JP2014036269A - Imaging apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To automatically adjust a captured image using an arbitrary image desired by a user.SOLUTION: An imaging apparatus comprises: an imaging unit for capturing a subject image; a display unit for displaying the image captured by the imaging unit; a designation unit for, with the image displayed by the display unit as a sample image, designating a position in the sample image and evaluating the image of the designated position; and a database generation unit for associating the designated position with the evaluation of the image at the position and generating a database of each sample image.

Description

  The present invention relates to a photographing apparatus capable of automatically adjusting photographing parameters.

  In recent years, portable devices with a photographing function (photographing devices) such as digital cameras have become widespread. In this type of photographing device, there are some devices in which various settings at the time of photographing are automated. For example, a digital camera or the like may be equipped with an AF function that automates focusing, an automatic exposure (AE) function that automates exposure, a function that automatically performs color adjustment, and the like.

  Further, Patent Document 1 discloses an apparatus that determines shooting parameters from pre-designated sample image data and automatically adjusts a captured image.

    JP 2011-103548 A

  However, the invention of Patent Document 1 obtains shooting parameters from a provided sample image, and there is a problem that image adjustment using an image that is felt good at the moment the user sees cannot be performed. It was.

  An object of the present invention is to provide a photographing device that can automatically adjust an image of a captured image using an arbitrary image that a user likes.

  An imaging apparatus according to the present invention includes an imaging unit that captures a subject image, a display unit that displays a captured image obtained by imaging with the imaging unit, and an image displayed on the display unit as a sample image. A designation unit that designates the position in the image and evaluates the image at the designated position; and a database generation unit that associates the designated position with the evaluation of the image at the position and creates a database for each sample image.

  According to the present invention, there is an effect that the user can automatically perform image adjustment of a captured image using any desired image.

1 is a block diagram showing a circuit configuration of a photographing apparatus according to a first embodiment of the present invention. Explanatory drawing which shows an example of the content of the database about 1 sample image produced | generated by the database production | generation part 11c. Explanatory drawing for demonstrating operation | movement of 1st Embodiment. Explanatory drawing for demonstrating operation | movement of 1st Embodiment. The flowchart for demonstrating camera control. 6 is a flowchart showing a specific flow of preference designation processing in steps S9 and S33 in FIG. The flowchart which shows an example of similarity determination with a captured image and a sample image. The flowchart which shows the specific example of the parameter setting according to the designated effect. The flowchart for demonstrating the determination of a lost scene. The flowchart which shows the 2nd Embodiment of this invention. Explanatory drawing which shows the example of a display of the screen display in 2nd Embodiment.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a block diagram showing a circuit configuration of the photographing apparatus according to the first embodiment of the present invention. The photographing apparatus 1 in the present embodiment is configured by a main body 10 and an interchangeable lens 20. The main body 10 is a housing in which main circuit portions of the photographing apparatus 1 are housed, and an interchangeable lens 20 is detachably attached to the front surface.

  The interchangeable lens 20 includes a lens unit 21 that guides a subject image to the imaging unit 12 of the main body unit 10. The lens unit 21 includes a lens for zooming and focusing, and the like, and includes an operation unit 22 for driving and controlling these lenses. By operating the operation unit 22 configured by a zoom ring, a focus ring, or the like, not only the focus but also the zoom position and the aperture can be adjusted.

  The operation unit 22 outputs an operation signal based on a user operation to the control unit 23. The control unit 23 is configured by a microcomputer or the like, and generates a focus signal and a zoom signal based on a rotation operation and a shift operation based on an operation signal from the operation unit 22 to control the drive unit 24.

  The drive unit 24 configured by a motor or the like drives a focus lens related to focusing and a zoom lens related to zooming provided in the lens unit 21 to perform focus control and zoom control. The lens unit 21 is provided with a focus control unit 21a, a zoom control unit 21b, and an aperture control unit 21c. The focus control unit 21a outputs a signal corresponding to the position of the focus lens to the focus position determination unit 25a. Further, the zoom control unit 21b outputs a signal corresponding to the position (zoom position) of the zoom lens to the zoom position determination unit 25b. The aperture controller 21c is an aperture controller for limiting the axial light flux in the lens.

  The focus position determination unit 25 a determines the focus position based on the output of the focus control unit 21 a and outputs the determination result to the control unit 23. The zoom position determination unit 25 b determines the zoom position based on the output of the zoom control unit 21 b and outputs the determination result to the control unit 23. The control unit 23 receives the determination result of the focus position and the zoom position, and controls the drive unit 24 so that the focus position and the zoom position corresponding to the operation of the operation unit 22 are obtained.

  The interchangeable lens 20 is provided with a communication unit 28. The main body unit 10 is provided with a communication unit 13. The communication unit 28 transmits and receives information to and from the communication unit 13 of the main body unit 10 via a predetermined transmission path. When communication with the communication unit 13 of the main body 10 is established, the control unit 23 causes the communication units 28 and 13 to transmit the lens information stored in the recording unit 26 and zoom information related to the zoom operation to the main body 10. Can do.

  Based on the lens information, the main body 10 can recognize what zoom function the interchangeable lens 20 has, the focal length range (magnification), the focal length, the brightness number, and the like of the zoom lens. Further, the main body unit 10 is also provided with information on a rotation operation from the operation unit 22. The control unit 23 is configured to be controlled by the signal processing and control unit 11 by being supplied with a control signal from the signal processing and control unit 11 of the main body unit 10 via the communication units 13 and 28.

  In the present embodiment, various interchangeable lenses can be adopted, and not only interchangeable lenses but also non-replaceable lenses may be employed.

  The main body 10 constituting the photographing apparatus 1 has an imaging unit 12 configured by an imaging element such as a CCD or a CMOS sensor. The imaging unit 12 photoelectrically converts a subject image from the interchangeable lens 20 provided on the front surface of the main body unit 10 to obtain a captured image. The imaging unit 12 is driven and controlled by the signal processing and control unit 11 and outputs a captured image.

  The signal processing and control unit 11 is configured by a CPU or the like and controls each unit of the photographing apparatus 1. The signal processing and control unit 11 outputs a driving signal for the imaging element to the imaging unit 12 and reads a captured image from the imaging unit 12. The signal processing and control unit 11 performs predetermined signal processing, for example, color adjustment processing, matrix conversion processing, noise removal processing, and other various signal processing on the read captured image.

  The main body unit 10 is also provided with a clock unit 14 and an operation determination unit 15. The clock unit 14 generates time information used by the signal processing and control unit 11. The operation determination unit 15 generates an operation signal based on a user operation with respect to an operation unit including a release button, a function button, and various switches such as a shooting mode setting (not shown) provided in the main body unit 10, and a signal processing and control unit 11 is output. The signal processing and control unit 11 controls each unit based on the operation signal.

  The signal processing and control unit 11 can compress the captured image after signal processing, and can apply the compressed image to the recording unit 16 for recording. As the recording unit 16, for example, a card interface can be adopted, and the recording unit 16 can record image information, audio information, and the like on a recording medium such as a memory card.

  Further, the display control unit 11a of the signal processing and control unit 11 executes various processes related to display. The display control unit 11 a can provide the captured image after the signal processing to the display unit 35 and the eyepiece display unit 31 of the eyepiece unit 30. Each of the display unit 35 and the eyepiece display unit 31 has a display screen such as an LCD, and displays an image given from the display control unit 11a. Moreover, the display control part 11a can also display various menu displays etc. on these display screens.

  The display unit 35 has a display screen 38 that displays a captured image, as will be described later. A touch panel 36 is provided on the display screen 38. The touch panel 36 can generate an operation signal corresponding to the position on the display screen 38 pointed by the user with a finger. This operation signal is supplied to the signal processing and control unit 11. As a result, the signal processing and control unit 11 detects the position on the display screen 38 touched by the user or the touch position when the user performs a slide operation of sliding on the display screen 38 with a finger. Thus, processing corresponding to the user operation can be executed.

  Note that the display unit 35 is disposed on, for example, the back surface of the main body unit 10 so that the photographer can check the through image displayed on the display screen 38 at the time of shooting, and shoot while checking the through image. The operation can be performed.

  In addition, the main body unit 10 is provided with an eye sensor 17 that detects that the user has brought the eye close to the eyepiece display unit 31. Based on the detection result of the eye sensor 17, the signal processing and control unit 11 can determine whether or not the user has brought the eye close to the eyepiece display unit 31.

  In the present embodiment, the signal processing and control unit 11 captures an existing captured image (hereinafter referred to as a sample image) such as a poster, and automatically sets optimal imaging parameters based on the imaging result. The sample shooting mode can be executed. For example, the signal processing and control unit 11 collects a plurality of sample images, creates a database, and obtains shooting parameters based on sample images similar to the image to be shot from the database, so that shooting parameters that are optimal for the shot image are obtained. Is set automatically.

  In order to enable such a sample photographing mode, the signal processing and control unit 11 includes a subject determination unit 11b, a database generation unit 11c, a sample determination unit 11d, and a parameter control unit 11e. The subject determination unit 11b determines a subject from the captured image. For example, the subject determination unit 11b determines a person, an animal, a plant, a flower, a building, or the like as a subject, and determines the background portion of the subject as a background subject. In addition, the subject determination unit 11b determines not only the shape of the subject but also colors, patterns, image blur, and the like. The database generation unit 11c converts the sample image into a database according to the determination result of the subject determination unit 11b when acquiring the sample image.

  For example, the database generation unit 11c creates a database of the characteristics of the sample image based on characteristics such as the type of subject, size, color, and degree of blur. The database generation unit 11c determines shooting parameters according to the characteristics of the sample image, and describes parameter specification information in the database for each sample image. The database generation unit 11c adds the contents of the database for each sample image and updates the database recorded in the database recording unit 37.

  FIG. 2 is an explanatory diagram showing an example of the contents of the database for one sample image generated by the database generation unit 11c.

  FIG. 2 shows the recorded contents (sample scene 1) generated by the database generation unit 11c when one sample image is acquired. In the example of FIG. 2, the subject determination unit 11b indicates that two subjects are detected in the sample image. The subject shown as the designated subject 1 has a subject type of “flower”, has a size of about ½ in the screen, and indicates that the color is pink. In addition, the subject shown as the designated subject 2 has a subject type of “background”, has about half the size of the screen, and is composed of a large number of colors.

  The database generation unit 11c generates information on the designated subjects 1 and 2 based on the determination result of the subject determination unit 11b, and determines the designated effect for determining the shooting parameters for these designated subjects 1 and 2. The designated effect is for the user to evaluate the image of the designated subject and obtain an image adjustment according to the result of the evaluation. In the example of FIG. 2, the database generation unit 11 c matches the color of the subject corresponding to the designated subject 1 with the color of the designated subject 1 and does not designate blur based on the user operation. Color is not specified, and blur is set to the specified effect.

  In the sample photographing mode, the sample determination unit 11d determines which sample image is similar to the captured image by comparing the characteristics of the captured image with the characteristics of each sample of the database read from the database recording unit. The sample determination unit 11d reads the database description of the sample image with the most similar captured image and outputs the specified effect to the parameter control unit 11e.

  The parameter control unit 11e sets shooting parameters so that the input designation effect is obtained. For example, when blur is specified for a predetermined subject in the captured image, the parameter control unit 11e adjusts contrast so that the predetermined subject has blur. For example, the parameter control unit 11e adjusts the blur by adjusting the focal length, the aperture, and the image processing operation. Further, for example, when a color is designated as a designated effect for a predetermined subject in the captured image, the parameter control unit 11e performs color adjustment on the captured image so as to be the color.

  In this way, when shooting an image similar to the sample image, the signal processing and control unit 11 sets the same parameter as the parameter obtained for the sample image, or performs the same color adjustment as the sample image, An image with the same finish as the sample image can be obtained.

  The main body unit 10 is also provided with a communication unit 19. The communication unit 19 is controlled by the signal processing and control unit 11 and can transmit and receive a captured image and a recorded image to and from other devices via a transmission path (not shown). In the present embodiment, the communication unit 19 transmits the database recorded in the database recording unit 37, receives a database created by another device, and causes the database recording unit 37 to record the database. it can. For example, it is possible to take a sample image in a mobile phone in which the photographing device 1 is incorporated, and transfer the sample image and database acquired by the mobile phone to a photographing device such as a camera. As a result, sample photographing using a database generated by a device other than the own device is possible.

  Next, the operation of the embodiment configured as described above will be described with reference to FIGS. 3 and 4 are explanatory diagrams for explaining the operation of the embodiment. FIG. 5 is a flowchart for explaining camera control. FIG. 6 is a flowchart showing a specific flow of preference designation processing in steps S9 and S33 in FIG.

  In the present embodiment, it is possible to construct a database to be used in the sample shooting mode using an image captured by the imaging unit 12 as a sample image. 3 and 4 are for explaining the database construction work. FIG. 3A shows that the user 41 is holding the photographing device 1 with the right hand 42 and the building 43 is walking on the forested street 44. FIG. 3B shows that the user 41 has reached the place where the posters 47 and 48 are pasted on the wall 46 of the building. A poster 47 showing a person and a poster 48 showing a landscape are pasted on the wall 46. The poster 48 includes a flower image 48a and a mountain range image 48b.

  Here, it is assumed that the user 41 likes the image of the landscape poster 48. The user 41 captures an image of the landscape poster 48 as a sample image. That is, the poster 48 is photographed by the photographing device 1. FIG. 4A shows a state in which a poster image (sample image) 51 recorded by shooting the poster 48 is displayed on the display screen 38 of the display unit 35.

  For example, the user operates a database construction button (not shown) provided in the main body unit 10. Then, the signal processing and control unit 11 shifts to the database construction mode, and the display control unit 11a sets the designated effect on the image 51 displayed on the display screen 38 as shown in FIG. The designated effect setting displays 54 and 55 are displayed. The designated effect setting display 54 is for setting a designated effect of “matching” the color, and the designated effect setting display 55 is for setting a designated effect of “blurred” for blur.

  The user sets a favorite image portion of the sample image and a designation effect for the image portion by, for example, a touch operation. For example, when the user 41 particularly likes the color of the flower in the image 51, the user 41 first touches the portion of the flower image 52 of the image 51 displayed on the display screen 38 to thereby select the subject (designated subject). Then, the designated effect setting display 54 is touched. Thereby, a designation effect of “matching” is set for the color of the flower image 52. Further, the user 41 touches the portion of the background image 53 in the image 51, and then touches the designated effect setting display 55. As a result, the designation effect of “blurred” is set for the background. Note that the designated effect is not limited to two choices, but may be selected so that the effect changes step by step.

  The database generation unit 11c generates, for example, the database of FIG. 2 according to the description of FIGS. 3 and 4 described above, and records it in the database recording unit 37. The database generation unit 11 c generates a database for each sample image and updates the database recording unit 37. As described above, the database may be registered in advance, or may be registered at the time of photographing as described later.

  In step S1 of FIG. 5, the signal processing and control unit 11 determines whether or not the power is turned on. If the power is not turned on, the standby state is set (step S2). When the power is turned on, the signal processing and control unit 11 determines whether or not the shooting mode is designated (step S3).

  When the signal processing and control unit 11 determines in step S3 that the shooting mode is not specified, the signal processing and control unit 11 determines whether or not the reproduction mode is specified in step S6. When the reproduction mode is designated, the signal processing and control unit 11 reads out an image from the recording unit 16 and gives it to the display unit 35 in step S7 to perform image reproduction.

  In step S8, the signal processing and control unit 11 determines whether or not an operation of a database construction button for database construction has been performed. When the database construction button is operated, the signal processing and control unit 11 displays a designated effect setting display, and then detects a user's favorite designation operation in step S9, and constructs a database based on the detection result ( Step S10). That is, as described above, a subject is designated, and a database describing the relationship between the designated subject (designated subject) and the designated effect is generated.

  That is, in step S41 of FIG. 6, the database generation unit 11c determines whether or not the subject has been touched by the output of the touch panel 36. If touched, the touched subject is set as the designated subject (step S42). Next, the database generation unit 11c determines whether or not the designated effect setting display has been touched (step S43). If touched, the touched designated effect is set as the designated effect for the designated subject (step S44). The designation of the designated subject and its designated effect is repeated until it is determined in step S45 that the ending operation has been performed by an end button (not shown) or the like.

  When the reproduction image changing operation is performed, the signal processing and control unit 11 shifts the processing from step S11 to step S12 and changes the read image. If the playback mode is not designated in step S6, the signal processing and control unit 11 shifts to the image communication mode in step S13. The communication unit 19 can transmit and receive not only captured images and recorded images but also databases with other devices. A database received from another device is recorded in the database recording unit 37.

  When the photographing apparatus 1 enters the sample photographing mode, lens communication is performed in step S21. The signal processing and control unit 11 controls the communication unit 13 to perform communication with the communication unit 28 of the interchangeable lens 20 and reads lens information stored in the recording unit 26 through the control unit 23. . In the next step S <b> 22, the signal processing and control unit 11 performs autofocus control (AF) and automatic exposure control (AE), takes a signal from the imaging unit 12, performs signal processing, and obtains a captured image.

  The signal processing and control unit 11 determines whether the user is in contact with the eyepiece display unit 31 based on the output of the eye sensor 17. When the user is in the eyepiece display unit 31, the through image is displayed on the eyepiece display unit 31 (step S24). When the user is not in the eyepiece, the through image is displayed on the display screen 38 of the display unit 35. It is displayed (step S25).

  Next, the sample determination unit 11d determines which sample image the captured image is similar to in step S26. The sample determination unit 11d reads the database of the database recording unit 37, and compares the characteristics of each subject in the captured image with the characteristics of each designated subject on the database to determine which sample image the captured image is similar to Determine. If a similar sample image is detected, the parameter control unit 11e reads the designated effect for the detected sample image, and sets the shooting parameters so that the read designated effect is obtained (step S27).

  FIG. 7 is a flowchart illustrating an example of similarity determination between a captured image and a sample image.

  In step S51 in FIG. 7, the sample determination unit 11d determines whether or not the captured image has a feature of the main subject. In step S52, the sample determination unit 11d determines whether the size of the main subject detected in step S51 in the screen matches the sample image. In step S53, the sample determination unit 11d determines whether the color of the main subject detected in step S51 is similar to the color of the sample image. The sample determination unit 11d determines that the captured image is similar to the sample image when it matches or is similar to the sample image in all of steps S51 to S53 (step S54), and any one of steps S51 to S53. However, in the case of disagreement or dissimilarity, it is determined that the captured image is dissimilar to the sample image (step S55).

  In FIG. 7, the determination is made based only on the similarity of the main subject, but the determination may be made in consideration of the similarity of the background. Further, FIG. 7 illustrates an example in which it is determined that the captured image and the sample image are very similar, but similar determination criteria can be set as appropriate.

  In the example of FIG. 7, for example, in the case of a captured image in which a subject of a pink flower having a size about 1/2 of the screen and a background subject having a color of about half the size of the screen are captured. The sample determination unit 11d determines that the image is similar to the sample image indicated by the sample scene 1 in FIG. In this case, the parameter control unit 11e adjusts the image quality of the captured image so that the color of the flower in the captured image is pink, and the focal length, the aperture, and the image so that the background is blurred. Set parameters such as processing operations.

  FIG. 8 is a flowchart showing a specific example of parameter setting according to the designated effect.

  In step S61, the parameter control unit 11e determines whether the designated subject has a color designation. If there is a color designation, the color of the corresponding subject in the captured image is matched with the color of the designated subject in the sample image (step S62). In step S63, the parameter control unit 11e determines whether the designated subject has a blur designation. If there is a blur designation, the contrast of the subject corresponding to the captured image is adjusted to the blur of the designated subject of the sample image by, for example, changing the setting of the aperture or focal length or image processing operation (step S64).

  In step S65, the parameter control unit 11e determines whether the control limit has been reached. Depending on the type of photographic lens, it is conceivable that the necessary amount of blur cannot be obtained only with the aperture and focal length. Therefore, when the limit of the blur amount is reached, the parameter control unit 11e displays a message display that recommends that the lens exchange should be performed (step S66).

  FIG. 9 is an explanatory diagram for explaining a color adjustment method. 9A1 to 9A3 show the adjustment for the color difference Cb, and FIGS. 9B1 to 9B3 show the adjustment for the color difference Cr. The parameter control unit 11e performs post-processing after converting the RGB signal into luminance and color differences Cb and Cr in order to adjust only the color without affecting the luminance. The parameter control unit 11e performs color adjustment so that the histograms of the color differences Cb and Cr match between the designated subject of the sample image and the corresponding subject of the captured image.

  For example, the parameter control unit 11e obtains a histogram of the color differences Cb and Cr for the designated subject of the sample image. The broken lines in FIGS. 9A1 and 9B1 indicate the histogram characteristics of the color differences Cb and Cr of the designated subject of the sample image. Further, the parameter control unit 11e obtains a histogram of the color differences Cb and Cr for the subject corresponding to the captured image. The solid lines in FIGS. 9A1 and 9B1 show the histogram characteristics of the color differences Cb and Cr of the subject corresponding to the captured image.

  The parameter control unit 11e shifts the histogram characteristics by adding Cb and Cr offsets as indicated by arrows so that the peak of the histogram characteristics of the captured image coincides with the peak of the histogram characteristics of the sample image (FIG. 9 (a2)). ), (B2)).

  Thus, as shown in FIGS. 9A3 and 9B3, the peak of the histogram characteristic of the captured image matches the peak of the histogram characteristic of the sample image. Thereby, the color of the subject corresponding to the captured image can be brought close to the color of the designated subject of the sample image.

  The parameter control unit 11e may obtain a histogram based on the sample image recorded in the database recording unit 37. Further, the histogram generated from the sample image by the database generation unit 11c may be recorded in the database recording unit 37, and the parameter control unit 11e may perform color adjustment using the recorded histogram of the sample image.

  Next, the signal processing and control unit 11 determines in step S28 whether or not a photographing operation has been performed. When the user performs shooting by operating the release button or the like, the signal processing and control unit 11 performs still image shooting in step S29. The signal processing and control unit 11 performs predetermined signal processing on the captured image from the imaging unit 12 and then gives it to the recording unit 16. The captured image captured in step S29 is a finished image similar to the sample image. The recording unit 16 records the captured image as an image file on a recording medium (not shown) (step S30).

  In step S31, the signal processing and control unit 11 controls the display control unit 11a to display the recorded captured image in a rec view display. As described above, the database of the sample images may be created at the time of shooting, and the signal processing and control unit 11 determines whether the captured image is not similar to the sample image in step S26, as in step S29. If the shooting operation is a normal shooting operation, in steps S32 to S35, it is possible to perform a database construction operation using the captured image as a sample image. Steps S32 to S34 are the same processing as steps S8 to S10. When the user operates the database construction button in the REC view display state, the database is constructed using the captured images as sample images.

  As described above, in the present embodiment, a database used in sample shooting is generated based on the sample image obtained by imaging by the imaging unit, and it can be easily used for sample shooting from a printed poster or a photo book. A database can be created. By comparing the database with the captured image, it is possible to search for a sample image similar to the captured image and set parameters according to the specified effect for the subject in the sample image. Can be obtained. Further, when the database is generated, the user sets a favorite subject in the sample image and its designated effect, and an image according to the user's preference can be obtained.

  For example, if a user constructs a database by photographing a favorite poster found in a tourist spot and images a similar subject, the user can easily capture an image with the same finish as the favorite poster. Moreover, even a novice photographer can easily obtain a captured image with a finish that is almost the same as a captured image captured by an advanced imaging technique. For example, a photographed image having a finish desired by the user can be obtained by photographing a model printed matter such as bright colors of flowers, green and autumn leaves of trees, colors of animals and insects.

(Second Embodiment)
FIG. 10 is a flowchart showing the second embodiment of the present invention. FIG. 11 is an explanatory diagram showing a display example of the screen display in the second embodiment.

  In the first embodiment, it has been described that when creating a database, it is possible to acquire a sample image similar to a sample by imaging a sample subject such as a poster. However, in practice, the settings of exposure and the like are different, and a sample image similar to a sample subject such as a poster may not be obtained.

  Therefore, this embodiment enables correction at the time of taking a sample image for creating a database. In the present embodiment, the hardware configuration is the same as that of the first embodiment. In the present embodiment, the parameter control unit 11e not only changes the parameter setting according to the specified effect, but also allows the parameter control unit 11e to adjust the parameter based on a user operation even when imaging a sample subject for database creation. Thus, it is possible to obtain a sample image similar to the sample subject.

  In step S71 of FIG. 10, the display control unit 11a gives the image captured by the imaging unit 12 to the display unit 35 and starts displaying a through image. In step S72, the signal processing and control unit 11 determines whether or not a menu operation has been performed by operating a menu button or the like. When the menu operation is performed, the display control unit 11a displays the menu display shown in FIG. 11A (step S73). As shown in FIG. 11A, a display 62a for setting the auto mode, a display 62b for setting the panorama mode, and a display 62c for setting the sample mode are displayed on the display screen 38. Yes. On the display screen 38, a display 63 for deleting the menu display is also displayed.

  In step S <b> 74, the signal processing and control unit 11 determines whether or not a sample mode for capturing a sample image for creating a database is designated by the output of the operation determination unit 15. When the sample mode is designated, the display control unit 11a displays a message indicating that the sample mode has been changed and a color bar display for performing color adjustment (step S75).

  FIG. 11B shows that a through image 65 whose main subject is a flower image 66 is displayed on the display screen 38. On the display screen 38, a color bar display 67 for adjusting the hue (H), saturation (S), and brightness (V) of the main subject is displayed. On the display screen 38, a message display 68 indicating that a sample image is being captured is also displayed.

  Three bars 67a in the color bar display 67 indicate the current hue (H), saturation (S), and lightness (V) levels of the main subject. The user changes the hue (H), saturation (S), and lightness (V) levels of the main subject by sliding the operation unit 67b moving on the three bars 67a on the touch panel 36. Can be done.

  The signal processing and control unit 11 determines the color bar operation of the user (step S76), and when the user operates the color bar operation unit 67b, the process proceeds to step S77. In step S77, the parameter control unit 11e changes the image processing on the captured image in accordance with the user's color bar operation, and changes the hue (H), saturation (S), and brightness (V) levels of the main subject to color. Match the bar operation. Note that the color adjustment by the color bar operation includes adjustment only for brightness.

  If the color bar operation has not occurred in step S76, the signal processing and control unit 11 determines whether or not a touch operation has occurred in step S78. When the user touches, for example, the background portion with the finger 69 as shown in FIG. 11C, the parameter control unit 11e sets the area corresponding to the touch portion to be blurred (step S79). The display control unit 11a displays the message display 70 that is being blurred.

  In step S80, the signal processing and control unit 11 determines whether or not a reset operation has been performed by a reset button operation or the like (not shown). When the reset occurs, the parameter control unit 11e returns the user's color adjustment and blur setting in steps S76 and S78 to the original state. Note that the parameter control unit 11e changes the parameters in accordance with the user's color bar operation and blur setting operation, and the user can check the setting state with a through image.

  The signal processing and control unit 11 determines whether or not a shooting operation has been performed in step S82. When the photographing operation is performed, the signal processing and control unit 11 captures a sample image using the set parameters. The sample image is recorded by the recording unit 16. The database generation unit 11c constructs a database based on the sample image. In addition, the database generation unit 11 c records the color adjustment parameter and the blur amount used for capturing the sample image in the database recording unit 37.

  If it is determined in step S72 that the menu operation is not performed, the sample determination unit 11d determines which sample image is similar to the captured image (step S91). If there is a similar sample image, the parameter control unit 11e performs color adjustment of the corresponding subject of the captured image based on the color information of the designated subject of the similar sample image.

  The signal processing and control unit 11 determines whether or not a menu-on operation has been performed in step S93. When the menu-on operation is performed, the display control unit 11a displays the color bar display 67 on the display screen 38. In step S95, when the user performs color adjustment by operating the operation unit 67b, the parameter control unit 11e performs color adjustment of the captured image in accordance with the user's adjustment operation (step S96).

  In step S97, a menu-off operation is determined, and when the menu-off operation is performed, the display control unit 11a deletes the color bar display 67 in step S98.

  The user can repeat the color adjustment operation in step S95 until satisfied with the color adjustment of the captured image. When the user is satisfied with the color adjustment and presses the release button, the process proceeds from step S99 to step S100, and photographing is performed. The parameter control unit 11e performs continuous shooting so that different blur amounts can be obtained by changing the aperture, focal length, and image processing.

  The signal processing and control unit 11 selects an image whose blur amount is close to the blur amount of the sample image recorded in the database recording unit 37 from the continuously photographed images (step S101), and displays the rec view (step S102). ). The signal processing and control unit 11 determines whether another image is designated in step S102. When another image is designated by the user, the signal processing and control unit 11 selects another image from the images continuously captured in step S104 and repeats the REC view display (step S102). If the user likes the image displayed in the REC view, for example, the image selected by the user's designation operation is recorded (step S105).

  As described above, in the present embodiment, color adjustment and blur adjustment can be performed at the time of taking a sample image for database construction, and brightness, white balance, etc. can be changed depending on the photographing environment such as a light source at the time of taking a sample image. Even when is different for each photographing, it is possible to obtain a sample image according to the user's desire. Thus, the sample image desired by the user can be acquired, and the sample image desired by the user can be photographed in the sample photographing. As a result, it is possible to match the finish of the captured image with the sample imaging desired by the user.

  In the present embodiment, an example is described in which color adjustment is performed by changing the hue (H), saturation (S), and brightness (V) levels by color bar display. Color adjustment may be performed by directly specifying a color with a picker. In addition, it is obvious that a user interface for adjusting the color difference histogram may be provided, and color adjustment may be performed using the color difference histogram, as in the first embodiment.

  In each of the embodiments described above, the color and blur have been described as the designated effects. However, the information about the gradation is acquired from the designated subject of the sample image, and the gradation of the corresponding subject of the captured image is matched with the sample image. You may do it.

  The present invention is not limited to the above-described embodiments as they are, and can be embodied by modifying the constituent elements without departing from the scope of the invention in the implementation stage. In addition, various inventions can be formed by appropriately combining a plurality of components disclosed in the embodiment. For example, you may delete some components of all the components shown by embodiment. Furthermore, constituent elements over different embodiments may be appropriately combined.

  It should be noted that even if the operation flow in the claims, the description, and the drawings is described using “first,” “next,” etc. for convenience, it is essential to carry out in this order. It doesn't mean. In addition, it goes without saying that the steps constituting these operation flows can be omitted as appropriate for portions that do not affect the essence of the invention.

    DESCRIPTION OF SYMBOLS 1 ... Imaging device, 10 ... Main-body part, 11 ... Signal processing and control part, 11a ... Display control part, 11b ... Subject determination part, 11c ... Database production | generation part, 11d ... Sample determination part, 11e ... Parameter control part, 12 ... Image pick-up part, 15 ... Operation determination part, 16 ... Recording part, 19 ... Communication part, 20 ... Interchangeable lens, 30 ... Eyepiece part, 31 ... Eyepiece display part, 35 ... Display part, 36 ... Touch panel, 37 ... Database recording part .

Claims (5)

An imaging unit that captures a subject image;
A display unit for displaying a captured image obtained by imaging with the imaging unit;
A designating unit for designating an image displayed on the display unit as a sample image and designating a position in the sample image and evaluating an image at the designated position;
An imaging apparatus comprising: a database generation unit that associates the designated position with an evaluation of an image at the position and creates a database for each sample image. The photographing apparatus according to claim 1, further comprising a recording unit that records the database generated by the database generation unit. The imaging device according to claim 1, further comprising: a communication unit that transmits the database generated by the database generation unit. The imaging device according to any one of claims 1 to 3, further comprising a control unit that controls the imaging unit according to a database generated by the database generation unit. An image processing unit that performs image processing on a captured image obtained by the imaging unit;
The imaging apparatus according to claim 4, wherein the control unit controls image processing of the image processing unit in accordance with the database generated by the database generation unit.

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