the black value of the RAW data is the value when the camera imager 101 is in the shutter-off state, the gain is fixed at “1” because the illuminance dependency can be ignored. When “2” is calculated as the gain value to be applied to the white value of the RAW data by the above calculation method, the value from “1” to “2” with respect to the value of the RAW data in the range from black to white. Range gains are assigned proportionally.

  More specifically, when the black value (fixed value) of RAW Code Value is “512” and the white value (measured value) of RAW Code Value is “2992”, (2992-512) × 2 = 5472 Is the gain-adjusted white value.

  As described above, in the present embodiment, since the EI is transmitted to the post-production device 200 as the second metadata, the brightness that the photographer, the shooting director, and the like are watching on the monitor connected to the imaging device 100 is displayed. This image can be reproduced in the post-production apparatus 200. Thereby, the work efficiency of post-production can be improved.

[Processing using effective markers]
Next, processing based on the effective marker in the imaging apparatus 100 and the post-production apparatus 200 will be described.
The effective marker is metadata intended to express the framing intended by the photographer. As shown in FIG. 5, the effective marker includes an Effective Marker Coverage indicating a reduction ratio (a ratio of long pieces) to the image frame of the payload of the effective area marker, and an Effective Marker Aspect Ratio indicating an aspect ratio of the effective area marker. . The first metadata acquisition unit 110 acquires the value of the marker reduction ratio from the user through the graphical user interface (GUI) 114 and correlates with the aspect ratio of the monitor screen, and the effective marker coverage and the effective marker aspect ratio. To decide. This effective marker is transmitted as second metadata together with the RAW data and the first metadata to the post-production device 200 by the transmission unit 111.

As illustrated in FIG. 6, in the imaging apparatus 100, the effective marker synthesis unit 108 effects the image 125 displayed on the viewfinder based on the metadata of the effective marker acquired by the first metadata acquisition unit 110. The marker graphics 130 are synthesized and displayed.
On the other hand, in the post-production apparatus 200, the effective marker processing unit 206 cuts out the effective area from the image data based on the metadata of the effective marker acquired by the RAW data / metadata acquisition unit 201, and the extracted image data To the original resolution.

  As described above, the effective marker is transmitted as the second metadata to the post-production device 200, so that the post-production device 200 can quickly perform the cut-out process of the effective area intended by the photographer or the imaging director. be able to. Thereby, the work efficiency of post-production can be improved.

[Color correction based on ASC-CDL]
Next, color correction based on ASC-CDL in the imaging apparatus 100 and the post-production apparatus 200 will be described.
ASC-CDL is information for color adjustment defined by the American Cinematographers Association (ASC). In ASC-CDL, a color is defined for each RGB by three parameters: offset (output value when input is zero), slope (input / output gain), and power (input / output gun marker characteristic). Details of color correction based on ASC-CDL are disclosed in "ASC Color Decision List (ASC CDL) Transfer Functions and Interchange Syntax, ASC-CDL_Release1.2, Joshua Pines and David Reisner, 2009-05-04". Is done.

  In the imaging apparatus 100, the first metadata acquisition unit 110, for example, as shown in FIG. 7, each offset, slope, and power for each RGB given by the user using a graphical user interface (GUI) 114 is used. The values are obtained, and these are grouped together to create an ASC-CDL. In the graphical user interface (GUI) 114 shown in FIG. 7, the offset, slope, and power values for each RGB can be individually selected by the user by operating a slide gauge or an up / down button. The set ASC-CDL is reflected in real time on the image displayed in the image display area 131, so that the user can set the ASC-CDL while confirming the color change of the image.

  This ASC-CDL is transmitted as second metadata together with the RAW data and the first metadata to the post-production device 200 by the transmission unit 111. As a result, the color correction intended by the photographer, the director of photography, etc. can be executed by the second color correction unit 205 of the post-production apparatus 200. As a result, the work efficiency of the post-production can be improved.

The embodiment according to the present technology has been described above, but the present technology can be modified as follows.
It is beneficial to employ wireless communication for communication between the illuminance meter 113 and the imaging device 100. Further, the illuminance meter 113 may be provided integrally with the imaging device 100.

  In the above embodiment, the EI, the effective marker, and the ASC-CDL are transmitted as the second metadata from the imaging device 100 to the post-production device 200. However, at least one of the EI, the effective marker, and the ASC-CDL is used. One of them may be transmitted as the second metadata. Furthermore, in the above embodiment, EI, effective marker, and ASC-CDL are handled as metadata that is not automatically reflected in development in the post-production device 200. However, EI, effective marker, ASC- At least one of the CDLs may be changed to be handled as metadata automatically reflected in development in the post-production apparatus 200.

  In addition, this technique is not limited only to the above-mentioned embodiment, Of course, a various change can be added in the range which does not deviate from the summary of this invention.

This technique can also take the following configurations.
(1) an imaging unit that performs imaging and generates RAW data;
A first converter that converts the generated RAW data into image data by interpolation;
An acquisition unit for acquiring an exposure index value corresponding to the illuminance of the shooting environment;
A first correction unit that corrects the value of the image data based on the exposure index value;
An imaging apparatus comprising: an output unit that outputs the RAW data and the acquired exposure index value in association with each other.
(2) The imaging apparatus according to (1),
The imaging apparatus according to claim 1,
The acquisition unit includes an illuminance acquisition unit that acquires a measurement value from an illuminometer and converts the measurement value into the exposure index value.
(3) The imaging apparatus according to any one of (1) to (2),
The acquisition unit further acquires information on an effective area for post-production of the image data,
The output unit outputs the RAW data and the acquired information regarding the effective area in association with each other.
(4) The imaging apparatus according to any one of (1) to (3),
The acquisition unit further acquires information for color correction of the image data,
The output unit outputs the RAW data and the acquired information for color correction in association with each other.
(5) The imaging apparatus according to any one of (1) to (4),
The information for color correction is ASC-CDL (The American Society of Cinematographers Color Decision List).
(6) an input unit for inputting RAW data output from the imaging apparatus and an exposure index value related to the RAW data;
A second conversion unit for converting the RAW data into image data by interpolation;
An image processing apparatus comprising: a second correction unit that corrects the value of the image data based on the exposure index value.
(7) The image processing apparatus according to (6),
The input unit further inputs information about an effective area for post-production of the image data,
An image processing apparatus, further comprising: a cutout unit that cuts out a portion corresponding to the effective area from the image data based on information on the effective area.
(8) The image processing apparatus according to any one of (6) to (7),
The input unit further inputs information for color correction of the image data,
An image processing apparatus, further comprising: a color correction unit that corrects the color of the image data based on the information for color correction.
(9) The image processing apparatus according to any one of (6) to (8),
The information for color correction is an image processing apparatus which is ASC-CDL (The American Society of Cinematographers Color Decision List).

DESCRIPTION OF SYMBOLS 100 ... Imaging device 101 ... Camera imager 102 ... Raw file writing-out part 103 ... 1st debayer process part 104 ... Sensitization / desensitization / gain adjustment / color space conversion part 105 ... 1st IDT process part 106 ... 1st Color correction unit 107 ... first ODT processing unit 108 ... effective marker synthesis unit 109 ... first metadata acquisition unit 110 ... second metadata acquisition unit 111 ... transmission unit 112 ... EI acquisition unit 113 ... illuminance meter 114 ... Graphical user interface 200 ... Post-production device 201 ... Raw data / metadata acquisition unit 202 ... Second debayer processing unit 203 ... Sensitization / desensitization / gain adjustment / color space conversion unit 204 ... Second IDT processing unit 205 ... Second color correction unit 206... Effective marker processing unit 207. 2 ODT processing unit

Claims (15)

An imaging unit that performs imaging and generates RAW data;
A first metadata acquisition unit that acquires first metadata automatically generated at the time of imaging;
A second metadata acquisition unit that acquires second metadata including information set by a user for an image based on the RAW data displayed on the display unit after the imaging,
The first metadata acquisition unit acquires the ISO sensitivity at the time of imaging as the first metadata,
The second metadata acquisition unit acquires setting information related to an image color as the second metadata. The imaging apparatus according to claim 1, wherein information for a user to select as a setting for an image based on the RAW data is displayed on the display unit together with the image based on the RAW data. The imaging device according to claim 2, wherein an image reflecting the information selected by the user is displayed on the display unit together with information selected by the user as a setting for an image based on the RAW data. The imaging device according to claim 2, wherein an image in which the user operation is reflected in real time is displayed on the display unit in response to a user operation on information for the user to select. The imaging device according to any one of claims 1 to 4, wherein the second metadata acquisition unit acquires the second metadata by a button operation by a user. The imaging device according to claim 5, wherein the second metadata acquisition unit acquires the second metadata by an up / down button operation by a user. The imaging apparatus according to claim 1, wherein the second metadata is information for image processing in an external image processing apparatus. The imaging apparatus according to any one of claims 1 to 7, wherein the setting information relating to the color of the image is an ASC-CDL (The American Society of Cinematographers Color Decision List). The imaging apparatus according to claim 1, wherein the second metadata acquisition unit acquires information related to an effective area of an image based on the RAW data as the second metadata. The imaging apparatus according to claim 1, wherein the second metadata acquisition unit includes an illuminance acquisition unit that acquires a measurement value from an illuminometer and converts the measurement value into an exposure index value. The imaging apparatus according to claim 7, wherein the second metadata is automatically reflected on image data to be displayed on the external image processing apparatus. The imaging apparatus according to claim 1, further comprising a conversion unit that performs an interpolation process on the RAW data. The imaging apparatus according to claim 1, further comprising a color correction unit that performs processing for correcting a color of an image based on the RAW data. The imaging device according to claim 13, wherein the color correction unit performs processing for correcting the color of the image based on the RAW data based on the second metadata including setting information related to the color of the image. . RAW data generated by imaging of the imaging unit is acquired,
A first metadata acquisition unit acquires, as first metadata, an ISO sensitivity that is automatically generated at the time of imaging;
The second metadata acquisition unit acquires, as second metadata, setting information regarding the color of the image set by the user for the image based on the RAW data displayed on the display unit after the imaging. Processing method.

Images