JP2012029055A - Imaging device, control method of the same, program, and storage medium - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an imaging device that enables a user to confirm in what setting a photographed image was taken.SOLUTION: When photographing is performed in a simple mode, one situation setting item is selected among a plurality of situation setting items that are preliminarily defined as photographing situations (S202). A plurality of atmosphere setting items that are preliminarily defined as atmospheres for an image to be photographed are selected (S205). Image data of a photographed image is stored together with the one situation setting item and one atmosphere setting item that are set to the photographing of the image (S604). When the stored image is displayed (S702), the one situation setting item and the one atmosphere setting item stored together with the image at the step S604 are displayed in the case that the image is photographed in the simple mode (S704).

Description

  The present invention relates to an imaging apparatus such as a camera, and the like, and relates to an imaging apparatus that displays a captured image, a control method thereof, a program used to execute the control method, and a storage medium.

  There is known a camera that displays help information with different difficulty levels according to user settings or levels (levels of familiarity with operation methods, etc.). For example, there has been proposed a technique for determining whether a user is an advanced user or a beginner according to camera settings or the type of external device connected to the camera, and displaying help according to the user's level (Patent Document 1). reference). In addition, a technique has been proposed in which a user's level is determined in accordance with the current setting (including a shooting mode and the like), and help information having a different level of difficulty for each level is displayed (see Patent Document 2).

JP 2007-142848 A JP 2001-282409 A

  However, in the devices disclosed in Patent Documents 1 and 2, there is a problem that it is difficult for the user to know what setting the image was taken. In other words, when the functions and items set according to the user level are different, how to display the image information according to the user level when displaying the captured image reflecting the set contents Improvement is desired.

  SUMMARY OF THE INVENTION An object of the present invention is to provide an imaging apparatus that allows a user to easily check with what setting a captured image was captured.

  The present invention relates to an imaging unit, a switching unit that switches a shooting mode between at least a first shooting mode and a second shooting mode, and a plurality of predetermined conditions for shooting in the first shooting mode. A first setting means for setting a white balance with a predetermined value for each of the situation setting items, and a plurality of atmosphere setting items predetermined as the atmosphere of an image shot in the first shooting mode. For each, a second setting means for setting a plurality of image processing parameters in a predetermined combination and a predetermined value, and the plurality of atmosphere setting items when shooting in the first shooting mode And a selection means for selecting one atmosphere setting item and one situation setting item from the plurality of situation setting items, respectively, and image data of an image shot in the first shooting mode. Storage means for storing together with the one situation setting item set for photographing the image and the one atmosphere setting item set as an image processing condition for the image, and at least an image read from the storage means When the image displayed on the display means is an image photographed in the first photographing mode, the one situation setting item stored together with the image data of the image and the one Control means for displaying two atmosphere setting items on the display means together with the image.

  In the imaging apparatus according to the present invention, the setting method is changed according to the user level and the setting mode, and the display items of the image information when displaying the image reflecting the set contents are changed. In this way, when the setting method varies depending on the user level and setting mode, it is easy to understand what kind of setting is taken by displaying the information set by the user in the information display when displaying the captured image. Playback display can be performed.

1 is a block diagram illustrating an overall configuration of a digital camera according to an embodiment of the present invention. 3 is a flowchart illustrating a method for setting shooting conditions in the digital camera of FIG. 1. FIG. 3 is an example of a setting screen for setting a situation such as a light in the digital camera of FIG. 1. FIG. 3 is an example of a setting screen for performing atmosphere setting in a simple mode in the digital camera of FIG. 1. FIG. 3 is an example of a setting screen when performing atmosphere setting in the detailed setting mode in the digital camera of FIG. 1. It is a flowchart which shows the control flow at the time of imaging | photography with the digital camera of FIG. 3 is a flowchart showing a control flow at the time of image reproduction by the digital camera of FIG. 1. 2 is an example of a display screen when an image captured in a simple mode is displayed on a display unit in the digital camera of FIG. 2 is an example of a display screen when an image taken in a detailed setting mode is displayed on a display unit in the digital camera of FIG.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. Here, a so-called single-lens reflex digital camera is taken up as an imaging apparatus according to the present invention.

<Overall configuration of digital camera>
FIG. 1 is a block diagram showing the overall configuration of a digital camera according to an embodiment of the present invention.

  The digital camera is configured by attaching a lens unit 300 to a digital camera main body 100 via lens mounts 306 (lens unit 300 side) and 106 (digital camera main body 100). The lens mounts 106 and 306 mechanically couple the digital camera body 100 and the lens unit 300 together.

  The digital camera body 100 includes an image sensor 14 that converts an optical image into an electrical signal, and a shutter 12 that controls the exposure amount to the image sensor 14. The light beam incident on the photographing lens 310 included in the lens unit 300 is guided to the image sensor 14 through the diaphragm 312, the lens mounts 306 and 106, the mirror 130, and the shutter 12 by a single lens reflex method, and is optically imaged on the image sensor 14. To form an image.

  The analog signal output output from the image sensor 14 is converted into a digital signal by the A / D converter 16. A clock signal and a control signal are supplied from the timing generation circuit 18 to the image sensor 14, the A / D converter 16, and the D / A converter 26, and the timing generation circuit 18 is supplied from the memory control circuit 22 and the system control circuit 50. Be controlled.

  The image processing circuit 20 performs predetermined pixel interpolation processing and color conversion processing on the data from the A / D converter 16 or the data from the memory control circuit 22. Further, the image processing circuit 20 performs a predetermined calculation process using the image data of the captured image as necessary, and the system control circuit 50 performs the shutter control unit 40 and the distance measurement unit 42 based on the obtained calculation result. Control over. This control includes a TTL (through-the-lens) type autofocus (AF) process, an automatic exposure (AE) process, and a rush light control (EF) process. Further, the image processing circuit 20 performs predetermined calculation processing using the image data of the photographed image, and also performs TTL auto white balance (AWB) processing based on the obtained calculation result.

  The memory control circuit 22 controls the A / D converter 16, the timing generation circuit 18, the image processing circuit 20, the image display memory 24, the D / A converter 26, a memory (not shown), and a compression / decompression circuit. The data of the A / D converter 16 is written into the image display memory 24 via the image processing circuit 20 and the memory control circuit 22 or directly via the memory control circuit 22. The display image data written in the image display memory 24 is displayed on the display unit 28 including a TFT type LCD or the like via the D / A converter 26. It should be noted that an electronic viewfinder and a live view function are realized by sequentially displaying image data taken using the display unit 28.

  In response to an instruction from the system control circuit 50, the display can be arbitrarily turned on / off on the display unit 28. When the display is turned off, the power consumption of the digital camera can be greatly reduced. The display unit 28 can display a playback image or display information of a displayed image by operating the operation unit 70 or a playback switch (not shown).

  AE (automatic exposure) processing is performed by the photometry means 46. The light metering means 46 is made incident on the light metering means 46 through the aperture 312, the lens mounts 306 and 106, the mirrors 130 and 132, and a light metering lens (not shown) by a single lens reflex method by the single lens reflex method. The exposure state of the image formed as an optical image is measured. Based on the photometric information from the photometric unit 46, the shutter control unit 40 controls the shutter 12 in cooperation with the aperture control unit 340 that controls the aperture 312.

  The light beam incident on the photographic lens 310 is incident on the distance measuring means 42 for performing AF processing through the diaphragm 312, the lens mounts 306 and 106, the mirror 130, and the distance measuring sub mirror (not shown) by a single lens reflex method. Thereby, the distance measuring means 42 can measure the in-focus state of the image formed as an optical image.

  The system control circuit 50 controls the shutter control unit 40, the aperture control unit 340, and the distance measurement control unit 342 based on the result of arithmetic processing of the image data captured by the image sensor 14 by the image processing circuit 20. As a result, exposure control and AF control using the video TTL method can be realized.

  The light beam incident on the photographic lens 310 is guided to the optical viewfinder 104 through the diaphragm 312, the lens mounts 306 and 106, and the mirrors 130 and 132 by the single lens reflex method, and is formed and displayed as an optical image. Thus, it is possible to perform photographing using only the optical viewfinder 104 without using the electronic viewfinder function of the display unit 28. In the optical viewfinder 104, a display for displaying various information such as a focus display, a camera shake warning display, a flash charge display, a shutter speed display, an aperture value display, and an exposure correction display is provided.

  The mirrors 130 and 132 guide the light beam incident on the photographing lens 310 to the optical viewfinder 104 by a single-lens reflex system. The mirror 132 may be a quick return mirror or a half mirror.

  Overall control of the digital camera is executed by a system control circuit 50 having a CPU and the like, and operation constants, variables, programs, and the like of the system control circuit 50 are stored in the memory 52. The digital camera body 100 includes operation means for instructing the system control circuit 50 to perform various calculations and operations. Specifically, the operation means is composed of one or a plurality of combinations such as a switch, a dial, a touch panel, pointing by eye-gaze detection, and a voice recognition device, and the main ones will be described below.

  The shutter switch SW1_61 is turned ON during the operation of a shutter button (not shown), and instructs to start operations such as AF processing, AE processing, AWB processing, and EF processing. The shutter switch_SW2 is turned on when the operation of a shutter button (not shown) is completed, and instructs the start of the development processing operation. Specifically, it instructs the start of a series of processes in which the image processing circuit 20 and the memory control circuit 22 calculate signals read from the image sensor 14 via the A / D converter 16 and the memory control circuit 22.

  The light condition setting block 68 (first setting means) includes a plurality of condition setting items that define the brightness at the time of shooting (that is, the white balance (WB) of the image for shooting). However, it is preset in a different expression from WB. By selecting one situation setting item from among a plurality of situation setting items provided from the light situation setting block 68 as options, a WB associated with the situation setting item is set in the digital camera body 100. The

  In the atmosphere setting block 67 (second setting means), a plurality of atmosphere setting items that define the atmosphere of the image to be taken are set. For each of the plurality of atmosphere setting items, image processing parameters such as image contrast, sharpness, hue, color density, WB shift, and brightness are set in advance in a predetermined combination. By selecting one atmosphere setting item from among a plurality of atmosphere setting items provided from the atmosphere setting block 67, an image processing parameter associated with the option is stored in the digital camera body 100 as an image processing condition. Is set.

  It should be noted that the WB value set for each status setting item and the combination and value of each image processing parameter such as contrast set for each atmosphere setting item are stored in the memory 52. Yes. The atmosphere setting block 67 and the light condition setting block 68 function in a simple mode to be described later.

  The image creation detailed setting block 66 (third setting means) individually sets the contrast, sharpness, hue, color density, WB shift, brightness, and the like of an image for shooting. The contents set in the image creation detail setting block 66 are notified to the system control circuit 50, and image processing with the set image creation parameters becomes possible. The image creation detail setting block 66 functions in a detail setting mode to be described later.

  The mode changeover switch 69 includes a first shooting mode in which the digital camera performs shooting almost automatically (hereinafter referred to as “simple mode”) and a second shooting mode in which the user can set the settings of the digital camera in detail (hereinafter referred to as “details”). Switch to “setting mode”.

  The operation unit 70 includes various buttons such as a menu button, a set button, a menu movement button (plus (+) button, minus (−) button), a reproduction image movement button (plus (+) button, minus (−) button), and the like. A touch panel is provided. The operation unit 70 also includes an image display ON / OFF switch (not shown) for setting ON / OFF of the display unit 28. The functions of the plus (+) button and the minus (−) button can also be executed by providing a rotary dial switch, a cross switch, and an eight-way switch, which makes it possible to select numerical values and functions more easily. Will be able to.

  The storage medium 200 such as a memory card or hard disk is attached to or detached from the digital camera main body 100 via a connector 92 (digital camera main body 100 side) and a connector 206 (storage medium 200 side). The storage medium 200 is, for example, a memory card or a hard disk. The storage medium 200 has a storage unit 202 composed of a semiconductor memory, a magnetic disk, or the like. Information communication between the digital camera body 100 and the storage medium 200 is enabled by the interface 90 provided in the digital camera body 100 and the interface 204 provided in the storage medium 200.

  In the present embodiment, the digital camera body 100 is provided with one system interface 90 and a connector 92 for attaching the storage medium 200, but is not limited thereto, and has a structure including a plurality of systems of interfaces and connectors. Also good. At this time, it is also preferable to have a configuration including interfaces and connectors of different standards. As the interface and connector, those compliant with a standard such as a PCMCIA card or a CF (Compact Flash (registered trademark)) card can be used.

  The lens unit 300 is an interchangeable lens type, and the lens mount 306 is provided with various functions for electrically connecting the lens unit 300 and the digital camera body 100 such as a connector 322.

  When the digital camera body 100 and the lens unit 300 are mechanically coupled via the lens mounts 106 and 306, the connector 122 on the digital camera body 100 side and the connector 322 on the lens unit 300 side are electrically connected. . Accordingly, the connector 122 secures a path for communicating control signals, status signals, data signals, and the like between the digital camera body 100 and the lens unit 300. The connector 122 has a function of supplying a predetermined value of voltage and current to a portion that electrically operates in the lens unit 300. Note that the connector 122 may have a configuration capable of optical communication, voice communication, and the like as well as electrical communication.

  Information communication between the digital camera body 100 and the lens unit 300 is enabled by the interface 120 provided in the digital camera body 100 and the interface 320 provided in the lens unit 300. The digital camera body 100 includes a lens mount 106 and / or a connector 122 with lens attachment / detachment detection means (not shown) for detecting whether or not the lens unit 300 is attached to the digital camera body 100.

  The lens unit 300 includes an aperture control unit 340 that controls the aperture 312 in cooperation with the shutter control unit 40 that controls the shutter 12 based on photometric information from the photometry unit 46. The lens unit 300 also includes a distance measurement control unit 342 that controls focusing of the photographing lens 310 and a zoom control unit 344 that controls zooming of the photographing lens 310.

  The entire lens unit 300 is controlled by a lens system control circuit 350. The lens system control circuit 350 includes a memory for storing operation constants, variables, programs, and the like. The lens system control circuit 350 also stores identification information and management information, which are information unique to the lens unit 300, function information such as an open aperture value, minimum aperture value, and focal length, and current and past set values. It also has sex memory.

<Digital camera control method>
FIG. 2 is a flowchart showing a method for setting shooting conditions in a digital camera. Each process described below is realized by the system control circuit 50 executing a predetermined program in accordance with instructions from various operation means to control operations of various components of the digital camera.

  First, the system control circuit 50 checks the state of the mode changeover switch 69 (step S201). If the mode changeover switch 69 is in a simple mode in which the digital camera performs shooting settings almost automatically (“YES” in S201), the process proceeds to step S202. On the other hand, when the simple mode is not set, that is, when the detailed setting mode is set in which the user can set the shooting conditions in detail (“NO” in S201), the process proceeds to step S206.

  In step S202, it is confirmed whether or not to set a situation such as a light. If these settings are made (“YES” in S202), the process proceeds to step S203. If these settings are not made (“NO” in S202), the process proceeds to step S204. In step S203, WB is set by selecting one situation setting item from among a plurality of situation setting items provided by the light situation setting block 68.

  FIG. 3 is an example of a setting screen for setting a situation such as a light in step S203. This setting screen is displayed on the display unit 28. In the setting screen of FIG. 5, the expression “white balance” or “WB” is not used, and expressions such as “date” and “day shade” that are easy for anyone to understand are used as status setting items. Here, “Sunday” is selected as the white balance setting, and this “Sunday” is expressed as “sunlight” in the detailed setting mode, for example. As described above, in the simple mode, the WB can be set by an expression that the user can easily understand.

  In step S204, it is confirmed whether or not atmosphere setting is performed. When the atmosphere setting is performed (“YES” in S204), the process proceeds to step S205, and when the atmosphere setting is not performed (“NO” in S204), the process proceeds to step S207. In step S205, image processing parameters are set by selecting one atmosphere setting item from among a plurality of atmosphere setting items provided by the atmosphere setting block 67.

  FIG. 4 is an example of a setting screen for setting the atmosphere in the simple mode in step S205. In FIG. 4, “standard” and “warm and gentle” as atmosphere setting items are displayed on the display unit 28 as options by the function of the atmosphere setting block 67. The atmosphere setting items selected in step S205 and set in the digital camera are stored in the memory 52 (step S207), and the image processing circuit 20 uses each image processing parameter corresponding to the atmosphere setting item set at the time of shooting. The image processing at is performed.

  In step S206, which is the next step when it is determined in step S201 that the mode is the detailed setting mode, the atmosphere setting is individually set. That is, the user can freely set image processing parameters such as WB, contrast, sharpness, hue, color density, brightness, and WB shift individually. FIG. 5 is an example of a setting screen when setting atmosphere in the detailed setting mode, and this setting screen is also displayed on the display unit 28 by the function of the image creation detailed setting block 66.

  Here, contrast, sharpness, hue, color density, brightness, and WB shift can be set individually. The set contents are stored in the memory 52, and image processing in the image processing circuit 20 is performed under the set conditions at the time of shooting.

  FIG. 6 is a flowchart showing a control flow at the time of photographing with the digital camera. First, it is determined whether the shutter switch SW2_64 has been pressed (step S601). When SW2_64 is pressed (“YES” in S601), the shutter 12 is driven by the shutter control means 40, and the analog signal output from the image sensor 14 is converted into a digital signal by the A / D converter 16 and stored in the memory. Accumulated (step S602). The digital signal is subjected to image processing by the image processing circuit 20 in accordance with the image creation setting that has been set and stored in the memory 52 (step S603). The image creation settings are settings such as WB, contrast, sharpness, hue, color density, brightness, and WB shift set in step S205 or step S206 in FIG.

  Subsequently, the image data subjected to the image processing is stored together with information (hereinafter referred to as “imaging information”) indicating how the image related to the image data is captured through the memory control circuit 22, the interface 90, or the like. It is stored in the medium 200 (step S604). The shooting information is written in the header portion of the image data, for example.

  FIG. 7 is a flowchart showing a control flow at the time of image reproduction by the digital camera. First, it is determined whether the image display ON / OFF switch of the operation unit 70 is ON (step S701). When the image display ON / OFF switch is ON (“YES” in S701), the image data is read from the storage medium 200, arranged in the image display memory 24 via the memory control circuit 22, and converted by the D / A converter 26. To display an image on the display unit 28 (step S702). If the image display ON / OFF switch is OFF (“NO” in S701), the process waits until the image display ON / OFF switch is turned ON.

  After step S702, it is determined from the shooting information written in the header portion of the read image data whether or not the image related to the image data was shot in the simple mode (step S703). When the image is taken in the simple mode (“YES” in S703), the setting contents of the light and other status settings and the atmosphere setting that can be set in the simple mode are read out from the shooting information written in the header of the image data and displayed. The information is displayed on the unit 28 (step S704).

  FIG. 8 is an example of a display screen when an image photographed in the simple mode is displayed on the display unit 28. The contents of the light and the like set in step S203 (in this example, “Sunday”) are displayed below the image, and the atmosphere setting item (in this example “ "Vividly vivid") is displayed.

  Even when shooting is not performed in the simple mode (“NO” in S703), that is, when shooting is performed in the detailed setting mode, individual settings can be made in the detailed setting mode from the shooting information written in the header of the image data. Each setting content of each image processing parameter related to the atmosphere setting is read and displayed on the display unit 28 (step S705). FIG. 9 is an example of a display screen when an image photographed in the detailed setting mode is displayed on the display unit 28. Below the image and histogram, the set values of WB, contrast, sharpness, hue, color density, brightness, and WB shift that can be set in step S206 are displayed in order from the left.

  As described above, according to the present embodiment, information set by the user is displayed in the information display when the captured image is reproduced and displayed. Thus, when the shooting condition setting method differs depending on the user's level and setting mode, it is possible to provide a reproduction display that is easy for the user to understand with what shooting condition setting.

<Other embodiments>
As mentioned above, although embodiment of this invention was described, this invention is not limited to the said embodiment, Various forms of the range which does not deviate from the summary of this invention are also contained in this invention. For example, the control of the system control circuit 50 may be performed by one hardware, or the entire digital camera may be controlled by a plurality of hardware sharing the processing.

  In the above-described embodiment, the case where the present invention is applied to a digital camera has been described as an example. However, the present invention is not limited to this. The present invention can be applied to various devices capable of setting shooting conditions for image shooting, such as a digital video camera, a mobile phone terminal with a camera, a portable game machine with a camera, and the like. Further, the present invention can also be applied to a personal computer, a PDA, an image viewer, a display of a printer device, a digital photo frame, or the like provided with software capable of reproducing an image corresponding to the image data stored in the storage medium 200.

  The present invention is also realized by executing the following processing. That is, software (program) that realizes the functions of the above-described embodiments is supplied to the imaging apparatus via a network or various storage media, and a computer (or CPU, MPU, or the like) of the imaging apparatus reads and executes the program code. It is processing. In this case, the program and the storage medium storing the program constitute the present invention.

DESCRIPTION OF SYMBOLS 14 Image pick-up element 20 Image processing circuit 22 Memory control circuit 28 Display part 50 System control circuit 66 Detailed image creation setting block 67 Atmosphere setting block 68 Light etc. status setting block 69 Mode changeover switch 350 Lens system control circuit

Claims (5)

Imaging means;
Switching means for switching the shooting mode between at least the first shooting mode and the second shooting mode;
First setting means for setting a white balance at a predetermined value for each of a plurality of situation setting items predetermined as situations at the time of shooting in the first shooting mode;
Second setting for setting a plurality of image processing parameters in a predetermined combination and a predetermined value for each of a plurality of predetermined atmosphere setting items as an atmosphere of an image shot in the first shooting mode. Means,
A selection means for selecting one atmosphere setting item and one situation setting item from the plurality of atmosphere setting items and the plurality of situation setting items, respectively, when shooting in the first shooting mode;
The image data of the image shot in the first shooting mode, together with the one status setting item set for the shooting of the image and the one atmosphere setting item set as the image processing condition of the image. Storage means for storing;
Display means for displaying at least an image read from the storage means;
When the image displayed on the display means is an image shot in the first shooting mode, the one situation setting item and one atmosphere setting item stored together with the image data of the image, An image pickup apparatus comprising: control means for displaying the image on the display means together with the image. A white balance is set for the situation at the time of shooting in the second shooting mode, and a plurality of image processing parameters are individually set to predetermined values for the atmosphere of an image shot in the second shooting mode. And further includes a third setting means for
The storage means includes image data of an image shot in the second shooting mode together with a white balance set for the shooting of the image and a predetermined value set for the plurality of image processing parameters. Remember,
When the image displayed on the display unit is an image captured in the second imaging mode, the control unit determines the white balance and the predetermined value stored together with the image data of the image, The image pickup apparatus according to claim 1, wherein the image pickup apparatus displays the image together with the image on the display unit. An imaging apparatus control method comprising: an imaging unit; a storage unit that stores an image captured by the imaging unit; and a display unit that displays at least an image read from the storage unit,
A switching step of switching the shooting mode between at least the first shooting mode and the second shooting mode;
When shooting in the first shooting mode, a plurality of situation setting items that are predetermined as shooting conditions in the first shooting mode and an atmosphere of an image shot in the first shooting mode A selection step of selecting one situation setting item and one atmosphere setting item from a plurality of predetermined atmosphere setting items;
A storage step of storing image data of an image captured in the first imaging mode in the storage unit together with the one status setting item and the one atmosphere setting item selected for the imaging of the image;
A display step of displaying an image read from the storage means on the display means;
When the image displayed on the display means is an image shot in the first shooting mode, the one situation setting item and one atmosphere setting item stored together with the image data of the image, A control step of displaying on the display means together with an image,
A white balance is preset with a predetermined value for each of the plurality of status setting items, and a plurality of image processing parameters are combined with a predetermined value for each of the plurality of atmosphere setting items. And a method for controlling the imaging apparatus, which is set in advance. A program for causing a computer to execute a control method of an imaging apparatus, comprising: an imaging unit; a storage unit that stores an image captured by the imaging unit; and a display unit that displays at least an image read from the storage unit. There,
The control method is:
A switching step of switching the shooting mode between at least the first shooting mode and the second shooting mode;
When shooting in the first shooting mode, a plurality of situation setting items that are predetermined as shooting conditions in the first shooting mode and an atmosphere of an image shot in the first shooting mode A selection step of selecting one situation setting item and one atmosphere setting item from a plurality of predetermined atmosphere setting items;
A storage step of storing image data of an image captured in the first imaging mode in the storage unit together with the one status setting item and the one atmosphere setting item selected for the imaging of the image;
A display step of displaying an image read from the storage means on the display means;
When the image displayed on the display means is an image shot in the first shooting mode, the one situation setting item and one atmosphere setting item stored together with the image data of the image, A control step of displaying on the display means together with an image,
A white balance is preset with a predetermined value for each of the plurality of status setting items, and a plurality of image processing parameters are combined with a predetermined value for each of the plurality of atmosphere setting items. A program characterized by being set in advance.   A computer-readable storage medium storing the program according to claim 4.

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