JP2010154365A - Color correction device, camera, color correction method, and color correction program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To easily enable correction of a color of a specific object to a desired color in a photographed image. <P>SOLUTION: The invention includes: displaying a spectrum bar 43 for displaying the whole distribution of hues as a dialog image for correcting the colors of objects 42a to 42c in a photographed image 41; identifiably displaying the color selected as the color of specific objects 42A and 42C being a correction object on the spectrum bar 43 by using a cursor 44; and instructing correction regarding saturation and hue of the specific objects 42A and 42C by operating the cursor 44 on the spectrum bar 43. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a color correction apparatus, a camera, a color correction method, and a color correction program for performing color correction of a captured image.

  In general, it is the reproducibility of “color” that everyone is concerned about a photographed image taken with a camera. The sweetness of the focus and the difference in exposure are surprisingly difficult for ordinary users who are not professional photographers to shoot without a special test chart. It is a characteristic that is attracting attention.

  Actually, there are many cases where the reproduced color is slightly different from the photographer's intention due to the influence of the light source and the color creation inside the camera. In a normal camera, the color can be changed by switching the WB (white balance) setting.

  However, even when the color of the subject is faithfully reproduced, there are cases where it is desired to correct the color of the specific subject to a color that is also called a favorite color or a memory color.

  In this way, when it is desired to change the color of the captured image to a specific color, there is a technique for adjusting the color of the captured image by displaying an adjustment area consisting of R, G, B, and magenta axes on the screen. Yes (see, for example, Patent Document 1).

JP 2007-243886 A

  In the conventional color correction method disclosed in Patent Document 1 or the like, sliders are displayed on the three RGB axes on the correction screen at the time of color correction, and color adjustment is performed by the balance of each component of RGB. However, in order to select a desired color based on the balance of RGB displayed on the screen, specialized knowledge about color is required, which is inconvenient for general users. Even if there is no special knowledge, if the color of the captured image can be easily corrected, even a beginner can obtain an image of a desired color.

  The present invention has been made in view of the above, and provides a color correction device, a camera, a color correction method, and a color correction program capable of easily correcting the color of a specific subject in a captured image to a desired color. The purpose is to provide.

  In order to solve the above-described problems and achieve the object, a color correction apparatus according to the present invention includes a display unit that displays a captured image and a dialog image that corrects the color of a subject in the captured image. A color correction control unit to be displayed on the display unit, and an image processing unit that corrects the color of the subject in accordance with an instruction from the color correction control unit, wherein the color correction control unit uses the entire hue as the dialog image. A spectral image representing the distribution is displayed, and the selected color selected as the color of the subject to be corrected is displayed in an identifiable manner on the spectral image, and the subject's color is displayed according to an operation on the selected color portion on the spectral image. A color correction instruction is given to the image processing unit.

  The color correction device according to the present invention is the color correction device according to the above invention, wherein the color correction control unit increases the saturation of the subject to be corrected in accordance with an operation to increase or decrease the display ratio of the selected color on the spectrum image. A correction instruction to increase or decrease is performed.

  The color correction device according to the present invention is the color correction device according to the present invention, wherein the color correction control unit changes the hue of the subject to be corrected in accordance with an operation of changing the selected color on the spectrum image to another hue. A correction instruction to be changed is given.

  In the color correction apparatus according to the present invention, in the above invention, when the color correction control unit performs an operation for specifying any hue on the spectrum image, the color correction unit performs the hue specified by the operation. As a selection color, a subject whose main color is the selection color is specified from displayed photographed images.

  The color correction apparatus according to the present invention is the color correction device according to the above invention, wherein the color correction control unit is specified by the operation when an operation for specifying any subject in the displayed captured image is performed. The main color of the subject is detected, and the detected hue is displayed on the spectrum image as the selected color.

  The color correction apparatus according to the present invention is the color correction device according to the above invention, wherein the color correction control unit displays the hue distribution of the entire visible light range as the spectrum image until the selected color is set, and the selection is performed. After the color is set, the hue distribution in a partial range of visible light including the selected color is enlarged and displayed as a spectrum image.

  The color correction device according to the present invention further includes a touch panel disposed on the display unit in the above invention, and the color correction control unit is configured to perform an operation on the spectrum image from the touch panel. A correction instruction is given.

  A camera according to the present invention includes the color correction device according to any one of the above-described inventions.

  The color correction method according to the present invention is a color correction method in a color correction apparatus having a display unit for displaying a photographed image, and a dialog image for correcting the color of a subject in the photographed image is displayed on the display unit. A color correction control step to be displayed on the screen, and an image processing step of correcting the color of the subject in accordance with an instruction of the color correction control step, wherein the color correction control step uses the entire distribution of hues as the dialog image. And the selected color selected as the color of the subject to be corrected is displayed on the spectrum image so as to be identifiable, and the color of the subject according to the operation on the selected color portion on the spectrum image. A correction instruction is issued to the image processing step.

  In the color correction apparatus according to the present invention, the dialog image for correcting the color of the subject in the captured image is displayed on the computer provided in the color correction apparatus having the display unit for displaying the captured image. A color correction control function to be displayed on the screen and an image processing function to correct the color of the subject in accordance with an instruction of the color correction control function, and the color correction control function A spectral image representing the entire distribution is displayed, and the selected color selected as the color of the subject to be corrected is displayed in an identifiable manner on the spectral image, and the subject is selected according to an operation on the selected color portion on the spectral image. A correction instruction relating to the color of the image is given to the image processing function.

  According to the present invention, it is possible to provide a color correction device, a camera, a color correction method, and a color correction program that can easily correct the color of a specific subject in a captured image to a desired color.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, a best mode for carrying out a color correction apparatus, a camera, a color correction method, and a color correction program of the present invention will be described with reference to the drawings.

  FIG. 1 is a rear view showing a schematic configuration example of a digital camera which is a camera of the present invention equipped with a color correction apparatus. The digital camera 1 according to the present embodiment includes various operation buttons such as a release button 13a disposed on the top surface of the camera body and a color correction button 13b disposed on the back surface of the camera body. The release button 13a is a button for instructing shooting timing by a pressing operation. The color correction button 13b is a button for setting, for example, a color correction mode in which color correction processing is performed based on a user's instruction operation on a captured image that has been captured in the playback mode. The release unit 13a, the color correction button 13b, and the like constitute the operation unit 13 (see FIG. 2).

  The digital camera 1 also includes a display unit 18 that occupies most of the area on the back of the camera body. The display unit 18 is for displaying various setting information including a color correction mode screen in addition to a live view image at the time of shooting, a shot image at the time of reproduction, and the like, and is an LCD or ELD (Electro Luminescence). It is realized by a thin display device such as Display). The digital camera 1 includes an imaging optical system such as a photographing lens on the front side of the camera body, although not particularly illustrated. The imaging optical system forms a subject image on an imaging element built in the camera body.

  FIG. 2 is a block diagram illustrating a system configuration example of the digital camera 1 according to the present embodiment. The digital camera 1 according to the present embodiment includes a control unit 11. The control unit 11 includes a CPU for giving instructions and data transfer to each unit constituting the digital camera 1 and for overall control of the operation of the digital camera 1. The digital camera 1 also includes a program data storage unit 12, an imaging unit 15, an SDRAM 16, a display image control unit 17, an image processing unit 19, a compression / decompression unit 20, and a recording / reproducing unit 21. These units are connected to the control unit 11 by a bus line 30.

  The program data storage unit 12 is an electrically rewritable nonvolatile memory such as a flash memory. The program data storage unit 12 stores in advance a CPU program (for example, a color correction program) for operating the digital camera 1 and realizing various functions of the digital camera 1. The program data storage unit 12 stores in advance data used during execution of the program, for example, spectrum bar data to be displayed on a screen in a color correction mode to be described later.

  The imaging unit 15 is for the digital camera 1 to capture an image (subject image), and includes a camera unit and an imaging processing unit. The camera unit is for the digital camera 1 to capture a subject image, and includes a photographing lens, an image sensor, an aperture, a shutter, an AF mechanism, an AF drive circuit, a zoom mechanism, a zoom drive mechanism, and the like. Here, the image pickup device is formed of a two-dimensional solid-state image pickup device such as a CCD or a CMOS sensor, and photoelectrically converts a subject image incident through a photographing optical system including a photographing lens and outputs it as an analog electric signal. In addition to including an image sensor driving circuit, the image processing unit performs analog signal processing such as AGC and CDS on the analog electric signal output from the image sensor, and then converts it to a digital electric signal using an A / D converter. For output.

  The SDRAM 16 is a memory used as a temporary storage memory or a working area for various image processing. Specifically, the digital electrical signal output from the imaging unit 15, the image data being processed by the image processing unit 19, and the like are temporarily stored. The SDRAM 16 is also used when the display image control unit 17 creates a live view image or a reproduced image as a display image. In addition, when the color correction mode is set, the display image control unit 17 causes the display unit 18 to display a spectrum bar described later on the captured image to be reproduced. Further, the display image control unit 17 performs a process of displaying an identification display on a specific subject described later selected based on a user operation. The display image control unit 17 includes an encoder, a D / A converter, and the like, and also has a function as a driver for causing the display unit 18 to display various types of information such as captured images.

  The image processing unit 19 performs various types of image processing such as pixel interpolation processing, color correction processing, and gamma processing on the digital electrical signal output from the imaging unit 15, and image data suitable for recording and display. Process to convert to. In particular, in the present embodiment, the image processing unit 19 performs color correction processing on a specific subject based on an instruction from a color correction control unit described later according to an operation on a cursor portion of a spectrum bar described later. In addition, the compression / decompression unit 20 is an image based on a well-known JPEG system or the like when recording image data of a captured image in the image storage unit 22 or displaying image data recorded in the image storage unit 22. Performs data compression and decompression.

  The recording / reproducing unit 21 is used for writing image data to the image storage unit 22 and reading image data from the image storage unit 22, and a unit corresponding to the type of the image storage unit 22 is used. Here, the image storage unit 22 is a recording medium detachably attached to the camera body such as an xD-Picture Card (registered trademark) or a Compact Flash (registered trademark) card, or an HDD.

  Here, the control unit 11 of the present embodiment includes functional units of a color correction control unit 11a and an operation detection unit 11b as functions executed by the color correction program in the color correction mode. The operation detection unit 11b is a functional unit for detecting a user operation on the color correction mode screen displayed on the display unit 18 in the color correction mode or the like. In the present embodiment, the touch panel 14 is provided so as to overlap the display unit 18. Therefore, the operation detection unit 11b detects a user operation on the touch panel 14, thereby executing a user operation detection operation on the color correction mode screen.

  The color correction control unit 11a is a functional unit for performing various process control for color correction in the color correction mode. First, the color correction control unit 11a causes the display unit 18 to display the spectrum bar superimposed on the captured image being reproduced through the display image control unit 17. This spectrum bar is a dialog image as an index for correcting the color of a specific subject to be corrected. That is, the color correction control unit 11a displays a spectrum bar, which is a spectrum image representing the entire distribution of hues representing hues, in a horizontally long straight band shape over the entire length near the bottom of the display unit 18. This spectrum bar represents the hue distribution of the entire visible light range in which the imaging element of the imaging unit 15 has sensitivity from purple (wavelength 380 to 435 nm) to red (wavelength 605 to 750 nm). Note that the spectrum bar may be displayed separately from the captured image and the region instead of being superimposed on the captured image. The displayed image may be an image enlarged by an enlargement operation.

  Then, when an operation for designating any desired hue on the spectrum bar is performed, the color correction control unit 11a displays the hue designated by this operation as a selected color in an identifiable manner on the spectrum bar. . In the present embodiment, as will be described later, an operation cursor is added to the selected color portion of the spectrum bar for identification display.

  In addition, the color correction control unit 11a performs a process of specifying a subject whose main color is the selected color from the displayed captured image. Hereinafter, the specified subject is referred to as a specific subject. That is, the color correction control unit 11a detects the dominant (or main) hue of all the subjects in the displayed captured image, and the detected hue of these subjects is the selected color. Is determined as a specific subject to be color-corrected. Then, the color correction control unit 11a performs processing for identifying the range of the specific subject from other subjects, and causes the display unit 18 to display the range through the display image control unit 17. As a display for identifying, for example, there is a display method in which a specific subject portion is hatched. Note that as the specific subject, a subject included in a range of a certain width of the selected color may be allowed. Moreover, the actual subject is rare in the case of a single color, and often has different colors mixed. In this case, in principle, different colors are not included as the specific subject. However, if the sizes of the different colors are relatively small, processing for inclusion in the specific subject may be performed for convenience.

  On the other hand, when an operation for specifying any subject in the displayed captured image is performed, the color correction control unit 11a detects the main color of the subject specified by this operation. That is, the color correction control unit 11a detects a contour or a color change around a portion touch-inputted as a user's selection operation on the touch panel 14 on which a captured image is displayed. For example, the contour range or the same hue range is determined as the range of the specific subject to be subjected to color correction. Then, the color correction control unit 11a detects the color of the specific subject. In other words, the color correction control unit 11a detects a dominant hue (or main force) in the determined range of the specific subject. Further, the color correction control unit 11 a performs processing for identifying the determined range of the specific subject from other subjects and causes the display unit 18 to display the range through the display image control unit 17. As a display for identifying, for example, there is a display method in which a specific subject portion is hatched. Further, the color correction control unit 11a displays the hue detected for the specific subject as a selected color on the spectrum bar using the cursor. Also in this case, there is a high possibility that a color portion not intended by the user is included in the range designated by the user. In this case as well, in principle, different colors are not included as the specific subject. However, if the sizes of the different colors are relatively small, processing for inclusion in the specific subject may be performed for convenience.

  Further, the color correction control unit 11a corrects the saturation of the image processing unit 19 according to an operation for increasing or decreasing the display ratio of the selected color on the spectrum bar, that is, an operation in the vertical direction of the cursor. A correction instruction for increasing / decreasing the saturation representing the strength of the color of the target subject is issued. The color correction control unit 11a corrects the hue of the image processing unit 19 in accordance with an operation for changing the selected color on the spectrum bar to another hue, that is, an operation in the horizontal direction of the cursor. A correction instruction for changing the hue of the target subject is issued. In other words, the color correction control unit 11a outputs information on color correction values of saturation and hue according to the cursor operation on the spectrum bar by the user to the image processing unit 19, so that the hue and saturation for the specific subject are output. Specific color correction processing is instructed.

  Next, display control and operation examples of the display unit 18 by the color correction control unit 11a, the operation detection unit 11b, and the like when the color correction mode is set by operating the color correction button 13b in the reproduction mode will be described. FIG. 3 is an explanatory diagram schematically illustrating a display example of the display unit 18 in the color correction mode.

  First, FIG. 3A is an explanatory diagram schematically showing a display example of the display unit 18 before color correction when the color correction mode is set in the reproduction mode. The display unit 18 displays a captured image 41 selected to perform color correction processing in the playback mode. The photographed image 41 includes, for example, three bananas as subjects 42a, 42b, and 42c. The subjects 42a and 42c are yellow and have substantially the same hue, and the subject 42b has a yellow-green hue different from the hues of the subjects 42a and 42c.

  In addition, the display unit 18 displays a spectrum bar 43 serving as an index for correcting the color of the specific subject to be corrected, superimposed on the captured image 41 being reproduced. The spectrum bar 43 is a spectrum image that represents the entire distribution of hues, and is displayed in a horizontally long strip shape over the entire length near the bottom of the display unit 18. That is, the spectrum bar 43 is purple (wavelength 380 to 435 nm), blue (435 to 480 nm), green (500 to 560 nm), yellow (580 to 595 nm) as shown in the margin of FIG. The hue distribution of the entire visible light range in which the imaging device of the imaging unit 15 has sensitivity, such as red (wavelength 605 to 750 nm). In the drawing, the spectrum bar 43 schematically shows a state in which the hue changes depending on a combination of different line displays. However, in reality, a gradation is added so that the hue of the actual color changes continuously. It has been done.

  FIG. 3B is a diagram illustrating a state where a selected color is designated by touching the desired hue portion with the finger 45 on the spectrum bar 43. When it is detected that the touch operation is performed on the spectrum bar 43 by the operation detection unit 11b through the touch panel 14, the color correction control unit 11a selects a spectrum range (for example, yellow) having a predetermined width around the touched portion. The selected color on the spectrum bar 43 can be identified by setting the color and displaying the selected color portion with the cursor 44 added. Then, the color correction control unit 11a specifies the subjects 42a and 42c having hues corresponding to the spectrum range selected by the touch operation from among the subjects 42a to 42c of the captured image 41 being displayed as the color correction target. The subjects 42A and 42C are specified. Further, the color correction control unit 11a performs processing for identifying the range of the specified specific subjects 42A and 42C from the other subject 42b and causes the display unit 18 to display the range through the display image control unit 17. FIG. 3B shows a display example in which the specific subjects 42A and 42C are displayed with hatching processing so as to be distinguished from other subjects 42b.

  Next, FIG. 3C is a diagram showing an operation and display example when the saturation of the specific subjects 42A and 42C is increased. That is, as an operation for increasing the display ratio of the selected color on the spectrum bar 43, the cursor 44 is lifted upward by the finger 45 so as to be orthogonal to the spectrum bar 43 so that the selected color portion protrudes into the convex shape 43a and the display ratio increases. This is the case. In this case, the color correction control unit 11a issues a correction instruction to the image processing unit 19 so that the saturation of the specific subjects 42A and 42C to be color corrected becomes high. As a result, the saturation of the specific subjects 42A and 42C is corrected and displayed by the image processing unit 19 so as to increase by a predetermined amount. Here, the yellow of the banana becomes bright. Then, the saturation correction is confirmed by releasing the finger 45 from the cursor 44 in the state of the convex shape 43a. Thereafter, the convex shape 43a portion returns to the original flat state.

  On the other hand, FIG. 3D is a diagram illustrating an operation and a display example when the hues of the specific subjects 42A and 42C are changed to other hues. That is, as an operation for changing the selected color to another hue on the spectrum bar 43, the cursor 44 is moved by a finger 45 along the spectrum bar 43 in the left-right direction, for example, the left direction, for example, by a predetermined amount. In this case, the color correction control unit 11a issues a correction instruction to the image processing unit 19 so that the hues of the specific subjects 42A and 42C to be color corrected are different from the selected color by a predetermined amount. As a result, the hues of the specific subjects 42A and 42C are displayed with the image processing unit 19 corrected and corrected by a predetermined amount. Here, the selected color of the banana is changed from yellow to yellowish green.

  FIG. 4 is an explanatory diagram schematically illustrating a display example of the display unit 18 when an additional operation is performed. FIG. 4A is a diagram illustrating a state in which another portion on the spectrum bar 43 is touched again with the finger 45 after the correction processing of FIG. That is, by retouching, for example, a yellow-green part is designated as a selection color, and the cursor 44 is displayed for identification display. Then, the color correction control unit 11a specifies a subject 42b having a hue corresponding to the spectrum range newly selected by the touch operation from among the subjects 42a to 42c of the displayed captured image 41 as a color correction target. It is specified as the subject 42B. Further, the color correction control unit 11a performs processing for identifying the range of the specified specific subject 42B from the other subjects 42a and 42c, for example, hatching processing, and displays the range on the display unit 18.

  Next, FIG. 4B is a diagram showing an operation and display example when the saturation of the specific subject 42B is lowered. That is, as an operation of reducing the display ratio of the selected color on the spectrum bar 43, the cursor 44 is lowered by the finger 45 downward perpendicular to the spectrum bar 43 so that the selected color portion is recessed into the concave shape 43b so that the display ratio is reduced. It is a case where it operated to. In this case, the color correction control unit 11a issues a correction instruction to the image processing unit 19 so that the saturation of the specific subject 42B to be color corrected becomes low. As a result, the saturation of the specific subject 42B is corrected and displayed by the image processing unit 19 so as to decrease by a predetermined amount. Then, by releasing the finger 45 from the cursor 44 in this state, the saturation correction is confirmed, and the concave shape 43b portion returns to the original flat state.

  FIG. 5 is an explanatory diagram schematically illustrating a display example of the display unit 18 that partially enlarges and displays the spectrum bar 43 after setting the selection color. Until the spectrum bar 43 is touched and the selected color is set, the spectrum bar 43 displays the hue distribution of the entire visible light range (purple to red) as shown in FIG. Is displayed. Then, as described with reference to FIG. 3B, after the selected color is set by touching the spectrum bar 43, a part of the visible light including the selected color portion is displayed as shown in FIG. Is displayed as an enlarged spectrum bar 43. That is, the position where the touch operation is performed does not change, and the enlarged display is performed around the touched portion. At this time, the size of the cursor 44 is enlarged and displayed in accordance with the enlargement of the spectrum bar 43. As a result, the entire visible light range can be selected before the selected color is set, and after the selected color is set, the hue can be changed in detail near the selected color, enabling subtle hue correction. It becomes.

  FIG. 6 is an explanatory diagram schematically showing an operation and display example for further expanding the range of the selected color after setting the selected color. As shown in FIG. 3B, after selecting the selected color by touching the spectrum bar 43, the finger 45 is once released, and as shown in FIG. When a pinch operation for enlarging the cursor 44 portion to the left and right is performed, the cursor 44 is enlarged to the left and right, and the spectrum range of the selected color is enlarged. In the illustrated example, the selection color is enlarged from yellow to yellow-green to yellow, and the subject 42b made of yellow-green banana is selected as the specific subject 42B. Note that when a pinch operation for narrowing the cursor 44 portion to the left and right is performed, the spectral range of the selected color is reduced.

  FIG. 7 is an explanatory diagram schematically illustrating an operation and a display example in a case where a selection color is selected by a user selecting a specific subject. That is, on the initial screen of the color correction mode as shown in FIG. 3A, an operation of tapping a desired subject in the displayed captured image 41, for example, the subject 42c with the finger 45, or an operation of tracing with the finger 45 is performed. When it is performed, the color correction control unit 11a specifies the specific subject 42C that is a color correction target. Then, the color correction control unit 11a detects a contour near the region traced with the finger 45 or detects a change in color, for example, within a contour range or the same hue range, for example, a specific subject that is a color correction target. The range is determined.

  In addition, the color correction control unit 11a detects the color of the specific subject 42C. That is, the color correction control unit 11a detects a dominant hue (or main force) in the determined range of the specific subject 45C. Then, the color correction control unit 11a displays the cursor 44 at the position of the corresponding spectrum on the spectrum bar 43 with the detected hue as the selected color. In addition, the color correction control unit 11a displays the determined range of the specific subject 42C by performing processing for identifying the range of the specific subject 42C from the other subjects 42a and 42b, for example, hatching. The subsequent color correction operation for the specific subject 42C is the same as described above.

  Next, an example of operation control by the control unit 11 having the color correction control unit 11a for realizing the display control and the color correction operation as described above will be described. FIG. 8 is a schematic flowchart showing an example of operation control in the color correction mode during the reproduction mode executed by the control unit 11. The target color correction mode processing in the present embodiment is executed when the color correction mode is designated by the color correction button 13b in the reproduction mode.

  First, in the playback mode, for example, a desired captured image is selected from thumbnail images displayed on the display unit 18 (step S11), and the full image data of the selected captured image is read from the image storage unit 22 to obtain 1 One shot image is displayed on the display unit 18 (step S12).

  In this state, it is determined whether or not the color correction button 13b has been operated to set the color correction mode (step S13). If the setting operation has not been performed (step S13: No), the process returns to step S11. If the color correction mode is set (step S13: Yes), the color correction control unit 11a displays the spectrum bar 43 so as to be superimposed on the displayed captured image 41 (step S14). The display state shown in FIG.

  Then, it is determined whether or not the subject to be color-corrected in the displayed captured image has been selected and designated by a tap operation (step S15). As shown in FIG. 7, when a subject is selected and operated by a user operation (step S15: Yes), the color correction control unit 11a sets the subject as a specific subject and sets the range of the specific subject. Determine (step S16). Next, the color correction control unit 11a detects the main color of the specific subject (step S17), and identifies and displays the range of the specific subject by processing such as hatching (step S18). Further, the color correction control unit 11a displays the cursor 44 at a position representing the selected color on the spectrum bar 43 using the hue detected as the main color of the specific subject as the selected color (step S19). The display example shown in FIG.

  On the other hand, when there is no subject selection operation by a user operation (step S15: No), the color correction control unit 11a determines whether or not a touch operation has been performed on the spectrum bar 43 (step S31). When a touch operation is performed on the spectrum bar 43 (step S31: Yes), the color correction control unit 11a sets the hue at the touch position as the selected color and displays the cursor 44 at the touch position. The selected color is displayed in an identifiable manner (step S32). The display example shown in FIG.

  Next, the color correction control unit 11a selects a subject whose main color is the selected color that has been selected and selected from the displayed captured image 41, thereby setting the subject as a specific subject and determining the range of the specific subject. (Step S33). Then, the color correction control unit 11a identifies and displays the range of the specific subject by processing such as hatching (step S34). The display example shown in FIG.

  Next, the color correction control unit 11a determines whether or not the finger 45 is released from the position of the cursor 44 after the process of step S34 (step S35). When the finger 45 is released (step S35: Yes), or when there is no touch operation on the spectrum bar 43 (step S31: No), the color correction control unit 11a has two on the spectrum bar 43. It is determined whether or not a pinch operation has been performed by touching the finger 45 (step S36). If there is no pinch operation (step S36: No), the process returns to step S15. As shown in FIG. 6, when a pinch operation is performed (step S36: Yes), the color correction control unit 11a enlarges or reduces the size of the cursor 44 indicating the range of the selected color according to the pinch operation. Change (step S37). Then, in response to the change in the size of the cursor 44 (change in the spectral range of the selected color), the corresponding specific subject is specified again (step S38), and the process returns to step S15.

  Similarly, the color correction control unit 11a determines whether or not the finger 45 released from the specific subject has been pinched by touching the two fingers 45 on the spectrum bar 43 after the process of step S19 (step S20). ). If a pinch operation has been performed (step S20: Yes), the color correction control unit 11a enlarges or reduces the size of the cursor 44 indicating the range of the selected color in accordance with the pinch operation (step S20: Yes). Step S37). Then, in response to the change in the size of the cursor 44 (change in the spectral range of the selected color), the corresponding specific subject is specified again (step S38), and the process returns to step S15. When there is no pinch operation (step S20: No), it is determined whether or not a touch operation has been performed on the position of the cursor 44 of the spectrum bar 43 with respect to the finger 45 released from the specific subject (step S21). If there is no touch operation with respect to the cursor 44 (step S21: No), it will return to step S15.

  Then, when the finger 45 at the cursor 44 position is not released (step S35: No) or when the cursor 44 position is touched (step S21: Yes), the color correction control unit 11a moves the cursor 44 to the cursor 44. On the other hand, it is determined whether or not an up / down or left / right operation has been performed (step S41). If there is no up / down or left / right operation (step S41: No), the process returns to step S15.

  That is, until there is an operation to move the cursor 44 on the spectrum bar 43 in the vertical or horizontal direction, the finger 45 is released to touch another position on the spectrum bar 43 or to another subject in the captured image. The selected color and the specific subject can be changed by tapping, and the spectrum range of the selected color (the target range of the specific subject) can be changed by performing a pinch operation.

  On the other hand, when there is an up / down or left / right operation on the cursor 44 (step S41: Yes), the color correction control unit 11a determines a specific subject (step S42). As a result, the specific subject cannot be changed thereafter. If the cursor 44 is operated in the vertical direction (step S43: Yes), the color correction control unit 11a performs a color correction process for increasing or decreasing the saturation of the specific subject according to the operation direction. Thus, the image processing unit 19 is instructed (step S44). The display examples shown in FIG. 3C and FIG. 4B correspond.

  If the cursor 44 is operated in the left-right direction (step S45: Yes), the color correction control unit 11a performs an image correction process for changing the hue of the specific subject according to the operation direction. The processing unit 19 is instructed (step S46). The display example shown in FIG.

  Thereafter, it is determined whether or not the finger 45 has been released (step S47). If the finger 45 is not released (step S47: No), the process returns to step S42. Thereby, the saturation and the hue can be further changed.

  When the finger 45 is released (step S47: Yes), the color correction control unit 11a determines whether or not such an up / down or left / right operation corresponds to a change operation (step S48). When the position and height of the cursor 44 are almost the same as those before the operation, it is determined that the cursor 44 does not correspond to the change operation (step S48: No), and the process returns to step S15. That is, even if the cursor 44 is once changed in the up / down or left / right directions, if the finger 45 is released after being finally returned to a state almost unchanged from the position and height before the operation, the cursor 44 is canceled. It is regarded as an operation.

  When it is determined that the color correction control unit 11a corresponds to the change operation (step S48: Yes), the color correction processing for the specific subject is confirmed, and the image that has been subjected to image processing with the correction color at that time is stored in the image storage unit 22. (Step S49). Then, it is determined whether or not the color correction mode is turned off (step S50). If the OFF operation has not been performed (step S50: No), the process returns to step S14, and a new selection / selection of the selected color or specific subject can be performed. If an OFF operation is performed (step S50: Yes), the process returns to step S11, and a new thumbnail image can be selected.

  As described above, according to the present embodiment, the color of the specific subject in the captured image 41 can be easily corrected to a desired color. In particular, a spectrum bar 43 representing the entire distribution of hues is displayed as a dialog image for correcting the color of the subject in the photographed image, and the selected color selected as the color of the subject to be corrected is the spectrum bar 43. On the spectrum bar 43 displayed together with the photographed image 41, the cursor 44 is displayed so as to be identifiable, and a correction instruction relating to the color of the subject is given according to the operation on the selected color portion on the spectrum bar 43. By this operation, the color of the specific subject can be easily corrected to the desired color.

  In addition, since a correction instruction for increasing or decreasing the saturation of the subject to be corrected is issued in accordance with an operation for increasing or decreasing the display ratio of the selected color on the spectrum bar 43, the spectrum bar 43 representing the entire distribution of hues is displayed. When used, the saturation increase / decrease correction can be performed easily and easily. Further, since the correction instruction for changing the hue of the subject to be corrected is performed in accordance with the operation for changing the selected color on the spectrum bar 43 to another hue, the spectrum bar 43 representing the entire distribution of the hue is displayed. Hue change correction when used can be performed easily and easily.

  Further, when an operation for designating one of the hues on the spectrum bar 43 is performed, the captured image 41 on which a subject having the selected color as a main color is displayed with the hue designated by the operation as a selected color. Since there are a plurality of subjects with the same color in the captured image 41, for example, when it is desired to perform color correction on the subjects with the same color at the same time, these subjects are selected as the specific subjects by the selection operation of the selected color. Can be set in a lump, and operability can be improved.

  On the other hand, when an operation for designating any subject in the displayed captured image 41 is performed, the main color of the subject designated by this operation is detected, and the detected hue is used as the selected color in the spectrum bar. For example, when there are a plurality of subjects with the same hue in the captured image 41, it is possible to easily cope with a case where it is desired to perform color correction for only one desired subject.

  Further, the hue distribution of the entire visible light range is displayed as the spectrum bar 43 until the selected color is set, and after the selected color is set, the hue of a partial range of visible light including the selected color is displayed. Since the distribution is enlarged and displayed as the spectrum bar 43, the hue can be changed in the vicinity of the selected color in detail after setting the selected color without narrowing the color selection range before setting the selected color. This makes it possible to perform subtle hue correction.

  In addition, since the touch panel 14 disposed so as to overlap the display unit 18 is provided and a correction instruction is issued in response to an operation on the spectrum bar 43 from the touch panel 14, an operation on the screen of the display unit 18 is performed. Color correction instruction operation can be performed.

  The present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the spirit of the present invention. For example, in the present embodiment, the spectrum bar 43 is used as a spectrum image to be a dialog image, but the present invention is not limited to the form like the spectrum bar 43. For example, it may be in the form of an annular or semi-circular spectrum circle. In this case, for example, the inner side in the radial direction may be set in the direction in which the display ratio of the selected color increases, and the outer side in the radial direction may be set in the direction in which the display ratio of the selected color decreases.

  Further, in the present embodiment, for example, for each processing function as shown in FIG. 8, in the block diagram shown in FIG. 2, the image processing unit 19 for color correction processing and the control unit 11 ( Although it has been described that the processing is performed by software by the color correction control unit 11a), a specific example of the configuration is not limited thereto. It is a design matter to perform these processes in any one of hardware processing and software processing or in an appropriate combination.

  When all or part of the embodiment is executed by software processing, the control unit 11 reads and executes the color correction program stored in the program data storage unit 12 such as a flash memory. Thus, since such software processing is realized, the color correction program relating to such software processing is also the present invention. A recording medium on which such a color correction program is recorded is also the present invention. The recording medium for storing the program is not limited to the flash memory, but an optical recording medium such as a CD-ROM or DVD-ROM, a magnetic recording medium such as an MD, a tape medium, or a semiconductor memory such as an IC card. It may be. Further, the color correction program naturally includes a program obtained from an external recording medium via a network, for example, a program downloaded from a home page. In such a case, a WWW server, an ftp server, and the like that are downloaded by the user are also included in the scope of the present invention.

  The camera of this embodiment may be applied to a camera unit of a personal computer, a camera unit of a mobile phone, or the like.

It is a rear view which shows the example of schematic structure of the digital camera carrying the color correction apparatus of embodiment of this invention. It is a block diagram which shows the system configuration example of the digital camera 1 of this Embodiment. It is explanatory drawing which shows typically the example of a display of the display part at the time of color correction mode. It is explanatory drawing which shows typically the example of a display of a display part when there exists additional operation. It is explanatory drawing which shows typically the example of a display of the display part which displays a spectrum bar partially expanded after the selection color is set. It is explanatory drawing which shows typically the operation and display example for expanding the range of a selection color further after the selection color is set. It is explanatory drawing which shows typically the example of operation and a display in case a selection color is selected by a user's selection operation of a specific subject. It is a schematic flowchart which shows the example of operation control at the time of the color correction mode in reproduction | regeneration mode.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Digital camera 11a Color correction control part 18 Display part 19 Image processing part 41 Captured image 42A-42C Specific subject 42a-42c Subject 43 Spectrum bar 44 Cursor

Claims (10)

A display unit for displaying captured images;
A color correction control unit for displaying a dialog image for correcting the color of the subject in the captured image on the display unit;
An image processing unit for correcting the color of the subject in accordance with an instruction from the color correction control unit;
With
The color correction control unit displays a spectral image representing the entire distribution of hues as the dialog image, and displays the selected color selected as the color of the subject to be corrected in an identifiable manner on the spectral image, A color correction apparatus, wherein a correction instruction related to a subject color is issued to the image processing unit in response to an operation on the selected color portion on the spectrum image.   The said color correction control part performs the correction instruction | indication which increases / decreases the saturation of the to-be-corrected subject according to operation which increases / decreases the display ratio of the said selection color on the said spectrum image. The described color correction device.   The said color correction control part performs the correction instruction | indication which changes the hue of the to-be-corrected subject according to the operation to change the selected color on the spectrum image to another hue. The described color correction device.   When an operation for designating any hue on the spectrum image is performed, the color correction control unit displays a subject having the selected color as a main color with the hue designated by the operation as a selected color. The color correction device according to claim 1, wherein the color correction device is specified from the captured image.   When an operation for designating any subject in the displayed captured image is performed, the color correction control unit detects a main color of the subject designated by the operation, and detects the detected hue. The color correction apparatus according to claim 1, wherein the color correction apparatus displays the selected color on the spectrum image.   The color correction control unit displays the hue distribution of the entire visible light range as the spectral image until the selected color is set, and after the selected color is set, the visible light including the selected color is displayed. The color correction apparatus according to claim 4, wherein the hue distribution in a part of the range is enlarged and displayed as a spectrum image. A touch panel disposed on the display unit;
The color correction apparatus according to claim 1, wherein the color correction control unit issues a correction instruction in response to an operation on the spectrum image from the touch panel.   A camera comprising the color correction device according to claim 1. A color correction method in a color correction apparatus having a display unit for displaying a captured image,
A color correction control step for displaying a dialog image for correcting the color of the subject in the captured image on the display unit;
An image processing step for correcting the color of the subject in accordance with an instruction of the color correction control step;
Including
The color correction control step displays a spectral image representing the entire distribution of hues as the dialog image, and displays the selected color selected as the color of the subject to be corrected in an identifiable manner on the spectral image, A color correction method, wherein a correction instruction relating to a subject color is issued to the image processing step in accordance with an operation on the selected color portion on the spectrum image. In a computer provided in a color correction apparatus having a display unit for displaying a captured image,
A color correction control function for displaying a dialog image for correcting the color of the subject in the captured image on the display unit;
An image processing function for correcting the color of the subject in accordance with an instruction of the color correction control function;
And execute
The color correction control function displays a spectral image representing the entire distribution of hues as the dialog image, and displays the selected color selected as the color of the subject to be corrected in an identifiable manner on the spectral image, A color correction program, wherein a correction instruction related to a subject color is issued to the image processing function in response to an operation on the selected color portion on the spectrum image.

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