JP2007251746A - Camera, and image processing program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To convert an image into a monochromatic color tone corresponding to the designation of a user. <P>SOLUTION: On the basis of a monochromatic color tone determined by a color tone determination unit 103b in accordance with the designation of a user, a γ curve optimization unit 103c optimizes a γ curve to be loaded to the image. An image processing circuit 103a performs image processing using the γ curve optimized by the γ curve optimization unit 103c, thereby converting the picked-up image into a monochromatic color tone such as sepia. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a camera that captures an image and an image processing program for performing image processing on an image captured by the camera.

  The following digital camera is known from Patent Document 1. In this digital camera, sepia can be selected as the color mode, and when sepia is selected, sepia is monochromatic and prohibits setting saturation as it does not make sense to set saturation. Then, take an image with sepia color tone unique to the digital camera.

JP 2004-165802 A

  However, in a conventional digital camera, the color tone of an image captured in a single color such as sepia is generally not set by the user even though the user's taste varies widely. However, there is a problem that there is a possibility that an image having a color tone satisfying the above may not be taken.

The present invention selects any one of a plurality of monochromatic tones such as sepia tone, and converts the image data output from the image sensor and recorded on the recording medium into the selected monochromatic tone. It is characterized by.
The present invention is also characterized in that any one of a plurality of monochrome colors such as sepia is selected, and the image data read from the recording medium is converted into the selected monochrome color.
In selecting a single color tone, one color tone may be selected from a plurality of preset color tones, and a selection image displayed at least one of hue and saturation is displayed on the selection image. A single color tone may be selected based on the selection result of the user.
In addition, it is preferable to register the selected single color tone, the target image to be converted to the single color tone and the selection image are displayed side by side, and the selection result of the user in the selection image is reflected in the target image in real time. Is preferred.

  According to the present invention, since a single color tone can be selected, an image having a color tone that satisfies the user can be captured.

-First embodiment-
FIG. 1 is a block diagram illustrating a configuration of an embodiment of a camera according to the first embodiment. The camera 100 is a digital camera, for example, and includes an input switch 101, an image sensor 102, a control device 103, a memory card slot 104, and a monitor 105.

  The input switch 101 includes a release switch and an operation switch operated by a user. The image sensor 102 is, for example, a CCD, and captures a subject image input through the lens each time the user presses a release button included in the input switch 101, and outputs the captured image data to the control device 103. To do.

  In this image sensor 103, for example, the most representative R (red), G (green), and B (blue) color filters of a single-plate color image sensor are arranged in a Bayer array. Image data captured by the image sensor 102 through the lens is assumed to be expressed in the RGB color system, and each pixel constituting the image data has color information of any one color component of RGB. It shall be. That is, it is assumed that the image is a Bayer image.

  The control device 103 includes an image processing circuit 103a, a color tone determination unit 103b, and a γ curve optimization unit 103c. Then, as will be described later, the image data input from the image sensor 102 is processed by the image processing circuit 103a, and the image data is output to the memory card slot 104 and / or the monitor 105.

  A memory card as a storage medium is inserted into the memory card slot 104, and image data output from the control device 103 is stored in the memory card via the memory card slot 104. Note that although an example in which a recording medium inserted into the memory card slot 104 is used as a recording medium is described in this embodiment, a memory built in the camera 100 may be used as the recording medium. The monitor 105 is, for example, an LCD, and displays image data output from the control device 103.

  The camera 100 according to the present embodiment can record an image in a color mode set in advance by the user before the image is taken. For example, the user operates the input switch 101 before shooting an image, displays a color mode selection menu on the monitor 105, and selects a color mode. The user can select and set a color mode of full color, monochrome, or single color (single color tone) from the color mode selection menu.

  As the color tone of a single color, it is possible to select a color tone of a single color that is generally given a name such as sepia or cool, and the user can also select and set the color tone of another single color as desired. When the user selects a single color tone as the color tone, the user can further select and set the texture of the single color tone to be converted. For example, the color density may be selectable from three levels (dark, standard, and light). The user can select a favorite color tone by a combination of hue and saturation.

  As will be described later, the image processing circuit 103a receives image data input from the image sensor 102 using the γ curve optimized by the γ curve optimizing unit 103c based on the single color tone determined by the color tone determining unit 103b. Image processing is performed on the.

  FIG. 2 is a diagram showing an image processing flow by the image processing circuit 103a. In the image processing circuit 103a, the image input from the image sensor 102 is A / D converted by the A / D conversion 2a, and then the white balance is adjusted by the white balance 2b. Thereafter, a known interpolation process is performed in the interpolation 2c to convert the image data into RGB format image data in which all the R, G, and B color component information exists in each pixel constituting the image data.

  In γ2d, when the color tone set by the user is full color or monochrome, a preset γ curve (basic γ) is read from the memory included in the control device 103 and is applied to image data in RGB format. γ processing is performed. On the other hand, when the color tone set by the user is a sepia, cool, or other single color tone, the image data in the RGB format is optimized by the γ curve optimization unit 103c described later. Apply γ curve to perform γ processing.

  Thereafter, the matrix is applied with MTX2e and converted into image data in YCbCr format. Then, in JPEG compression 2f, YCbCr format image data is compressed into a JPEG format image file by a known method and output to the memory card slot 104. As a result, an image file in JPEG format is recorded on the memory card inserted in the memory card slot 104. At this time, the image data is also output to the monitor 105, so that the image processed by the image processing circuit 103a can be displayed on the monitor 105.

  Next, processing for determining a single color tone by the color tone determination unit 103b will be described. When the user selects one of sepia, cool, and others as a single color tone, the color tone determination unit 103b sets the color tone of a single color in detail according to a combination of hue and saturation as shown in FIG. Is displayed on the monitor 105. The user can determine how the monochrome color tone should be set while visually confirming the setting contents on the monitor 105 by setting the monochrome color tone on the color tone setting screen. .

  FIG. 3A is a diagram illustrating a specific example of a color tone setting screen (sepia detailed setting screen) when sepia is selected as a single color tone by the user. This sepia detail setting screen is an image obtained by extracting a chromaticity diagram of a color range belonging to sepia, and a change in the vertical direction indicates a change in saturation and a change in the horizontal direction indicates a change in hue. Then, the current setting value is displayed as a point, and the user operates the direction designation switch included in the input switch 101, for example, the cross key, to move the point to the position of the color tone having the desired texture, thereby separating the sepia. Can be set.

  In the example shown in FIG. 3A, a default sepia default color tone 3a is set as an initial value of the sepia color tone. This default color tone 3a is a maker default value that differs depending on the camera manufacturer. In a camera that does not have the color tone setting function of this embodiment, this default color tone 3a is automatically set, and a sepia image is output with a fixed color tone. Is done. When setting the default color tone 3a as the sepia color tone as it is, the user operates the input switch 101 as it is to perform the determination operation. Accordingly, the color tone determination unit 103b determines the default color tone 3a as the sepia color tone.

  On the other hand, when the user wants to change the sepia color tone according to the user's preference, as described above, the user operates the cross key while confirming the actual color tone on the sepia detailed setting screen to determine the default color 3a. Set a different sepia tone. That is, the point indicating the current setting value is moved in the horizontal direction to adjust the sepia hue, and the point is moved in the vertical direction to adjust the sepia saturation. The user moves the point indicating the current set value to the desired color tone 3b, and then operates the input switch 101 to determine the sepia color tone. Accordingly, the color tone determination unit 103b determines the color tone 3b set by the user as the sepia color tone.

  FIG. 3B is a diagram illustrating a specific example of a color tone setting screen (cool detailed setting screen) when cool is selected as a single color tone by the user. The cool detail setting screen is an image obtained by extracting a chromaticity diagram of a color range belonging to the cool, in which a change in the vertical direction represents a change in saturation and a change in the horizontal direction represents a change in hue. The method for setting the cool color tone using the cool detail setting screen is the same as in the case of the above-described sepia, and thus the description thereof is omitted.

  FIG. 3C is a diagram illustrating a specific example of a color tone setting screen (other detailed setting screen) when the user selects other color tone as a single color tone. The other detailed setting screen is an image that displays chromaticity diagrams of all the monochrome color ranges, in which a change in the vertical direction indicates a change in saturation and a change in the horizontal direction indicates a change in hue. That is, the user can set all the single color tones including the above-described sepia and cool using the other detailed setting screen. In addition, since the other monochromatic tone setting method using the other detailed setting screen is the same as that in the case of the above-described sepia, the description thereof is omitted.

  As described above, the color tone determination unit 103b stores and registers the single color tone set by the user on the color tone setting screen in the memory of the control device 103. Based on the registered setting value, the γ curve optimizing unit 103c optimizes the γ curve used in the γ processing executed by the image processing circuit 103a in order to generate an image having the determined tone. . Specifically, the processing is as follows.

  First, the γ curve optimizing unit 103c is configured so that the user selects a point (designated point) designated by the user on the color tone setting screen shown in FIGS. 3 (a) to 3 (c). The color set as a single color tone is specified. For example, by specifying the position coordinates of the designated point on the color tone setting screen, it is possible to identify which color is designated by the user on the chromaticity diagram displayed on the color tone setting screen.

  FIG. 4 is a diagram illustrating a specific example in the case where the color specified by the user is specified by specifying the position coordinates of the specified point when the sepia color tone is specified on the sepia detail setting screen. . In the example shown in FIG. 4, (x1, y1) is specified as the position coordinate on the sepia detailed setting screen of the point 3b (designated point 3b) indicating the color tone set by the user in FIG. Has been.

Based on the position coordinates of the designated point 3b on the color tone setting screen specified in this way, the γ curve optimizing unit 103c is applied to each color component of the RGB image data, that is, γ _R and G components applied to the _R component. Γ _G to be applied to γ, and γ _B to be applied to the B component are set. For example, when the above-described basic γ is γ ₀ , γ _R , γ _G , and γ _B are calculated by the following equations (1) to (3).
γ _R = γ ₀ × K _R (1)
γ _G = γ ₀ × K _G (2)
γ _B = γ ₀ × K _B (3)

In Equations (1) to (3), K _R , K _G , and K _B are coefficients for setting γ to be applied to each color component, and functions f _R and f _G based on a preset algorithm. , using _{f B,} it is calculated by the following expressions (4) to (6). Here, a, b, and c respectively correspond to the R value, G value, and B value at the position (x1, y1) of the designated point 3b designated on the sepia detailed setting screen by the user.
K _R = f _R (a, b, c) (4)
K _G = f _G (a, b, c) (5)
K _B = f _B (a, b, c) (6)

The γ curve optimizing unit 103c outputs γ _R , γ _G , and γ _B calculated by the above equations (1) to (3) to the image processing circuit 103a as optimized γ curves, and the image processing circuit 103a performs γ processing using the γ curve set for each color component in γ2d. As a result, a tone image set by the user can be generated and output to the memory card slot 104 and / or the monitor 105.

  FIG. 5 is a flowchart illustrating processing executed by the color tone determination unit 103b and the γ curve optimization unit 103c according to the first embodiment. The process shown in FIG. 5 is executed as a program that is activated when a user selects a single color tone from the color mode selection menu.

  In step S10, the color tone determination unit 103b determines which of the above-described “sepia”, “cool”, and “other” is selected as the single color tone. If it is determined that “Sepia” is selected, the process proceeds to step S20, the sepia detailed setting screen described above with reference to FIG. 3A is displayed on the monitor 105, and the process proceeds to step S50.

  If it is determined that “cool” has been selected, the process proceeds to step S30, the cool detail setting screen described above with reference to FIG. 3B is displayed on the monitor 105, and the process proceeds to step S50. On the other hand, if it is determined that “others” has been selected, the process proceeds to step S40, the other detailed setting screen described above with reference to FIG. 3C is displayed on the monitor 105, and the process proceeds to step S50.

  In step S50, the color tone determination unit 103b determines whether or not a user has operated a direction designation switch, for example, a cross key, included in the input switch 101 as described above, and has set a single color tone on the color tone setting screen. To do. If it is determined that it has been set, the process proceeds to step S60.

  In step S60, the γ curve optimizing unit 103c specifies the color specified by the user based on the position coordinates of the point specified by the user on the color tone setting screen, and the above equations (1) to ( According to 3), an optimized γ curve applied to each color component is calculated. Thereafter, the process proceeds to step S70, the calculated γ curve is output to the image processing circuit 103a, and the process ends.

According to the first embodiment described above, the following operational effects can be obtained.
(1) When a single color tone is selected as the color mode of the image by the user, the color tone can be set according to the user's preference. As a result, when an image is captured in a single color tone, the user can freely set the color tone, and the convenience for the user can be improved.

(2) When a user selects one of sepia, cool, and others as a single color tone, a color tone setting screen for setting a color tone by a combination of hue and saturation as shown in FIG. Displayed on the monitor 105, the user sets a desired color tone on the color tone setting screen. Accordingly, the user can visually set the color tone of a single color while confirming the setting contents on the monitor 105, and can grasp the image of the color tone at the time of setting.

(3) A single color tone is set in advance by the user before photographing an image. As a result, once the settings are made before the image is captured, the captured image can then be processed based on the settings. Compared to the settings for each image capture, the user's effort is reduced. Can be omitted.

-Second Embodiment-
In the first embodiment described above, the example in which the image data to be processed input to the image processing circuit 103a is RGB image data represented by the RGB color system has been described. In contrast, in the second embodiment, a case will be described in which image data to be processed input to the image processing circuit 103a is YCbCr color system image data (YCbCr image data). In other words, a description will be given of processing when data captured by the image sensor 102 is input to the image processing circuit 103a after pre-processing has already been completed and converted to YCbCr image data. Here, for example, JPEG image data is assumed to be processed as YCbCr image data.

  Similarly to the first embodiment, a monochrome color tone to be converted is set in advance by the user before image capture, and image processing is performed so that the captured image has the set color tone. The camera block diagram shown in FIG. 1, the specific example of the color tone setting screen shown in FIG. 3, and the specific example of specifying the position coordinates of the designated point shown in FIG. 4 to specify the color Since is the same as in the first embodiment, description thereof is omitted.

  FIG. 6 is a diagram illustrating an image processing flow by the image processing circuit 103a according to the second embodiment. Note that here, the processing when the color mode set by the user is full color or monochrome can be processed by a known method, so the color mode set by the user is sepia, cool, or other Processing in the case of a single color tone will be described.

  As described above, in this embodiment, the image data input to the image processing circuit 103a is YCbCr format image data, for example, JPEG format image data. When the color mode set by the user is a single color tone, the MTX 6a applies a matrix to the YCbCr format image data and converts it to YYY format image data. That is, since no color difference component is required to generate image data of a single color tone, the Cb component and the Cr component that are the color difference components are converted into the Y component that is the luminance component, and converted into the image data in the YYY format. To do.

  The LUT 6b performs LUT processing on the image data converted into the YYY format through an LUT (Look Up Table) created by a γ curve optimization unit 103c described later. Then, in the JPEG compression 6c, the YYY format image data that has passed through the LUT is compressed into a JPEG format image file by a known method and output to the memory card slot 104. At the same time, the image data is output to the monitor 105.

  Similar to the first embodiment, the color tone determination unit 103b displays one of the color tone setting screens shown in FIGS. 3A to 3C according to the color tone designated by the user on the monitor 105. FIG. Display and prompt the user to set the desired color tone. Then, as described below, the γ curve optimization unit 103c specifies a monotone tone based on the position coordinates of the designated point specified on the tone setting screen, and the γ curve based on the specified monochromatic tone. To create an LUT used in the above-described LUT 6b.

First, the γ curve optimizing unit 103c specifies Cb and Cr of the color designated by the user based on the position coordinates of the designated point designated on the color tone setting screen. Then, the specified Cb value is a and the Cr value is b, and γ applied to the color difference components Cb and Cr, that is, γ _Cb and γ _Cr, is calculated by the following equations (7) to (10). In the following formulas (7) and (8), γ ₀ represents the basic γ as in the first embodiment. K _Cb and K _Cr are coefficients for setting γ to be applied to each color component, and using the functions f _Cb and f _Cr based on a preset algorithm, the following equations (9) and (10 ).

γ _Cb = γ ₀ × K _Cb (7)
γ _Cr = γ ₀ × K _Cr (8)
K _Cb = f _Cb (a, b) (9)
K _Cr = f _Cr (a, b) (10)

Further, since it is only necessary to apply the above-described basic γ ₀ to the luminance component Y, γ _Y applied to the luminance component Y is calculated by the following equation (11).
γ _Y = γ ₀ (11)

The γ curve optimizing unit 103 c creates an LUT that stores γ _Y , γ _Cb , and γ _Cr calculated by the above-described equations (7) to (11), and stores the LUT in a memory included in the control device 103. In the LUT 6b, the image processing circuit 103a performs LUT processing using the LUT stored in the memory. As a result, an image having a color tone set by the user can be generated.

  FIG. 7 is a flowchart illustrating processing executed by the color tone determination unit 103b and the γ curve optimization unit 103c according to the second embodiment. The process shown in FIG. 7 is executed as a program that is activated when a user selects a single color tone from the color mode selection menu described above. In FIG. 7, the same steps as those in FIG. 5 described in the first embodiment are given the same step numbers, and the differences will be mainly described.

In step S61, the γ curve optimizing unit 103c creates an LUT that stores γ _Y , γ _Cb , and γ _Cr calculated by the equations (7) to (11) described above. Thereafter, the process proceeds to step S62, where the created LUT is stored in the memory included in the control device 103, and the process ends.

  According to the second embodiment described above, the following effects can be obtained in addition to the functions and effects of the first embodiment. That is, YCbCr image data is processed, and image processing is performed on the basis of a single color tone set by the user before photographing an image. As a result, even if the data captured by the image sensor 102 has already been preprocessed and converted to YCbCr image data, the monochrome tone can be adjusted based on the user's settings, The degree of freedom of processing can be improved.

-Third embodiment-
In the third embodiment, the camera 100 compresses an image captured by the image sensor 102 into a predetermined image format represented by the YCbCr color system, for example, the JPEG format, like a normal digital camera, and the memory slot 104. The data is stored in the memory card inserted in the memory card. Then, a case will be described in which the user selects an arbitrary image from the stored images and converts the selected image into a single color tone. At this time, as in the first and second embodiments described above, the user can set a favorite color tone on the color tone setting screen.

  That is, in the flowchart shown in FIG. 6, the YCbCr image input to the image processing circuit 103a is image data that has already been captured and subjected to various image processings stored in the memory card. The image processing circuit 103a reads image data in the YCbCr format corresponding to the image selected by the user from the memory card, and performs each process in the MTX 6a, LUT 6b, and JPEG compression 6c.

  Further, at the same time as selecting the image to be processed, the user selects a single color tone of the selected image from sepia, cool, and others as in the first and second embodiments, and the above-described FIG. A desired color tone is designated using the color tone setting screen shown in FIGS. Based on the designation result, the color tone determination unit 103b determines the color tone designated by the user as in the first and second embodiments.

As described above in the second embodiment, the γ curve optimization unit 103c creates an LUT that stores γ _Y , γ _Cb , and γ _Cr calculated by the equations (7) to (11). The data is stored in a memory included in the control device 103.

  1 is a block diagram of the camera, FIG. 3 is a diagram showing a specific example of the color tone setting screen, and FIG. 4 is a diagram showing a specific example of specifying the position coordinates of the designated point and specifying the color. Since is the same as in the first embodiment, description thereof is omitted. Further, the flowchart showing the processing executed by the color tone determining unit 103b and the γ curve optimizing unit 103c shown in FIG. 7 is the same as that of the second embodiment, and the description thereof is omitted.

  According to the third embodiment described above, the following effects can be obtained in addition to the functions and effects of the first embodiment. That is, since the image after image capturing can be converted into a single color tone, the user can select and process only the image to be converted after image capturing, further improving the convenience for the user.

-Modification-
The camera according to the above-described embodiment can be modified as follows.
(1) In the first to third embodiments described above, the color tone determination unit 103b displays the color tone setting screens shown in FIGS. 3A to 3B on the monitor 105, and prompts the user. An example in which a favorite color tone is set by a combination of hue and saturation has been described. However, the present invention is not limited to this, and a hue setting screen that allows only the hue or saturation to be set is displayed so that the user can select only hue or saturation as the desired hue. Good. In this case, for example, when selecting a hue, the saturation may use the default value of the camera 100 and determine only the hue based on the setting by the user. Further, when selecting the saturation, the hue may be determined based on the setting by the user using the default value of the camera 100.

(2) In the first to third embodiments described above, when “others” is selected as a single color tone by the user, as shown in FIG. An example has been described in which a chromaticity diagram of a single color range is displayed and the user is allowed to set a favorite color tone on this other detailed setting screen. However, the present invention is not limited to this, and when the chromaticity diagram of all the monochrome color ranges is displayed and the user designates one point among them, the chromaticity diagram of a predetermined range centered on that point is displayed. It may be enlarged and displayed on the monitor 105. As a result, the user can select a color tone on the enlarged chromaticity diagram, and can set a more detailed color tone.

(3) In the first to third embodiments described above, the example in which the image is processed and stored based on the single color tone set by the user on the color tone setting screen displayed on the monitor 105 has been described. However, the present invention is not limited to this, and the color tone setting screen and the captured image may be displayed side by side on the monitor 105, and the setting content on the color tone setting screen may be immediately reflected and displayed on the captured image. As a result, the user can set the desired color tone while checking how the set color tone is reflected in the actual image, and the user can select the desired color tone accurately. It becomes.

(4) In the above-described third embodiment, the example in which the camera 100 performs image processing on the captured image has been described. However, the present invention is not limited to this, and the image processing circuit 103a, the color tone determination unit 103b, and the γ curve are not limited thereto. You may image-process with another information apparatus provided with the optimization part 103c, for example, a personal computer (personal computer).

(5) In the first to third embodiments described above, a captured image is stored in a memory card inserted in the memory slot 104, and single color tone conversion processing is performed on the image data read from the memory card. The example which applies is described. However, image data captured by another camera may be taken in and the above-described single color tone conversion process may be performed.

  Note that the present invention is not limited to the configurations in the above-described embodiments as long as the characteristic functions of the present invention are not impaired.

It is a block diagram which shows the structure of one Embodiment of the camera in 1st Embodiment. It is a figure which shows the image processing flow by the image processing circuit 103a in 1st Embodiment. It is a figure which shows the specific example of a color tone setting screen. When a sepia color tone is designated on the sepia detailed setting screen, it is a figure which shows the specific example in the case of identifying the position coordinate of the designated point and identifying the color designated by the user. It is a flowchart figure which shows the process performed by the color tone determination part 103b in 1st Embodiment, and the (gamma) curve optimization part 103c. It is a figure which shows the image processing flow by the image processing circuit 103a in 2nd Embodiment. It is a flowchart figure which shows the process performed by the color tone determination part 103b in 2nd Embodiment, and the (gamma) curve optimization part 103c.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Camera, 101 Input switch, 102 Image sensor, 103 Control apparatus, 103a Image processing circuit, 103b Color tone determination part, 103c γ curve optimization part, 104 Memory card slot, 105 Monitor

Claims (8)

Imaging means for imaging a subject and outputting an image;
A selection means for selecting one of a plurality of monochrome colors such as sepia,
A camera comprising: conversion means for converting image data output from the image pickup device and before being recorded on a recording medium into a single color tone selected by the selection means. Recording control means for recording an image on a recording medium;
A selection means for selecting one of a plurality of monochrome colors such as sepia,
A camera comprising: conversion means for converting image data read from the recording medium into a single color tone selected by the selection means. The camera according to claim 1 or 2,
The camera according to claim 1, wherein the selection means selects one color tone from a plurality of preset color tones. The camera according to any one of claims 1 to 3,
The selection unit displays a selection image displayed at least one of hue and saturation, and selects the monochromatic tone based on a selection result of a user on the selection image. camera. The camera according to claim 4, wherein
A camera, further comprising registration means for registering the single color tone selected by the selection means. The camera according to claim 3.
Display means for displaying the target image to be converted into the single color tone and the selection image side by side;
A camera, further comprising: reflecting means for reflecting a selection result of a user in the selection image in real time on the target image. A selection process for selecting one of a plurality of monochrome colors such as sepia,
An image processing program for causing a computer to execute conversion processing for converting image data output from an image sensor and being recorded on a recording medium into a single color tone selected in the selection processing. A selection process for selecting one of a plurality of monochrome colors such as sepia,
An image processing program for causing a computer to execute conversion processing for converting image data read from a recording medium into a single color tone selected in the selection processing.

Images