JP3520869B2 - Image output adjustment of image data - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image adjusting technique for adjusting the image quality of image data.

[0002]

2. Description of the Related Art The image quality of image data generated by a digital still camera (DSC), a digital video camera (DVC), a scanner or the like can be arbitrarily adjusted by using an image retouching application on a personal computer. An image retouching application generally has an image adjustment function that automatically adjusts the image quality of image data. By using this image adjustment function, the image quality of image data output from an output device can be easily adjusted. Can be improved. Known examples of image file output devices include CRTs, LCDs, printers, projectors, and television receivers.

A printer driver that controls the operation of a printer, which is one of the output devices, also has a function of automatically adjusting the image quality of image data. Even if such a printer driver is used, The image quality of image data to be printed can be easily improved.

[0004]

However, in the image quality automatic adjustment function provided by the image retouching application and the printer driver, the image quality correction is executed on the basis of the image data having the general image quality characteristic. On the other hand, since the image data to be image-processed can be generated under various conditions, even if the automatic image quality adjustment function is executed and the image quality parameter value of the image data is changed using the specified value. , It may not be possible to improve the image quality.

Some image data generating devices such as DSCs can arbitrarily adjust the image quality of the image data when generating the image data, and the user intentionally generates the image data having a predetermined image quality. You can When the image quality automatic adjustment function is executed for such image data, the intentional image quality of the image data is automatically adjusted based on the reference image quality, and the automatic image reflecting the user's intention is reflected. There was a problem that adjustments could not be performed. Note that these problems are not limited to DSC
This is a common problem in other image file generation devices such as VCs.

The present invention has been made to solve the above problems, and an object of the present invention is to appropriately and automatically adjust the image quality corresponding to individual image data. Another object is to automatically adjust the image quality of image data without impairing arbitrarily set output conditions.

[0007]

In order to solve the above problems, a first aspect of the present invention shows image data and an exposure correction condition at the time of generating image data associated with the image data. An output device for outputting image data using exposure correction information is provided. The output device according to the first aspect of the present invention analyzes the image data and acquires an image quality parameter value acquisition unit that acquires at least an image quality parameter value indicating a characteristic relating to the brightness of the image data, and the exposure correction information. Reflect at least the lightness
Predetermined for the image quality parameter values for
Reference image quality parameter values and the obtained image quality parameters
It is characterized by comprising image quality adjusting means for adjusting the image quality of the image data so as to reduce or eliminate the deviation of the data value, and output means for outputting the image data having the image quality adjusted.

According to the output device of the first aspect of the present invention, the reference image quality parameter value and the image are reflected by reflecting the exposure correction information.
Image to reduce or eliminate deviations from quality parameter values.
Since the image quality of the image data is adjusted, the output can be set arbitrarily.
Image data without compromising power conditions, such as brightness conditions.
You can automatically adjust the image quality of the
The image quality can be automatically adjusted appropriately according to the image data.
Wear. Therefore, a bright output result is obtained when a bright output result is intended, and a dark output result is obtained when a dark output result is intended.

[0009]

The output device according to the first aspect of the present invention is
By analyzing the image data, at least the image data
Gets the value of the image quality parameter that indicates the characteristics related to brightness
The image quality parameter value acquisition means is related to at least the brightness.
A predetermined standard for the image quality parameter value
Image quality parameter value and the acquired image quality parameter
The image quality adjustment amount is calculated from the value and the exposure compensation information is reflected.
To correct the image quality adjustment amount, and to correct the corrected image quality adjustment amount.
Image quality adjusting means for adjusting the image quality of the image data using the
And an output for outputting the image data with the image quality adjusted
It may be an output device including a means. Or before
By analyzing the image data, at least the image data
Gets the value of the image quality parameter that indicates the characteristics related to brightness
The image quality parameter value acquisition means is related to at least the brightness.
A predetermined standard for the image quality parameter value
Correct the image quality parameter value based on the exposure compensation information
A reference image quality parameter value correcting means for
The reference image quality parameter value and the obtained image quality parameter
An image for adjusting the image quality of the image data based on the meter value.
The quality adjusting means and the image data whose image quality has been adjusted are output.
The output device may include an output unit that applies a force.

According to the output device of the first aspect of the present invention, standard image quality parameter values and calculating the image quality adjustment amount from the image quality parameter value, to correct the image quality adjustment amount to reflect the exposure complement Seijo paper, The image quality of the image data can be adjusted using the corrected image quality adjustment amount. Alternatively, it is possible to modify the reference image quality parameter value with respect to the image quality parameter value for at least brightness, and adjust the image quality of the image data based on at least the modified reference image quality parameter value and the image quality parameter value for brightness. Therefore, it is possible to automatically adjust the image quality of image data without deteriorating arbitrarily set output conditions, for example, the condition of lightness, and to automatically adjust the image quality appropriately corresponding to each image data. it can. Therefore, a bright output result is obtained when a bright output result is intended, and a dark output result is obtained when a dark output result is intended.

In the output device according to the first aspect of the present invention, the reference image quality parameter value correcting means includes the exposure compensation
When the exposure correction amount is set to 0 in the correct information, the correction of the reference image quality parameter value may not be executed. In such a case, it can be determined that an arbitrary output condition regarding the brightness has not been set, so that an output result contrary to the photographer's intention will not be brought about even if the reference image quality parameter value is not corrected.

A second aspect of the present invention provides an image processing apparatus for processing image data using image data and exposure correction information indicating exposure correction conditions at the time of generating image data, which is associated with the image data. To do. An image processing apparatus according to a second aspect of the present invention includes an image capturing unit that captures the image data and the exposure correction information, an image quality that analyzes at least the captured image data, and indicates at least a characteristic relating to the brightness of the image data. Image quality parameter value acquisition means for acquiring parameter values, and reflection of the exposure correction information
The image quality parameter of at least the lightness.
The standard image quality parameter values and
And reduce the deviation of the acquired image quality parameter values or
Image quality adjustment to adjust the image quality of the image data
And adjusting means. Alternatively, the image
Capturer that captures image data and the exposure compensation information
And analyze the captured image data to reduce
In both cases, the image quality parameter indicating the characteristics related to the brightness of the image data
Image quality parameter value acquisition means for acquiring the meter value
Even if the image quality parameter value for the brightness is
Predetermined reference image quality parameter value and
The image quality adjustment amount is calculated from the obtained image quality parameter value and
The image quality adjustment amount is corrected by reflecting the exposure compensation information and
The image quality of the image data is corrected using the corrected image quality adjustment amount.
An image processing apparatus including image quality adjusting means for adjusting,
Is also good. Further alternatively, the image data and the dew
Output means for capturing output correction information, and
Analyzed image data, at least the image data
Gets the value of the image quality parameter that indicates the characteristics related to brightness
Image quality parameter value acquisition means and at least the brightness
Predetermined image quality parameter values
The quasi-image quality parameter value is modified based on the exposure correction information.
Correct reference image quality parameter value correcting means,
The reference image quality parameter value and the obtained image quality parameter.
An image for adjusting the image quality of the image data based on the meter value.
The image processing apparatus may include a quality adjusting unit.

According to the image data processing device of the second aspect of the present invention, it is possible to obtain the same effects as those of the output device of the first aspect of the present invention. The second aspect of the present invention
The image data processing device according to this aspect can be realized in various aspects in the same manner as the output device according to the first aspect of the present invention.

A third aspect of the present invention provides a method for adjusting image quality of image data. An image quality adjusting method according to a third aspect of the present invention obtains image data and exposure correction information indicating an exposure correction condition at the time of generating image data associated with the image data, analyzes the image data, At least the value of the image quality parameter indicating the characteristic relating to the brightness of the image data is acquired, the exposure correction amount is acquired from the exposure correction information, the exposure correction amount is reflected, and the brightness is previously calculated.
Defined standard image quality parameter values and the image quality parameters
The image quality of the image data is adjusted so as to reduce or eliminate the deviation of the data value . Or an image
Data and image data generation associated with image data
Acquisition of exposure compensation information that indicates the condition of exposure compensation at the time
Then, the image data is analyzed and at least the image data is analyzed.
The value of the image quality parameter that indicates the characteristics of
Obtain the exposure correction amount from the exposure correction information, and
Reference image quality parameter values predetermined with respect to
The image quality adjustment amount is calculated from the image quality parameter value
Correct the image quality adjustment amount to reflect the correction amount, and before
The image quality of the image data is adjusted using the image quality adjustment amount.
An image quality adjustment method may be used. Furthermore, image data
And when creating image data associated with image data.
The exposure compensation information indicating the exposure compensation condition is acquired, and
By analyzing the image data, at least the image data
Gets the value of the image quality parameter that indicates the
The exposure compensation amount is obtained from the exposure compensation information, and
The exposure compensation amount,
A reference image that is predetermined for the image quality parameter value of
The quality parameter value and adjust the modified reference quality parameter.
Based on the meter value and the acquired image quality parameter value
And an image quality adjusting method for adjusting the image quality of the image data.
You can

According to the image quality adjusting method of the third aspect of the present invention, it is possible to obtain the same effects as those of the output device of the first aspect of the present invention. The image quality adjusting method according to the third aspect of the present invention can be realized in various aspects in the same manner as the output device according to the first aspect of the present invention.

The fourth aspect of the present invention provides a program for adjusting the image quality of image data. Fourth of the present invention
The program according to the aspect of (1), image data, a function of acquiring exposure correction information indicating an exposure correction condition at the time of generating image data associated with the image data, analyzing the image data, and analyzing at least the image data. A function that acquires the value of the image quality parameter that indicates the characteristics related to brightness,
The function of acquiring the exposure correction amount from the exposure correction information, before
The brightness is preset according to the exposure compensation amount.
Reference image quality parameter value and deviation of the image quality parameter value
And a function of adjusting the image quality of the image data so as to reduce or eliminate the difference by a computer. Or image data and image data
Exposure compensation conditions when generating associated image data
Function to acquire the exposure compensation information that indicates the
To analyze at least the brightness of the image data.
The function to obtain the value of the image quality parameter that indicates the
The function to obtain the exposure compensation amount from the exposure compensation information,
The function to adjust the image quality of image data is
Defined standard image quality parameter values and the image quality parameters
The image quality adjustment amount is calculated from the data value and the exposure correction amount is reflected.
Then, the image quality adjustment amount is corrected, and the corrected image quality adjustment amount is corrected.
Function to adjust the image quality of the image data.
It may be a program realized by a computer
Yes. Furthermore, the image data and the image data
Exposure that shows the conditions for exposure compensation when the captured image data is generated.
The function to obtain the output correction information and to analyze the image data
At least the characteristics relating to the brightness of the image data are shown.
Function to obtain the value of the image quality parameter and the exposure compensation
The function to acquire the exposure compensation amount from the information, and the acquired
Reflecting the exposure compensation amount,
Reference image quality predetermined for the image quality parameter value
A function for modifying the parameter value and the modified reference image
Based on the quality parameter value and the image quality parameter value
A computer having a function of adjusting the image quality of the image data.
It may be a program realized by.

According to the program of the fourth aspect of the present invention, it is possible to obtain the same operational effects as those of the output device of the first aspect of the present invention. Further, the program according to the fourth aspect of the present invention can be realized in various aspects in the same manner as the output device according to the first aspect of the present invention.

A fifth aspect of the present invention provides an image data generating apparatus for generating image data associated with image processing conditions of image data in an output apparatus. An image data generation device according to a fifth aspect of the present invention is an image data generation unit that generates image data, an exposure correction information acquisition unit that acquires exposure correction information, and analyzes the generated image data, At least the image quality parameter value acquisition means for acquiring the value of the image quality parameter indicating the characteristic relating to the brightness of the image data, and the exposure correction information to reflect the brightness
The image quality parameter value for
Standard image quality parameter value and the image quality parameter value
Image processing condition generation means for generating the image processing condition so as to reduce or eliminate the deviation of the image processing condition, and output means for outputting the generated image processing condition and the image data in association with each other. . Or image day
Image data generation means for generating
The exposure correction information acquisition means to be obtained and the generated image data
To analyze at least the brightness of the image data.
The image quality parameter that acquires the value of the image quality parameter that indicates the
Data value acquisition means and the image quality parameter for the brightness.
Parameter values and preset reference image quality parameter values
And the image quality adjustment amount from the image quality parameter value,
The image quality adjustment amount is corrected by reflecting the exposure compensation information and
The image processing condition is generated using the corrected image quality adjustment amount.
Image processing condition generating means for performing the generated image processing
Outputting means for outputting a condition and the image data in association with each other
The image data generating device may include the following. Furthermore
Includes image data generating means for generating image data, and
Exposure correction information acquisition means for acquiring output correction information;
The generated image data is analyzed and at least the image data
Gets the value of the image quality parameter that indicates the characteristics related to the brightness of the
Image quality parameter value acquisition means for
Reference image quality predetermined for the image quality parameter value
Modify the parameter value based on the exposure compensation information
Reference image quality parameter value correcting means and the corrected reference
Image quality parameter value and the acquired image quality parameter
Image processing condition for generating the image processing condition based on the value
Generating means, the generated image processing conditions and the image data
Image data including an output unit that outputs the data in association with the data.
It may be a data generator.

According to apparatus for producing an image file according to the fifth aspect of the present invention, reference image quality parameter value, the image quality parameter values for brightness, and based on the exposed auxiliary Seijo report, the output device definitive image data Since the image processing condition is generated, the image processing of the image data can be easily executed without obtaining the image processing condition in the output device. Furthermore, the image quality of image data can be automatically adjusted without impairing arbitrarily set output conditions, for example, the condition of brightness, and the image quality can be appropriately automatically adjusted corresponding to individual image data. it can. Therefore,
A bright output result is obtained when a bright output result is intended, and a dark output result is obtained when a dark output result is intended. The image data and the image processing condition may be stored in the same file in association with each other.

[0021]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, output image adjustment of an image file according to the present invention will be described based on several embodiments in the following order with reference to the drawings. A. Configuration of image data output system: B. Image file structure: C. Configuration of image data output system capable of using image file: D. Image Processing in Digital Still Camera: E. Image processing in printer: F. Other examples:

A. Configuration of Image Data Output System: The configuration of the image data output system to which the image output device that realizes the image output adjustment according to the present embodiment is applicable will be described with reference to FIGS. 1 and 2. FIG. 1 is an explanatory diagram showing an example of an image data output system to which the image output apparatus according to the first embodiment can be applied. FIG. 2 is a block diagram showing a schematic configuration of a digital still camera capable of generating an image file (image data) output by the image output apparatus according to the first embodiment.

The image data output system 10 is a digital still camera 12 as an input device for generating an image file, and an output device for executing image processing based on the image file generated by the digital still camera 12 and outputting an image. As a color printer 20.
As the output device, a monitor 14 such as a CRT display or an LCD display, a projector, or the like can be used in addition to the printer 20, but in the following description, the color printer 20 is used as the output device.

The digital still camera 12 is a camera for acquiring an image by forming light information on a digital device (CCD or photomultiplier), and as shown in FIG. 2, a CCD for collecting light information. An optical circuit 121 including an image acquisition circuit 122, an image acquisition circuit 122 for controlling the optical circuit 121 to acquire an image, an image processing circuit 123 for processing the acquired digital image, and a control for controlling each circuit. The circuit 124 is provided. The digital still camera 12 uses a memory card M as a storage device to store the acquired image as digital data.
Save to C. The JPEG format is generally used as a format for storing image data in the digital still camera 12, but in addition to this, the TIFF format, the GIF format, and the BMP format.
A storage format such as a format may be used.

The digital still camera 12 also uses a selection / decision button 126 for setting a photographing mode, an exposure compensation amount (exposure compensation value), a light source, etc., a preview of a photographed image, and a selection / decision button 126. A liquid crystal display 127 for setting a photographing mode and the like is provided. The exposure correction amount set in the digital still camera 12 is represented by the exposure amount EV, and if there is no exposure correction, EV = ± 0 is recorded. To correct the exposure to be brighter than the proper exposure automatically set in the digital still camera 12, +0.1 EV, +
The exposure compensation amount is set on the plus side like 2.0 EV,
If you want to correct the exposure darker than the proper exposure,
The exposure correction amount is set to the negative side, such as 0.1 EV and -2.0 EV.

The digital still camera 12 used in the image data output system 10 stores image output control information GI of image data in the memory card MC as an image file GF in addition to the image data GD. That is, the image output control information GI is automatically stored in the memory card MC as the image file GF together with the image data GD at the time of shooting. If the user has previously selected a shooting mode such as portrait or night view, the parameter value of the image quality parameter corresponding to the selected shooting mode or the parameters such as the exposure correction amount and the light source can be set arbitrarily. When the value is set to the value, the image file GF including the set value of the set parameter as the image output control information GI is stored in the memory card MC.

In the digital still camera 12, when shooting is performed in the automatic shooting mode, the values of parameters such as the exposure time, the light source, the aperture, the shutter speed, and the focal length of the lens at the time of shooting are used as the image output control information. The image file GF including the above is stored in the memory card MC. In addition, the parameters applied to each shooting mode,
The parameter values are stored in the memory in the control circuit 124 of the digital still camera 12.

The image file GF generated by the digital still camera 12 is sent to the color printer 20 via the cable CV, the computer PC, or the cable CV, for example. Alternatively, the memory card MC in which the image file GF is stored in the digital still camera 12 is directly connected to the printer 20 via the computer PC mounted in the memory card slot. The image file is sent to the color printer 20 by. The following description will be given based on the case where the memory card MC is directly connected to the color printer 20.

B. Image File Structure: A schematic structure of an image file that can be used in this embodiment will be described with reference to FIG. FIG. 3 is an explanatory diagram conceptually showing an example of the internal structure of an image file that can be used in this embodiment.
The image file GF has an image data storage area 101 for storing the image data GD and an image output control information storage area 102 for storing information (image output control information) GI for controlling the output state of the image data. Image data GD
Is stored in, for example, the JPEG format, and the image output control information GI is stored in the TIFF format. In addition,
The terms such as file structure, data structure, and storage area in this embodiment mean an image of the file or data in the state where the file or data is stored in the storage device.

The image output control information GI is information (image quality generation information) relating to the image quality when the image data is generated in the image data generating device such as the digital still camera 12 (when the image is photographed), and is used for photographing. Along with this, automatically generated exposure time, ISO sensitivity, aperture, shutter speed, parameters regarding focal length, and exposure correction amount, light source, shooting mode arbitrarily set by the user,
Output control parameters such as target color space may be included.

The image file GF according to this embodiment is
In addition to the digital still camera 12, an input device (image file generation device) such as a digital video camera or a scanner
Can also be generated by.

The image file GF according to this embodiment basically needs to have the above-mentioned image data area 101 and image output control information storage area 102, and is a file according to the already standardized file format. Can take structure. The case where the image file GF according to the present embodiment is adapted to the standardized file format will be specifically described below.

The image file GF according to the present embodiment can have a file structure according to the image file format standard (Exif) for digital still cameras, for example. The specifications of the Exif file are defined by the Japan Electronics and Information Technology Industries Association (JEITA). The schematic structure of the inside of the file when the image file GF according to the present embodiment has a file format according to this Exif file format will be described with reference to FIG. FIG. 4 is an explanatory diagram showing a schematic internal structure of the image file GF according to the present embodiment stored in the Exif file format.

Image file GFE as an Exif file
Is a JPEG image data storage area 111 for storing JPEG format image data and an attached information storage area 1 for storing various kinds of information regarding the stored JPEG image data.
12 and 12. JPEG data storage area 111
Corresponds to the image data storage area 101, and the auxiliary information storage area 112 corresponds to the image output control information storage area 10
Equivalent to 2. That is, in the attached information storage area 112, image output control information (image output control information GI) referred to when outputting a JPEG image such as shooting date / time, exposure, shutter speed, light source, exposure correction amount, and target color space. Is stored. In addition, the attached information storage area 11
2, thumbnail image data of the JPEG image stored in the JPEG image data storage area 111 is stored in the TIFF format in addition to the image output control information GI. As is well known to those skilled in the art, in an Exif format file, tags are used to specify each data, and each data may be called by a tag name.

The detailed data structure of the attached information storage area 112 will be described with reference to FIG. FIG. 5 shows the auxiliary information storage area 11 of the image file GF that can be used in this embodiment.
It is explanatory drawing which shows an example of the data structure of 2.

In the attached information storage area 112, parameter values for information such as exposure time, lens F value, exposure control mode, ISO sensitivity, exposure correction amount, light source, flash, focal length, etc. are set in accordance with predetermined addresses as shown in the figure. It is stored. On the output device side, desired information (parameter)
The image output control information GI can be acquired by designating the address corresponding to.

C. Configuration of Image Output Device: The schematic configuration of the image output device according to the present embodiment, that is, the color printer 20 will be described with reference to FIG. FIG. 6 is a block diagram showing a schematic configuration of the color printer 20 according to this embodiment.

The color printer 20 is a printer capable of outputting a color image. For example, four color inks of cyan (C), magenta (M), yellow (Y), and black (K) are printed on a print medium. It is an inkjet printer that forms an image by ejecting ink onto a dot pattern to form an image. Alternatively, it is an electrophotographic printer that forms an image by transferring and fixing color toner on a printing medium. In addition to the above four colors, light cyan (light cyan, LC), light magenta (light magenta, LM), and dark yellow (dark yellow, DY) may be used as the color ink.

The color printer 20, as shown,
A mechanism that drives the print head 211 mounted on the carriage 21 to eject ink and form dots, a mechanism that causes the carriage motor 22 to reciprocate in the axial direction of the platen 23, and a paper feed motor 24.
And a control circuit 30. The mechanism for reciprocating the carriage 21 in the axial direction of the platen 23 is an endless drive between a slide shaft 25 slidably holding the carriage 21 installed in parallel with the shaft of the platen 23 and a carriage motor 22. A pulley 27 for stretching the belt 26 and a position detection sensor 28 for detecting the origin position of the carriage 21 are included. The mechanism for conveying the print paper P includes a platen 23,
The sheet feeding motor 24 rotates the platen 23, a sheet feeding auxiliary roller (not shown), and a gear train (not shown) that transmits the rotation of the sheet feeding motor 24 to the platen 23 and the sheet feeding auxiliary roller.

The control circuit 30 is the operation panel 2 of the printer.
9, the movements of the paper feed motor 24, the carriage motor 22, and the print head 211 are appropriately controlled. Printing paper P supplied to the color printer 20
Is set so as to be sandwiched between the platen 23 and the paper feed auxiliary roller, and is fed by a predetermined amount according to the rotation angle of the platen 23.

The ink cartridge 2 is mounted on the carriage 21.
12 and the ink cartridge 213 are mounted. The ink cartridge 212 contains black (K) ink,
The ink cartridge 213 contains other ink, that is,
In addition to the three color inks of cyan (C), magenta (M), and yellow (Y), a total of six color inks of light cyan (LC), light magenta (LM), and dark yellow (DY) are stored.

Next, the internal structure of the control circuit 30 of the color printer 20 will be described with reference to FIG. FIG. 7 is an explanatory diagram showing an internal configuration of the control circuit 30 of the color printer 20. As shown in the figure, inside the control circuit 30,
CPU 31, PROM 32, RAM 33, PCMCIA slot 34 for acquiring data from the memory card MC,
A peripheral device input / output unit (PIO) 35 that exchanges data with the paper feed motor 24, the carriage motor 22, and the like, a timer 36, a drive buffer 37, and the like are provided. The drive buffer 37 includes the ink ejection heads 214 to 220.
It is used as a buffer to supply dot on / off signals. These are connected to each other by a bus 38 and can exchange data with each other. In addition, the control circuit 30 includes an oscillator 3 that outputs a drive waveform at a predetermined frequency.
9 and the distribution output device 40 that distributes the output from the oscillator 39 to the ink ejection heads 214 to 220 at a predetermined timing.

The control circuit 30 reads the image file 100 from the memory card MC, analyzes the attached information AI,
Image processing is executed based on the analyzed control information AI.
The control circuit 30 outputs the dot data to the drive buffer 37 at a predetermined timing while synchronizing with the movements of the paper feed motor 24 and the carriage motor 22. Control circuit 3
The detailed image processing flow executed by 0 will be described below. .

D. Image processing in a digital still camera: With reference to FIG.
The image processing in 2 will be described. FIG. 8 is a flowchart showing the flow of the generation process of the image file GF in the digital still camera 12.

Control circuit 1 of digital still camera 12
24 determines whether or not the user has set a shooting mode or image output control information such as a light source and an exposure correction amount prior to shooting (step S100). These image output control information settings are made by selecting / setting button 126.
Is operated, and is displayed on the liquid crystal display 127.
It is executed by the user selecting from the shooting modes prepared in advance. Alternatively, the selection / setting button 126 is operated in the same manner to be executed by the user changing the set value on the liquid crystal display 127.

When the control circuit 124 determines that the image output control information is set (step S100:
Yes), and the image data GD is generated using a parameter value defined by the set image output control information in response to a shooting request, for example, pressing down the shutter button (step S110). The control circuit 124 stores the generated image data GD and the image output control information GI including the arbitrarily set output condition and the output condition automatically given in the memory card MC as the image file GF (step S120). ), And ends this processing routine. The data generated by the digital still camera 12 is converted from the RGB color space and represented by the YCbCr color space.

On the other hand, when the control circuit 124 determines that the image output control information is not set (step S100: No), the image data GD is generated in response to the photographing request (step S130). . Control circuit 124
Is the generated image data GD and the image output control information GI including the output condition that is automatically added when the image data is generated.
And are stored in the memory card MC as the image file GF (step S140), and this processing routine ends.

By the above processing executed in the digital still camera 12, the image file GF stored in the memory card MC contains the image data GD as well as the image output control information GI including the values of the respective parameters at the time of image data generation. Will be prepared. In addition, Dizzy
The tarstill camera 12 generates image data GD and
Output correction information, analyze the generated image data,
An image quality parameter that shows at least the characteristics related to the brightness of image data.
Gets the parameter value and sets the image quality parameter for brightness
Predetermined reference image quality parameter value for value, acquisition
Based on the recorded image quality parameter value and exposure compensation information.
Image processing control information (image processing conditions)
Correlate the created image processing control information with the image data
You can output it.

E. Image Processing in Color Printer 20: Image processing in the color printer 20 according to the present embodiment will be described with reference to FIGS. FIG. 9 is a flowchart showing the processing routine of the print processing in the color printer 20 according to this embodiment. FIG. 10 is a flowchart showing the flow of image processing in the color printer 20. FIG. 11 is a flowchart showing a processing routine for automatic image adjustment in the color printer 20. In the image processing in the color printer 20 according to the present embodiment, the color space conversion processing is executed first, and the automatic image adjustment is executed later.

Control circuit 30 of color printer 20 (CP
U31) reads the image file 100 from the memory card MC when the memory card MC is inserted into the slot 34, and reads the read image file 100 into the RAM33.
Is temporarily stored in (step S100). CPU31
Is the attached information storage area 1 of the read image file 100
The image output control information GI indicating the information at the time of generating the image data is searched from 02 (step S110). CPU31
If the image output control information can be searched / discovered (step S120: Yes), the image output control information GI at the time of image data generation is acquired and analyzed (step S13).
0). The CPU 31 executes image processing described in detail later based on the analyzed image output control information GI (step S1).
40), the processed image data is printed out (step S150).

The CPU 31 retrieves image output control information
If not found (step S120: N
o), since the image output control information at the time of generating the image data cannot be reflected, the image output control information that the color printer 20 holds in advance as a default value,
That is, various parameter values are acquired from the ROM 32 and normal image processing is executed (step S160). CP
U31 prints out the processed image data (step S150), and ends this processing routine.

The image processing executed in the color printer 20 will be described in detail with reference to FIG. The CPU 31 of the color printer 20 takes out the image data GD from the read image file GF (step S20).
0). As described above, the digital still camera 12 saves image data as a JPEG format file. In the JPEG file, Y is used to increase the compression rate.
Image data is stored using the CbCr color space.

The CPU 31 executes the 3 × 3 matrix operation S to convert the image data based on the YCrCb color space into the image data based on the RGB color space (step S210). The matrix operation S is an arithmetic expression shown below.

[0054]

[Equation 1]

The CPU 31 executes gamma correction and matrix operation M on the image data based on the RGB color space thus obtained (step S22).
0). When executing the gamma correction, the CPU 31 acquires the gamma value on the DSC side from the image output control information GI, and executes the gamma conversion process on the video data using the acquired gamma value. The matrix calculation M is a calculation process for converting the RGB color space into the XYZ color space. The image file GF used in this embodiment can include color space information at the time of image generation. Therefore, when the image file GF includes color space information, the CPU 3
When executing the matrix operation M, 1 refers to the color space information and executes the matrix operation using the matrix (M) corresponding to the color space at the time of image generation. The matrix operation M is an operation expression shown below.

[0056]

[Equation 2]

The color space of the image data GD obtained after the matrix operation M is executed is the XYZ color space. conventionally,
The color space used for image processing in the printer or computer is fixed to sRGB, and the color space of the digital still camera 12 cannot be effectively used. On the other hand, in the present embodiment, when the image file GF includes color space information,
A printer (printer driver) that changes the matrix (M) used in the matrix calculation M according to the color space information is used. Therefore, the color space of the digital still camera 12 can be effectively used to realize correct color reproduction.

The CPU 31 executes the process of converting the color space of the image data GD from the XYZ color space to the wRGB color space, that is, the matrix operation N ^-1 and the inverse gamma correction, in order to execute the image adjustment based on the arbitrary information. (Step S230). The wRGB color space is a wider color space than the sRGB color space. When executing the gamma correction, the CPU 31 acquires the default gamma value on the printer side from the ROM 32, and uses the reciprocal of the acquired gamma value to execute the inverse gamma conversion process on the video data.
When executing the matrix operation N ⁻¹ , the CPU 31
Performs a matrix operation using the matrix (N ⁻¹ ) corresponding to the conversion from the ROM 31 to the wRGB color space. The matrix operation N ⁻¹ is an operation expression shown below.

[0059]

[Equation 3]

The color space of the image data GD obtained after executing the matrix operation N ^-1 is the wRGB color space. This w
As described above, the RGB color space is a wider color space than the sRGB color space and corresponds to the color space that can be generated by the digital still camera 12.

The CPU 31 executes an automatic image quality adjustment process (step S240). In the image quality automatic adjustment processing in the present embodiment, the image data GD included in the image file GF is analyzed to obtain the characteristic parameter value indicating the image quality, and the image output control information GI included in the image file GF is reflected. Then, the image quality is automatically adjusted to correct the acquired characteristic parameter value. This image quality automatic adjustment processing will be described in detail with reference to FIG.

First, the CPU 31 analyzes the image data GD, acquires various characteristic parameter values indicating the characteristics of the image data GD, and temporarily stores them in the RAM 32 (step S300). The lightness parameter indicating the lightness characteristic is acquired as the lightness representative value Brep among the image statistical values obtained by analyzing the image data GD. CPU31
Analyzes the image output control information GI and acquires the values of control parameters (information) that control (designate) the image output such as the light source, the exposure correction amount, the exposure time, the aperture, the ISO, and the focal length (step S310). .

The CPU 31 changes (corrects) the reference value and coefficient set for each parameter while reflecting the acquired control parameter value (step S320). The reference value and coefficient set for each parameter are values assuming image data generated under general image generation conditions (output control conditions). Therefore, in order to realize the automatic image quality adjustment that correctly reflects the intention of the photographer (image creator), in particular, regarding the output control conditions that can be arbitrarily set by the photographer, the individual output control conditions are taken into consideration and the standard is set. Change the value and coefficient. The reference value and the coefficient are index values of parameters for which the output result of the image determined in advance by the image evaluation by the quantitative evaluation and the sensitivity evaluation is optimum.

First, a case where the lightness reference value set for the lightness parameter among the characteristic parameters is corrected will be described. The brightness reference value Bstd is, for example, 0 to 2
It is 8-bit information that can take a value of 55, and its standard value is set to 128. For this standard value, 0.
The lightness reference value Bstd is corrected by adding or subtracting a value calculated using the conversion formula of 1 EV (exposure correction amount) = 2 (lightness correction value) to the lightness standard value 128. That is, Bstd = 128 + brightness correction value. For example, if the exposure correction amount is +1.0 EV correction, the brightness correction value is
(1.0 / 0.1) * 2 = 20, and the brightness reference value Bstd
Becomes 128 + 20 = 148. On the other hand, if the exposure correction amount is -0.5 EV correction, the brightness correction value is-(0.5 /
0.1) * 2 = -10, and the lightness reference value Bstd is 1
28-10 = 118.

When the exposure correction amount is set to a value other than 0, the photographer can intentionally change the brightness and determine that the photograph has been taken. Therefore, in order to reflect the photographer's intention, the brightness reference value Bstd is corrected based on the exposure correction amount,
The brightness is automatically adjusted to reflect the photographer's intention.

The CPU 31 executes image quality automatic adjustment for correcting the image data GD so as to approach the changed reference value (step S330). The correction for bringing the lightness value of the image data GD closer to the reference value is executed based on the following equation.

[0067]

[Equation 4]

The relationship between the input level and the output level used when performing the correction to bring the lightness value of the image data GD closer to the reference value will be described with reference to FIG. 12
FIG. 4 is a graph conceptually showing the relationship between the input level and the output level of the brightness of each pixel of the image data. When the exposure correction amount is a positive value and the correction to lighten the brightness is executed, for example, the output levels OL1 and OL2 are raised according to the correction level at a point of 1/4 of the input level. On the other hand, if the exposure correction amount is a negative value and the correction to darken the brightness is executed, for example,
Output level OL3 according to the correction level at point 4
Lower. Values excluding the points corresponding to the correction level are interpolated by the spline curve.

For example, when the brightness representative value Brep = 100 and the exposure correction amount = 0, the brightness correction level B is calculated from the above equation.
rev = 10 (OL1). On the other hand, the brightness representative value Brep =
When 100 and the exposure correction amount = 16, the lightness correction level Brev = 13 (OL3) is obtained from the above equation. If the brightness reference value Bstd is not corrected in consideration of the exposure correction amount,
As long as the brightness representative value Brep is the same, it was not reflected in the output result of the image data, but by correcting the brightness reference value Bstd in consideration of the exposure correction amount, the brightness correction level Brev considers the exposure correction amount. It is corrected by 3 levels larger than the case without it. Therefore, the intention of the photographer who wants to brighten the output result can be reflected in the output result of the image data.

Alternatively, the lightness correction level Brev may be directly increased / decreased without correcting the lightness reference value Bstd. For example, when the exposure correction amount is set to 0.5 EV using the conversion formula of 0.1 EV = 2 (level), (0.5 / 0.1) * 2 = 10, and the brightness correction level Brev = 10 + lightness reference value Bstd. If the lightness reference value Bstd = 10, as a result, the lightness correction level Brev
= 20 is obtained. As described above, this value is used to correct the tone curve for determining the output level of the brightness value of the image data GD with respect to the input level, and by correcting the brightness value of each pixel of the image data GD. The brightness of the image data GD is adjusted.

After executing the automatic adjustment other than the above-mentioned brightness correction (step S360), the CPU 31 returns to the image processing routine which is the main routine.

When the image quality automatic adjustment processing is completed, the CPU 31 executes wRGB color conversion processing and halftone processing for printing (step S250). In the wRGB color conversion processing, the CPU 31 refers to the conversion lookup table (LUT) for conversion to the CMYK color space corresponding to the wRGB color space stored in the ROM 31, and changes the color space of the image data from the wRGB color space to CMYK. Change to color space. That is, image data composed of R, G, and B gradation values is used in the color printer 20, for example, C and M.
・ Convert to the data of the gradation value of each of Y, K, LC and LM.

In the halftone processing, the color-converted image data is received and the gradation number conversion processing is performed. In this embodiment, the image data after color conversion is expressed as data having a 256 gradation width for each color. In contrast,
The color printer 20 of the present embodiment can take only one of the states of “forming a dot” and “not forming a dot”, and the color printer 20 of the present embodiment is locally limited to 2
Only gradation can be expressed. Therefore, the image data having 256 gradations is converted into the image data expressed in 2 gradations that the color printer 20 can express. As a typical method of this two-gradation (binarization) processing, there is a method called an error diffusion method and a method called an ordered dither method.

In the color printer 20, prior to the color conversion processing, if the resolution of the image data is lower than the print resolution, linear interpolation is performed to generate new data between adjacent image data, and conversely, the print resolution is lower than the print resolution. If is also high, the resolution conversion processing for converting the resolution of the image data into the print resolution is executed by thinning out the data at a constant rate.
Further, the color printer 20 executes an interlace process of rearranging the image data converted into a format indicating the presence or absence of dot formation in the order to be transferred to the color printer 20.

As described above, according to the color printer 20 of this embodiment, the image quality of the image data GD can be automatically adjusted by reflecting the image output control information GI contained in the image file GF. Therefore, even if the user arbitrarily sets the output control condition of the image data, the automatic output image quality adjustment can correct the arbitrary output control condition to reflect the user's intention. It is possible to solve the problem in the conventional image quality automatic adjustment function that is not possible.

In particular, the color printer 2 in this embodiment
According to 0, when the image quality of the image data GD is automatically adjusted, the brightness reference value Bstd is corrected in consideration of the exposure correction amount, so that the brightness correction level Brev is larger than that in the case where the exposure correction amount is not considered. Or it is corrected small.
Therefore, the intention of the photographer who wants to make the output result brighter or darker can be reflected in the output result of the image data. If the exposure compensation amount is 0,
Since the photographer can determine that he / she does not want an intentional output result regarding brightness, the brightness reference value Bstd is not modified.

Further, since the image quality can be automatically adjusted using the image output control information GI included in the image file GF, the image quality can be easily adjusted without adjusting the image quality on the photo retouching application or the printer driver. It is possible to obtain a high-quality print result that reflects the user's shooting intention.

In the above embodiment, an example in which the image quality adjustment processing is automatically executed has been described. However, an image quality automatic adjustment button is provided on the operation panel of the color printer 20,
The image quality automatic adjustment processing of the above embodiment may be executed only when the image quality automatic adjustment is selected by the image quality automatic adjustment button.

F. Other Embodiments: In the above embodiment, all image processing is executed in the color printer 20 without using the personal computer PC, and the dot pattern is formed on the print medium according to the generated image data GD. All or part of the image processing may be executed on the computer. In this case, the image data processing application such as the retouch application or the printer driver installed in the hard disk of the computer is provided with the image processing function described with reference to FIG. The image file GF generated by the digital still camera 12 is sent via a cable or
It is provided to the computer via the memory card MC. On the computer, an application is activated by a user's operation to read the image file GF, analyze the image output control information GI, convert the image data GD, and adjust. Alternatively, the application is automatically started by detecting the insertion of the memory card MC or by detecting the insertion of the cable, reading the image file GF, analyzing the image output control information GI, and displaying the image. The data GD may be converted and adjusted automatically.

In the above embodiment, the automatic adjustment of the image quality has been described focusing on the correction of the lightness in consideration of the exposure correction amount. However, in addition to this, for example, the shadow / contrast point, the contrast, the color balance, With respect to the characteristic parameter values of the image data GD such as saturation and sharpness, automatic adjustment of image quality that reflects the image output control information GI can be executed.

Further, the characteristic parameter value for executing the automatic image quality adjustment may be selected. For example, the color printer 20 has a parameter selection button, or
It is also possible to provide a shooting mode parameter selection button that is a combination of predetermined parameters according to the subject, and select a parameter for executing the automatic image quality adjustment with these selection buttons. Further, when the image quality automatic adjustment is executed on the personal computer, a parameter for executing the image quality automatic adjustment may be selected on the user interface of the printer driver or the retouch application.

Image processing in the color printer 20 is as follows.
As shown in FIG. 13, the image quality automatic adjustment processing may be executed first, and then the color space conversion may be executed. Basic information may be processed.

In the above embodiments, the color printer 20 is used as the output device, but the output device is a CRT,
A display device such as an LCD or a projector can also be used. In such a case, the display device serving as the output device executes, for example, an image processing program (display driver) that executes the image processing described with reference to FIGS. Alternatively, when the CRT or the like functions as a display device of a computer, the image processing program is executed on the computer side. However, the image data that is finally output is in RG, not CMYK color space.
It has a B color space.

In such a case, in the same manner as the information obtained when the image data is generated can be reflected in the print result through the color printer 20, the image output control when the image data is generated is displayed in the display result on the display device such as the CRT. The information GI can be reflected. Therefore, the digital still camera 12
The image data GD generated by can be displayed more accurately.

Although the image output apparatus according to the present invention has been described based on the embodiments, the embodiments of the present invention described above are intended to facilitate understanding of the present invention and limit the present invention. Not a thing. The present invention can be modified and improved without departing from the spirit and scope of the claims, and it is needless to say that the present invention includes equivalents thereof.

In the above embodiment, as the image output control information GI, the light source, the exposure correction amount, the target color space, the brightness,
Although parameters such as sharpness are used, which parameter is used as the image output control information GI is an arbitrary decision matter.

The values of the parameters illustrated in the table of FIG. 8 are merely examples, and the values do not limit the invention of the present application. Furthermore, the values of the matrices S, M, and N ⁻¹ in each formula are merely examples, and the target color space or the color printer 20 is used.
It goes without saying that the color space can be appropriately changed depending on the available color space.

In the above embodiment, the digital still camera 12 was used as the image file generating device, but
Other than this, a scanner, a digital video camera or the like may be used. Image file G when using a scanner
The designation of the fetched data information of F may be executed on the computer PC, or a preset button to which setting information is previously assigned for information setting, a display screen for arbitrary setting, and a setting button are set on the scanner. The scanner may be provided and can be executed by the scanner alone.

In the above embodiment, an Exif format file has been described as a specific example of the image file GF.
The format of the image file according to the present invention is not limited to this.
That is, any image file may be used as long as it includes the image data generated by the image data generating device and the image output control information GI that describes the conditions (information) at the time of generating the image data. With such a file, the image quality of the image data generated by the image file generation device can be automatically adjusted appropriately and output from the output device.

The digital still camera 12 and the color printer 20 used in the above embodiments are merely examples, and the configurations thereof are not limited to the contents described in each embodiment. The digital still camera 12 may have at least the function of generating the image file GF according to the above-described embodiment. In addition, in the color printer 20, at least the image file G according to the present embodiment is used.
It suffices that the image output control information GI of F be analyzed, the image quality is automatically adjusted by reflecting the user's intention with respect to the brightness, and the image can be output (printed).

In the above embodiment, the case where the image data GD and the image output control information GI are included in the same image file GF has been described as an example, but the image data GD and the image output control information GI are not necessarily the same. It need not be stored in the file. That is, it suffices that the image data GD and the image output control information GI are associated with each other. For example, association data that associates the image data GD with the image output control information GI is generated, and one or more image data and the image output control are generated. The information GI may be stored in independent files, and the associated image output control information GI may be referred to when the image data GD is processed. In such a case, although the image data and the image output control information GI are stored in separate files, the image data and the image output control information GI are inseparable at the time of image processing using the image output control information GI. This is because there is a relationship of, and the same functions as when they are stored in substantially the same file. That is, a mode in which the image data and the image output control information GI are used in association with each other at least at the time of image processing is included in the image file GF in this embodiment. In addition, CD-ROM, CD-R,
It also includes moving image files stored in optical disc media such as DVD-ROM and DVD-RAM.

[Brief description of drawings]

FIG. 1 is an explanatory diagram showing an example of an image data output system to which an image output device according to an embodiment can be applied.

FIG. 2 is a block diagram showing a schematic configuration of a digital still camera capable of generating an image file (image data) output by the image output apparatus according to the present embodiment.

FIG. 3 is an explanatory diagram conceptually showing the internal structure of an image file that can be used in the present embodiment.

FIG. 4 is an explanatory diagram showing a schematic internal structure of an image file stored in an Exif file format.

FIG. 5 is an explanatory diagram showing an example of a data structure of an auxiliary information storage area 112 of an image file GF that can be used in this embodiment.

FIG. 6 is a block diagram showing a schematic configuration of a color printer 20 according to this embodiment.

7 is an explanatory diagram showing an internal configuration of a control circuit 30 of the color printer 20. FIG.

FIG. 8 is a flowchart showing a flow of a refining process of an image file GF in the digital still camera 12.

FIG. 9 is a flowchart showing a processing routine of print processing in the color printer 20 according to the present embodiment.

FIG. 10 is a flowchart showing a flow of image processing in the color printer 20 according to the present embodiment.

11 is a flowchart showing a processing routine for automatic image adjustment in the color printer 20. FIG.

FIG. 12 is a graph conceptually showing the relationship between the input level and the output level of brightness.

FIG. 13 is a flowchart showing a processing routine of print processing in the color printer 20 according to another embodiment.

[Explanation of symbols]

10 ... Image data output system 12 ... Digital still camera 121 ... Optical circuit 122 ... Image acquisition circuit 123 ... Image processing circuit 124 ... Control circuit 126 ... Select / Enter button 127 ... Liquid crystal display 14 ... Display 20 ... Color printer 21 ... Carriage 211 ... Print head 212 ... Ink cartridge 213 ... Ink cartridge 214-220 ... Ink ejection head 22 ... Carriage motor 23 ... Platen 24 ... Paper feed motor 25 ... Sliding shaft 26 ... Drive belt 27 ... Pulley 28 ... Position detection sensor 29 ... Operation panel 30 ... Control circuit 31 ... Arithmetic processing unit (CPU) 32 ... Programmable read only memory (PROM) 33 ... Random access memory (RAM) 34 ... PCMCIA slot 35 ... Peripheral device input / output unit (PIO) 36 ... Timer 37 ... Drive buffer 38 ... bus 39 ... Oscillator 40 ... Distribution output device 100 ... Image file (Exif file) 101 ... JPEG image data storage area 102 ... Attached information storage area 103 ... Makernote storage area MC: Memory card

Claims (21)

(57) [Claims] 1. An output device that outputs image data using image data and exposure correction information indicating exposure correction conditions at the time of generating image data, which is associated with the image data, and analyzes the image data. And an image quality parameter value acquisition unit that acquires at least an image quality parameter value indicating a characteristic related to the brightness of the image data, and a predetermined value for at least the image quality parameter value related to the brightness reflecting the exposure correction information. The image quality adjustment means adjusts the image quality of the image data so as to reduce or eliminate the deviation between the reference image quality parameter value and the acquired image quality parameter value, and the output means for outputting the image quality adjusted image data. Output device. 2. An output device for outputting image data using image data and exposure correction information indicating an exposure correction condition at the time of generating image data associated with the image data, the output device analyzing the image data. And an image quality parameter value acquisition means for acquiring at least an image quality parameter value indicating a characteristic relating to the brightness of the image data, and a reference image quality parameter value predetermined with respect to at least the image quality parameter value relating to the brightness and the acquired An image quality adjustment unit that calculates an image quality adjustment amount from an image quality parameter value, corrects the image quality adjustment amount by reflecting the exposure correction information, and adjusts the image quality of the image data using the corrected image quality adjustment amount; An output device comprising: an output unit that outputs the image data whose image quality has been adjusted. 3. An output device that outputs image data using image data and exposure correction information indicating exposure correction conditions at the time of generating image data, which is associated with the image data, and analyzes the image data. Image quality parameter value acquisition means for acquiring at least the value of the image quality parameter indicating the characteristic relating to the brightness of the image data, and at least the reference image quality parameter value predetermined with respect to the image quality parameter value relating to the brightness. Reference image quality parameter value correction means for making corrections based on information; image quality adjustment means for adjusting the image quality of the image data based on the corrected reference image quality parameter values and the acquired image quality parameter values; An output device that outputs the image data that has been converted. 4. The output device according to claim 3, wherein the reference image quality parameter value correcting means sets the exposure correction amount to 0 in the exposure correction information.
An output device, wherein correction of the reference image quality parameter value is not executed. 5. An image processing apparatus that processes image data using image data and exposure correction information indicating exposure correction conditions at the time of generating image data, the image data being associated with the image data. A capturing unit that captures exposure correction information; an image quality parameter value acquiring unit that analyzes the captured image data and acquires a value of an image quality parameter indicating at least a characteristic relating to the brightness of the image data; and reflecting the exposure correction information. Then, an image quality adjustment for adjusting the image quality of the image data so as to reduce or eliminate a deviation between a predetermined reference image quality parameter value and the acquired image quality parameter value with respect to the image quality parameter value for at least the lightness. image Zosho management and means. 6. An image processing apparatus that processes image data using image data and exposure correction information indicating exposure correction conditions at the time of generating image data, the image data being associated with the image data. Capturing means for capturing exposure correction information; image quality parameter value acquiring means for analyzing the captured image data to acquire a value of an image quality parameter indicating at least a characteristic relating to the brightness of the image data; An image quality adjustment amount is calculated from a predetermined reference image quality parameter value and the acquired image quality parameter value for the image quality parameter value,
Correct the image quality adjustment amount by reflecting the exposure correction information,
Image Zosho management apparatus and a picture quality adjusting means for adjusting the image quality of the image data by using the modified image quality adjustment amount. 7. An image processing apparatus for processing image data using image data and exposure correction information indicating an exposure correction condition at the time of generating image data, the image data being associated with the image data. Capturing means for capturing exposure correction information; image quality parameter value acquiring means for analyzing the captured image data to acquire a value of an image quality parameter indicating at least a characteristic relating to the brightness of the image data; Reference image quality parameter value correction means for correcting a predetermined reference image quality parameter value for the image quality parameter value based on the exposure correction information; and the corrected reference image quality parameter value and the acquired image quality parameter value. based picture and a picture quality adjusting means for adjusting the image quality of the image data Zosho Apparatus. 8. The image Zosho management apparatus according to claim 7, wherein the reference image quality parameter value correction means, if the exposure correction amount is set to 0 in the exposure correction, the reference image quality parameter values image Zosho management apparatus characterized by not take corrective. 9. A method of adjusting image quality of image data, comprising: acquiring image data and exposure correction information indicating an exposure correction condition at the time of generating image data, which is associated with the image data, and analyzing the image data. , At least a value of an image quality parameter indicating a characteristic relating to the brightness of the image data is acquired, an exposure correction amount is acquired from the exposure correction information, the exposure correction amount is reflected, and a predetermined reference image quality parameter value regarding the brightness is acquired. And an image quality adjusting method for adjusting the image quality of the image data so as to reduce or eliminate the deviation of the image quality parameter value. 10. A method for adjusting image quality of image data, comprising: acquiring image data and exposure correction information indicating an exposure correction condition at the time of generating image data associated with the image data, and analyzing the image data. , Obtaining at least an image quality parameter value indicating a characteristic relating to lightness of the image data, obtaining an exposure correction amount from the exposure correction information, and obtaining an image quality adjustment amount from a predetermined reference image quality parameter value and the image quality parameter value relating to lightness. Is calculated, the image quality adjustment amount is corrected by reflecting the exposure correction amount, and the image quality of the image data is adjusted using the corrected image quality adjustment amount. 11. A method of adjusting image quality of image data, comprising: acquiring image data and exposure correction information indicating an exposure correction condition at the time of generating image data, which is associated with the image data, and analyzing the image data. , Acquiring at least a value of an image quality parameter indicating a characteristic relating to the brightness of the image data, acquiring an exposure correction amount from the exposure correction information, and reflecting the acquired exposure correction amount, the image quality at least for the brightness An image quality adjustment method of modifying a predetermined reference image quality parameter value for a parameter value, and adjusting the image quality of the image data based on the modified reference image quality parameter value and the acquired image quality parameter value. 12. The image quality adjusting method according to claim 11, wherein when the acquired exposure correction amount is 0, the reference image quality parameter value is not corrected. 13. A program for adjusting image quality of image data, the function of acquiring image data and exposure correction information indicating a condition of exposure correction at the time of generating image data, which is associated with the image data, Analyzing the image data, at least a function of acquiring a value of an image quality parameter indicating a characteristic relating to the brightness of the image data, a function of acquiring an exposure correction amount from the exposure correction information, and reflecting the exposure correction amount , A program for causing a computer to realize a function of adjusting the image quality of the image data so as to reduce or eliminate a deviation between a predetermined reference image quality parameter value and the image quality parameter value with respect to lightness. 14. A program for adjusting the image quality of image data, the function of acquiring image data and exposure correction information indicating a condition of exposure correction at the time of generating image data associated with the image data, A function of analyzing image data to obtain at least a value of an image quality parameter indicating a characteristic relating to the brightness of the image data, a function of obtaining an exposure correction amount from the exposure correction information, and a function of adjusting the image quality of the image data. Calculates an image quality adjustment amount from a predetermined reference image quality parameter value and the image quality parameter value relating to brightness, corrects the image quality adjustment amount by reflecting the exposure correction amount , and uses the corrected image quality adjustment amount. A program for causing a computer to realize the function of adjusting the image quality of the image data. 15. A program for adjusting the image quality of image data, the function of acquiring image data and exposure correction information indicating exposure correction conditions at the time of generating image data, which is associated with the image data, A function of analyzing image data to obtain at least a value of an image quality parameter indicating a characteristic relating to the brightness of the image data, a function of obtaining an exposure correction amount from the exposure correction information, and a reflection of the obtained exposure correction amount. And a function of modifying a predetermined reference image quality parameter value with respect to at least the image quality parameter value for the brightness, and an image quality of the image data based on the modified reference image quality parameter value and the image quality parameter value. A program that causes a computer to realize the function of adjusting the. 16. The program according to claim 15, wherein when the acquired exposure correction amount is 0, a computer realizes a function of not correcting the reference image quality parameter value. . 17. An image data generation device for generating image data associated with image processing conditions of image data in an output device, the image data generation means generating image data, and exposure correction information. An exposure correction information acquisition unit, an image quality parameter value acquisition unit that analyzes the generated image data and acquires a value of an image quality parameter indicating at least a characteristic relating to the brightness of the image data, and reflects the exposure correction information, Image processing condition generating means for generating the image processing condition so as to reduce or eliminate a deviation between a predetermined reference image quality parameter value and the image quality parameter value with respect to the image quality parameter value for the brightness; A device for generating image data, which includes an output unit that outputs the image processing condition and the image data in association with each other. . 18. An image data generating device for generating image data associated with image processing conditions of image data in an output device, the image data generating means for generating image data, and the exposure correction information. Exposure correction information acquisition means, an image quality parameter value acquisition means for analyzing the generated image data, and acquiring at least an image quality parameter value indicating a characteristic relating to the brightness of the image data, and an image quality parameter value for the brightness. calculating the image quality adjustment amount from the reference image quality parameter value and the image quality parameter value set in advance for, reflecting the exposure compensation information to correct the image quality adjustment amount, the image using the image quality adjustment amount Fixed and the image processing condition generating means for generating a process condition, in association said the generated image processing condition and the image data Apparatus for generating image data and output means for force. 19. An image data generating device for generating image data associated with an image processing condition of image data in an output device, the image data generating means for generating image data, and the exposure correction information. Exposure correction information acquisition means, an image quality parameter value acquisition means for analyzing the generated image data, and acquiring at least an image quality parameter value indicating a characteristic relating to the brightness of the image data, and an image quality parameter value for the brightness. On the other hand, reference image quality parameter value correcting means for correcting a predetermined reference image quality parameter value based on the exposure correction information, and the image based on the corrected reference image quality parameter value and the acquired image quality parameter value Image processing condition generating means for generating a processing condition, the generated image processing condition and the image An image data generation device, comprising: an output unit that outputs the data in association with the data. 20. The image data generating apparatus according to claim 19, wherein the reference image quality parameter value correction means is configured to, when the exposure correction amount acquired based on the exposure correction information is 0, obtain the reference image quality parameter. An image data generation device characterized in that a value is not modified. 21. The image data generating device according to claim 17, wherein the image data is stored in the same file as the image processing condition and output. .