JP2004200950A - Imaging device and imaging control program - Google Patents

Abstract

An image capturing apparatus and an image capturing control program capable of improving a quick shooting property or capturing a desired image accurately.
A through image is displayed on a monitor (S101), and it is determined whether a multi-screen display mode is set (S102). If set, digital zoom processing is performed on the image data of the subject so as to have different angles of view, and a plurality of through images with different angles of view are displayed on the monitor in a multi-screen (S103). Further, it is determined whether or not any of the through images currently displayed on the monitor is selected (S108). If one of them is selected, the optical zoom is operated until the angle of view of the selected through image is reached, and the subject image is displayed on the monitor alone on the full screen (S109). Then, when the shutter button is operated, a photographing process (S113) and a recording process (S114) are executed.
[Selection] Fig. 2

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
[0002]
The present invention relates to an imaging apparatus and an imaging control program for displaying a through image of a subject on a multi-screen.
[0003]
[Prior art]
[0004]
2. Description of the Related Art Conventionally, an imaging apparatus that displays a through image of a subject on a multi-screen has been proposed. This digital camera (electronic still camera) displays the composition of the current view in the viewfinder screen, as well as the composition when the zooming position is changed and the composition when the camera is held vertically. indicate. Therefore, since it is possible to determine which composition is better by looking at the displayed plurality of screens, it is possible to instantaneously change the composition at the time of shooting and enter a shooting operation, thereby improving the quick shooting performance. (See, for example, Patent Document 1).
[0005]
[Patent Document 1]
Japanese Patent Publication No. 2002-152558
[0006]
[Problems to be solved by the invention]
[0007]
However, in such a conventional digital camera, since a plurality of through images having different angles of view and the like are displayed on a single finder screen in a multi-screen manner, each through image displayed on the finder screen is relatively displayed. It will be displayed small. For this reason, even if shooting is performed with reference to a desired through image from a plurality of through images displayed on the multi-screen, an undesired image different from an image assumed when referring to the through image displayed in a small size. May be photographed.
[0008]
In addition, the user has to determine the desired composition while comparing which composition is better, and then start a shooting operation to adjust the angle of view and the like so that the determined composition is obtained. Not something to do.
[0009]
Further, once a plurality of through images are displayed on the finder screen in a multi-screen, the angle of view of each through image cannot be changed. Therefore, there is little judgment material when making a judgment while comparing which composition is better, and a judgment for accurately photographing a desired image is made by referring to a small number of through images displayed on the multi-screen. I can't.
[0010]
The present invention has been made in view of such a conventional problem, and an object of the present invention is to provide an imaging apparatus and an imaging control program capable of improving quick shooting or accurately capturing a desired image.
[0011]
[Means for Solving the Problems]
[0012]
According to another aspect of the present invention, there is provided an imaging apparatus that captures an image of a subject and outputs image data, and a through-through of the subject based on the image data output from the imaging means. An image pickup apparatus comprising: a display unit that displays an image; a first display control unit that causes the display unit to display a plurality of through images having different angles of view on a multi-screen based on the image data; Selecting means for selecting one of a plurality of through images having different angles of view displayed on the multi-screen on the display means, and second displaying the through image having the angle of view selected by the selecting means on the display means alone Display control means.
[0013]
Therefore, when an operation for selecting one of a plurality of through images having different angles of view displayed on the multi-screen on the display unit is performed, a through image having an angle of view corresponding to the selection operation is displayed alone on the display unit. You. Therefore, the selected through image that has been displayed relatively small by the multi-screen display can be enlarged and displayed on the entire screen of the display unit by the single display, whereby the user can display the through image selected on the multi-screen. Whether or not the angle of view is a desired angle can be easily determined. As a result, the user can appropriately make a determination for capturing an image having a desired angle of view, and can capture an image having a desired angle of view.
[0014]
Moreover, when an operation for selecting one of a plurality of through images having different angles of view displayed on the multi-screen on the display means is performed, a through image having an angle of view corresponding to the selection operation is displayed alone on the display means. Therefore, if the photographing is performed as it is, the subject image having the angle of view can be photographed, thereby improving the quick shooting performance.
[0015]
Further, in the imaging apparatus according to the second aspect of the present invention, in a state where the through image having the selected angle of view is displayed alone on the display means, the imaging operation is performed in response to the imaging instruction. Recording control means for recording image data of a subject having the angle of view on a recording medium.
[0016]
Therefore, if a shooting instruction is given while a through image having an angle of view corresponding to the selection operation is displayed alone on the display means, image data of a subject having the angle of view is recorded on a recording medium, so that the Is further enhanced.
[0017]
Further, the imaging apparatus according to the third aspect of the present invention further comprises an optical zoom means for changing an angle of view of a subject image formed on the imaging means, and the second display control means By controlling the optical zoom means, a through image having the selected angle of view is displayed on the display means alone.
[0018]
Therefore, a through image having an angle of view according to the selection operation can be displayed by the zoom function of the optical zoom means, whereby a clear through image having a desired angle of view can be displayed. .
[0019]
Further, in the imaging device according to the invention of claim 4, in a state where the through image having the selected angle of view is displayed alone on the display means, the display means responds to a view angle change instruction. And a third display control unit that changes the angle of view of the through image displayed alone. Therefore, the angle of view of the through image including the selected angle of view can be further finely adjusted.
[0020]
According to a fifth aspect of the present invention, there is provided an imaging apparatus for imaging a subject and outputting image data, and a display for displaying a through image of the subject based on the image data output from the imaging means. Means for displaying a plurality of through images having different angles of view on a multi-screen on the display means based on the image data, and a multi-screen on the display means in response to an operation. Second display control means for simultaneously changing the angle of view of each of the plurality of displayed through images.
[0021]
Therefore, it is possible to easily change the angle of view of each of the plurality of through-images displayed on the multi-screen on the display means, and to display a plurality of through-images each having a different angle of view from the conventional one. Therefore, there is an extremely large amount of judgment material when making a judgment while comparing which angle of view is better, and as a result, the user makes a judgment for accurately photographing a desired image, and from the desired angle of view. Images can be taken. In addition, since the angle of view of each of the plurality of through images can be easily changed at the same time, the quick shooting can be improved.
[0022]
Further, in the image pickup apparatus according to the invention of claim 6, an image pickup means for picking up an object and outputting image data, and a display for displaying a through image of the object based on the image data output from the image pickup means Means for displaying a plurality of through images having different angles of view on the display unit based on the image data, and a plurality of through images having different angles of view are displayed on the display means. A recording control unit that performs a photographing operation in response to a photographing instruction in a multi-screen display state, and records image data of each subject having the different angle of view on a recording medium.
[0023]
Therefore, the image data of each subject is recorded by a shooting instruction in a state where a plurality of through images having different angles of view are displayed on the multi-screen, so that the quick shooting performance is improved.
[0024]
Further, in the image pickup apparatus according to the present invention, an image pickup means for picking up an object and outputting image data, and a display for displaying a through image of the object based on the image data output from the image pickup means Means for performing a plurality of different image processings on the image data, and displaying a plurality of through images, each of which has been subjected to the different image processing, on the display means in a multi-screen manner. Selecting means for selecting any one of a plurality of through images having different image processings displayed on the display means in a multi-screen according to an operation, and displaying the through image subjected to the image processing selected by the selecting means. Second display control means for displaying the information on the display means alone.
[0025]
Therefore, when an operation for selecting any one of a plurality of through images with different image processings displayed on the multi-screen on the display unit is performed, the through image of the image processing corresponding to the selection operation is displayed alone on the display unit. . Therefore, the selected through image that has been displayed relatively small by the multi-screen display can be enlarged and displayed on the entire screen of the display unit by the single display, whereby the user can display the through image selected on the multi-screen. It is possible to easily determine whether or not desired image processing has been performed. As a result, the user can appropriately make a determination for capturing a desired image, and capture an image on which desired image processing has been performed.
[0026]
In addition, when an operation for selecting any one of a plurality of through images having different image processings displayed on the multi-screen on the display means is performed, the through image formed by the image processing according to the selection operation is displayed alone on the display means. Therefore, if the photographing is performed as it is, it is possible to photograph the subject image on which the image processing has been performed, thereby improving the quick shooting performance.
[0027]
Further, in the imaging apparatus according to the invention of claim 8, in a state where the selected through-image subjected to the image processing is displayed alone on the display means, the image processing is performed in response to a shooting instruction. And a recording control means for executing a photographing operation with the image processing and recording the image data of the subject subjected to the image processing on a recording medium.
[0028]
Therefore, if a shooting instruction is given in a state where the through image of the image processing according to the selection operation is displayed alone on the display means, the image data of the subject on which the image processing has been performed is recorded on the recording medium. Sex is further enhanced.
[0029]
In the imaging apparatus according to the ninth aspect of the present invention, in a state where the through image subjected to the selected image processing is displayed alone on the display unit, the image processing apparatus responds to an image processing change instruction in response to the image processing change instruction. The image processing apparatus further includes third display control means for changing the image processing of the through image displayed alone on the display means. Therefore, the image processing of the through image subjected to the selected image processing can be further finely adjusted.
[0030]
Further, in the imaging apparatus according to the tenth aspect of the present invention, there is provided an imaging unit for imaging a subject and outputting image data, and a display for displaying a through image of the subject based on the image data output from the imaging unit. Means for performing a plurality of different image processings on the image data, and displaying a plurality of through images, each of which has been subjected to the different image processing, on the display means in a multi-screen manner. Second display control means for simultaneously changing the image processing of each of a plurality of through images displayed on the display means on a multi-screen according to an operation.
[0031]
Therefore, it is possible to easily change the image processing of each of the plurality of through-images displayed on the multi-screen on the display means, and to display the plurality of through-images each subjected to image processing different from the conventional one on the multi-screen. Therefore, there is an extremely large amount of information for making a determination while comparing which image processing is better, and as a result, the user makes a determination for properly capturing a desired image, and the desired image processing is performed. The applied image can be photographed. In addition, since the image processing of each of the plurality of through images can be easily changed at the same time, the quick shooting performance can be improved.
[0032]
In the imaging apparatus according to the eleventh aspect, the first display control unit performs a plurality of image processes with different adjustment amounts on the image data. The plurality of through images that have been subjected to multi-screen display are displayed on the display means on the display means, and the second display control means performs image processing of each of the plurality of through images displayed on the display means on the multi-screen in response to an operation. Change the adjustment amount at the same time.
[0033]
Therefore, it is possible to judge which adjustment amount is better while comparing, and the user can accurately determine the adjustment amount for photographing a desired image and photograph an image having the desired adjustment amount. Can be. In addition, since the adjustment amount of each of the plurality of through images can be easily changed at the same time, the quick shooting performance can be improved. Further, in the imaging apparatus according to the twelfth aspect, the first display control means performs a plurality of image processings with different adjustment amounts on the image data, respectively. The plurality of through images that have been applied are displayed on the display unit in a multi-screen manner, and the second display control unit performs image processing on each of the plurality of through-images displayed on the display unit in a multi-screen manner in accordance with an operation. Change the type at the same time.
[0034]
Therefore, it is possible to judge which adjustment amount is better while comparing, and the user can accurately determine the adjustment amount for photographing a desired image and photograph an image having the desired adjustment amount. Can be. In addition, since the type of image processing for each of the plurality of through images can be easily changed at the same time, quick shooting can be improved.
[0035]
Further, in the image pickup apparatus according to the invention of claim 13, an image pickup means for picking up an object and outputting image data, and a display for displaying a through image of the object based on the image data output from the image pickup means And a display control means for performing a plurality of different image processings on the image data, and displaying a plurality of through images each having been subjected to the different image processings on the display means on a multi-screen. In a state where a plurality of through images subjected to image processing are displayed on the display unit on a multi-screen, a shooting operation is performed in response to a shooting instruction, and image data of each subject subjected to the different image processing is obtained. A recording control unit for recording on a recording medium.
[0036]
Accordingly, the image data of each subject is recorded by a shooting instruction in a state where a plurality of through images having different image processings are displayed on a multi-screen, so that the quick shooting performance is improved.
[0037]
Further, in the image pickup apparatus according to the invention of claim 14, an image pickup means for picking up an object and outputting image data, and a display for displaying a through image of the object based on the image data output from the image pickup means Means for performing a plurality of image processings with different adjustment amounts on the image data, and displaying a plurality of through images, each of which has been subjected to the image processing with a different adjustment amount, on the display means in a multi-screen manner. The control means is provided. Therefore, a plurality of through images, each of which has been subjected to image processing with a different adjustment amount, can be displayed on the display means on a multi-screen.
[0038]
Further, the imaging apparatus according to the fifteenth aspect of the present invention includes a selection unit for selecting a type of image processing, and the display control unit controls a plurality of adjustment amounts in the image processing of the type selected by the selection unit. Are applied to the image data, and a plurality of through images, each of which has been subjected to the image processing with a different adjustment amount, are displayed on the display unit in a multi-screen. Therefore, it is possible to cause the display means to display a plurality of through images, each of which has been subjected to image processing of a type selected by the user and having different adjustment amounts, on the multi-screen.
[0039]
In the imaging apparatus according to the sixteenth aspect of the present invention, there is provided an imaging device for imaging a subject and outputting image data, and a display for displaying a through image of the subject based on the image data output from the imaging device. Display control means for performing a plurality of different types of image processing on the image data, and causing the display means to display a plurality of through images, each of which has been subjected to the different types of image processing, on a multi-screen. Is provided. Therefore, a plurality of through images, each of which has been subjected to different types of image processing, can be displayed on a multi-screen on the display means.
[0040]
According to a seventeenth aspect of the present invention, in the imaging control program, an imaging means for imaging a subject and outputting image data, and a through image of the subject is displayed based on the image data output from the imaging means. A first display control unit for displaying, on the display unit, a plurality of through images having different angles of view on a multi-screen based on the image data, the computer included in the imaging apparatus having a display unit; Selecting means for selecting one of a plurality of through images having different angles of view displayed on the multi-screen by the means, and a second display for displaying a through image having the angle of view selected by the selecting means on the display means alone Function as control means. Therefore, when the computer executes the processing in accordance with the program, the same operation and effect as those of the first aspect of the invention can be obtained.
[0041]
In the imaging control program according to the eighteenth aspect of the present invention, an imaging unit for imaging a subject and outputting image data, and displaying a through image of the subject based on the image data output from the imaging unit A first display control unit for displaying, on the display unit, a plurality of through images having different angles of view on a multi-screen based on the image data, the computer included in the imaging apparatus having a display unit; Means for simultaneously changing the angle of view of each of the plurality of through images displayed on the multi-screen. Therefore, when the computer executes the processing according to the program, the same operation and effect as the invention according to claim 4 can be obtained.
[0042]
In the imaging control program according to the nineteenth aspect of the present invention, an imaging means for imaging a subject and outputting image data, and displaying a through image of the subject based on the image data output from the imaging means. A display control means for displaying a plurality of through images having different angles of view on the display means on a multi-screen based on the image data, and a plurality of through images having different angles of view based on the image data; In a state where the multi-screen is displayed on the display unit, a photographing operation is performed in response to a photographing instruction, and the image forming apparatus functions as a recording controller that records image data of each subject having the different angle of view on a recording medium. Therefore, when the computer executes the processing according to the program, the same operation and effect as those of the invention according to claim 5 can be obtained.
[0043]
In the imaging control program according to the twentieth aspect, the imaging means for imaging the subject and outputting image data, and displays a through image of the subject based on the image data output from the imaging means. A computer having an image pickup apparatus having a display unit, performing a plurality of different image processings on the image data, and displaying a plurality of through images, each of which has been subjected to the different image processing, on the display unit in a multi-screen manner. Display control means, selection means for selecting one of a plurality of through images having different image processings displayed on the display means in a multi-screen manner in accordance with an operation, and the image processing selected by the selection means is performed. The display device is caused to function as second display control means for displaying the through image alone on the display means. Therefore, when the computer executes the processing in accordance with the program, the same operation and effect as the invention according to claim 6 can be obtained.
[0044]
According to the imaging control program of the present invention, an imaging means for imaging an object and outputting image data, and displaying a through image of the object based on the image data output from the imaging means. A computer having an image pickup apparatus having a display unit, performing a plurality of different image processings on the image data, and displaying a plurality of through images, each of which has been subjected to the different image processing, on the display unit in a multi-screen manner. The display control means and a second display control means for simultaneously changing image processing of each of the plurality of through images displayed on the display means on the multi-screen in accordance with an operation. Therefore, when the computer executes the processing in accordance with the program, the same operation and effect as the invention according to claim 8 can be obtained. In the imaging control program according to the invention of claim 22, an imaging means for imaging the subject and outputting image data, and displaying a through image of the subject based on the image data output from the imaging means. Display control means for performing a plurality of different image processes on the image data by a computer included in an imaging apparatus having a display means, and causing the display means to display a plurality of through images, each of which has been subjected to the different image processing, on a multi-screen. And performing a shooting operation in response to a shooting instruction in a state where a plurality of through-images subjected to the different image processing are displayed on the display unit in a multi-screen manner. Function as recording control means for recording the image data on the recording medium. Therefore, when the computer executes the processing in accordance with the program, the same operation and effect as those of the ninth aspect of the invention can be obtained.
[0045]
In the imaging control program according to the invention of claim 23, an imaging means for imaging an object and outputting image data, and displaying a through image of the object based on the image data output from the imaging means. A computer having an imaging device having a display means, performing a plurality of image processing with different adjustment amounts or types on the image data, and forming a plurality of through-images on which the image processing with different adjustment amounts or types are respectively performed. The display means functions as a display control means for displaying a multi-screen. Therefore, when the computer executes the processing according to the program, the same operation and effect as the invention according to the fourteenth and sixteenth aspects can be obtained.
[0046]
BEST MODE FOR CARRYING OUT THE INVENTION
[0047]
An embodiment of the present invention will be described below with reference to the drawings.
(First Embodiment)
FIG. 1 is a block diagram showing an electrical schematic configuration of an electronic still camera 1 common to each embodiment of the present invention. The electronic still camera 1 mainly includes an MPU 4 having an image processing function such as converting image data obtained by a CCD 3 constituting an imaging unit together with a zoom lens 2 and the like into a JPEG format. On the light receiving surface of the CCD 3, an optical image of the subject passing through the zoom lens 2, the focus lens 5, and the aperture 6 is formed.
[0048]
The zoom lens 2 is a lens group having a plurality of lenses and capable of changing the focal length (variable magnification) and correcting optical characteristics, and is held by a drive mechanism 7 including a zoom motor and the like. The MPU 4 outputs a control signal to the zoom driver 8 in response to an operation of a zoom key or the like, and the zoom driver 8 supplies a drive signal to the drive mechanism 7, whereby the zoom lens 2 is driven to zoom. The focus lens 5 is held by a drive mechanism 9 composed of an AF motor or the like, and is moved back and forth on the optical axis by a drive signal output from an AF driver 10 being supplied to the drive mechanism 9 by a control signal from the MPU 4. Is performed. The aperture 6 is driven by a drive signal generated by the aperture drive unit 11 based on a control signal from the MPU 4 to adjust the amount of a subject image incident on the CCD 3.
[0049]
Further, a TG (Timing Generator) 12 for generating a timing signal is connected to the MPU 4, and a V driver 13 (vertical driver) drives the CCD 3 based on the timing signal generated by the TG 12. An analog imaging signal corresponding to the luminance of the image is output and sent to the unit circuit 14. The unit circuit 14 converts a CDS holding an image signal output from the CCD 3, a gain adjustment amplifier (AGC) which is an analog amplifier to which the image signal is supplied from the CDS, and an image signal amplified and adjusted by the gain adjustment amplifier. An A / D converter (AD) for converting the image data into image data. The output signal of the CCD 3 is sampled by adjusting the black level here, and sent to the MPU 4 as a digital signal. The transmitted digital signal (imaging signal) is temporarily stored in the DRAM 15, and is subjected to various image processing such as digital zoom processing, filter processing, white balance processing, and the like by the MPU 4, and finally to a compressed image. The signal is stored in a flash memory (FLASH) 16. The stored video signal is read by the MPU 4 as necessary, and is generated into a digital video signal or an analog video signal through processing such as expansion processing, addition of a luminance signal and a color signal, and the like.
[0050]
The MPU 4 further includes an MROM 17, a power supply circuit 18, various keys and switches such as a zoom key, a shutter button, a mode setting key, and a selection key for selecting any through image displayed on a multi-screen described later. A key section 19 and a TFT liquid crystal monitor 20 as display means are connected. The MROM 17 is a program ROM in which an operation program of the MPU 4 shown in a flowchart described later is recorded. The MROM 17 also stores program AE data forming a program diagram showing a combination of an aperture value (F) corresponding to an appropriate exposure value (EV) at the time of shooting and a shutter speed.
[0051]
The MPU 4 functions as a display control unit, a selection unit, a recording control unit, and the like of the present invention by operating according to the operation program using a built-in RAM as a working memory. Further, the charge setting time of the CCD 3, the opening degree of the aperture 6, the gain of the gain adjustment amplifier (AGC) of the unit circuit 14, and the like are set in accordance with the program diagram. The charge accumulation time set by the MPU 4 is supplied as a shutter pulse to the V driver 13 via the TG 12, and the V driver 13 drives the CCD 3 in accordance therewith, thereby controlling the charge accumulation time, that is, the exposure time. That is, the CCD 3 functions as an electronic shutter. The operation program stored in the MROM 17 includes a program relating to autofocus control. Based on the program, the MPU 4 drives the focus lens 5 to perform focusing (autofocus).
[0052]
In the photographing mode, the TFT liquid crystal monitor 20 displays sequentially captured images as a through image, which will be described later, or multi-screen display. In the reproduction mode, the TFT liquid crystal monitor 20 converts an analog video signal generated from image data recorded in the flash memory 16 into an analog video signal. Display video based on
[0053]
Note that the program data and the like stored in the above-described MROM 17 may be separately provided in a fixed manner or may be stored in another recording medium such as an IC card which can be detachably attached, if the recorded contents can be retained. The configuration may be such that the program data and the like can be supplied from another device such as a personal computer.
[0054]
Next, the operation of the electronic still camera 1 having the above configuration according to the first embodiment will be described. When the power switch is operated to turn on the power and the shooting mode is set by operating the mode setting key, the MPU 4 executes the procedure shown in the flowchart of FIG. Execute the process. That is, the subject image formed on the CCD 3 is displayed on the TFT liquid crystal monitor 20 as a through image on a full screen (step S101). At this time, the lens (zoom lens) 2 is set to the standard position by the drive mechanism 7, and the digital zoom function of the MPU 4 is maintained in the off state. Therefore, the image of the subject which has an angle of view of the standard magnification (1 × optical zoom value) and is formed by the zoom lens 2 and which has not been subjected to digital zoom processing is displayed on the TFT liquid crystal monitor 20 as a through image. .
[0055]
Next, it is determined whether or not the multi-screen display mode is set by operating a mode setting key provided on the operation key section 19 (step S102). If not set, the process proceeds to step S110 described later. . When the multi-screen display mode is set, digital zoom processing is performed on the image data of the subject from the unit circuit 14 so as to have different angles of view, as shown in FIG. Next, a plurality of through images "1", "2", "3", and "4" having different angles of view are displayed on the TFT liquid crystal monitor 20 in a multi-screen (step S103).
[0056]
Subsequently, it is determined whether or not an angle of view change operation has been performed, that is, whether or not the zoom key has been operated (step S104). If the zoom key has not been operated, it is determined whether or not the shutter button has been further operated (step S105). Then, when the shutter button is operated without operating the zoom key (step S105; YES), the captured image of the angle of view currently set to the through images “1”, “2”, “3”, and “4” ( The captured image data is generated and stored in the flash memory 16 (step S106).
[0057]
In generating the captured image data with a plurality of angles of view in step S106, either digital zoom or optical zoom may be used. That is, when digital zoom is used, one photographing process is executed to obtain one subject image data from the unit circuit 14, and the through images “1” and “2” are obtained from the obtained one subject image data. The image data of the angle of view currently set to “3” and “4” is generated, and these image data are stored and recorded in the flash memory 16. In the case of using the optical zoom, a control signal is output to the zoom driver 8 to drive the zoom lens 2 by the driving mechanism 7, and the zoom value is converted into through images “1”, “2”, “3”, and “4”. The value is sequentially changed to the value corresponding to the currently set angle of view, and each time the zoom value is changed, one image data of the subject is obtained from the unit circuit 14 and these image data are stored and recorded in the flash memory 16. .
[0058]
On the other hand, if the result of determination in step S104 is that a zoom operation has been performed, the angle of view of the through images "1", "2", "3", and "4" is slid by the zoom operation (step S107). That is, when the zoom-in operation is performed, the angle of view of all the through images “1”, “2”, “3”, and “4” is changed by an enlarged slide by the zoom-in operation, and when the zoom-out operation is performed, The angle of view of all the through images “1”, “2”, “3”, and “4” is reduced and changed by the zoom-out operation. Therefore, the angle of view of each of the plurality of through images “1”, “2”, “3”, and “4” displayed on the multi-screen of the TFT LCD monitor 20 can be easily reduced by a simple operation of operating the zoom key in the multi-screen display state. , A plurality of through images having different angles of view can be displayed on a multi-screen.
[0059]
Next, it is determined whether or not any of the through images “1”, “2”, “3”, and “4” currently displayed on the TFT liquid crystal monitor 20 has been selected by operating the selection key (step S108). , Is repeated until it is selected.
[0060]
Then, if any of the through images “1”, “2”, “3”, and “4” currently displayed on the TFT LCD monitor 20 is selected (step S108; YES), the angle of view of the selected through image Is output to the zoom driver 8 until the zoom lens 2 is set to the angle of view by the driving mechanism 7 and the subject image formed by the zoom lens 2 is displayed on the TFT LCD monitor 20 alone on the full screen. It is displayed (step S109). Therefore, when the through image “2” is selected in FIG. 3A, the through image at the angle of view of the through image “2” as shown in FIG. The entire screen is displayed on the TFT liquid crystal monitor 20 alone.
[0061]
Further, it is determined whether or not the zoom key has been operated (step S110). If the zoom key has been operated, the zoom lens 2 is caused to perform the zoom operation for the zoom operation in the same manner as described above (step S111). Therefore, in the present embodiment, after selecting a desired through image from among the through images having different angles of view displayed on the multi-screen and displaying the entire screen alone, the angle of view of the through image is further fine-tuned. You can also.
[0062]
Then, in step S112 following step S110 or step S111, it is determined whether or not the shutter button has been operated, and if the shutter button has been operated, the photographing process (step S113) and the recording process (step S114) are executed. I do. That is, the image pickup signal output from the CCD 3 is sent from the unit circuit 14 to the MPU 4 as a digital signal, subjected to necessary processing by the MPU 4, and finally stored in the flash memory 16 as a compressed video signal. The Rukoto.
[0063]
In the present embodiment, the processing in step S109 is performed by optical zoom, the zoom lens 2 is set to the angle of view, and the subject image formed by the zoom lens 2 is displayed on the TFT liquid crystal monitor 20. Although the entire screen is displayed independently, the digital zoom may be used alone. That is, the selected through image may be enlarged and displayed on the entire screen of the TFT liquid crystal monitor 20. Alternatively, the digital zoom and the optical zoom may be used in combination, and the image of the selected angle of view as the through image may be enlarged and displayed on the TFT liquid crystal monitor 20.
[0064]
(Second embodiment)
FIG. 4 shows a processing procedure of the MPU 4 according to the second embodiment of the present invention. In a state where the power switch is operated to turn on the power and the shooting mode is set by operating the mode setting key, the MPU 4 executes the procedure shown in the flowchart of FIG. Execute the process. That is, the subject image formed on the CCD 3 is displayed on the full-screen as a through image on the TFT liquid crystal monitor 20 (step S201). At this time, when a white balance is used as image processing as described below, a standard white balance of the MPU 4 is set. Therefore, a subject image formed by the zoom lens 2 and having a standard white balance is displayed on the TFT liquid crystal monitor 20 as a through image.
[0065]
Next, it is determined whether or not the multi-screen display mode is set by operating a mode setting key provided on the operation key unit 19 (step S202). If not set, the process proceeds to step S210 described later. . When the multi-screen display mode is set, the image data of the subject from the unit circuit 14 is subjected to different white balance processing, and the image processing (FIG. 5A) is performed. A plurality of through images “1”, “2”, “3”, and “4” having different white balances (for example, a through image that has been subjected to auto white balance adjustment, white balance has been adjusted to match sunlight, fluorescent light, shade of trees, etc. The through-the-lens image is displayed on the TFT liquid crystal monitor 20 as a multi-screen (step S203).
[0066]
Subsequently, it is determined whether or not an image processing (white balance) change operation has been performed, that is, whether or not a white balance adjustment key provided on the operation key unit 19 has been operated (step S204). If the white balance adjustment key has not been operated, it is determined whether or not the shutter button has been further operated (step S205). If the shutter button is operated without operating the white balance adjustment key (step S205; YES), the image processing currently set to the through images "1", "2", "3", and "4" ( A captured image (captured image data) of each (white balance) is generated and stored in the flash memory 16 (step S206).
[0067]
When each of the photographed image data having a different white balance is generated in step S206, one photographing process is executed to obtain one subject image data from the unit circuit 14, and the obtained one subject image data is obtained. Then, the image data of the white balance currently set for the through images “1”, “2”, “3”, and “4” is generated, and these image data are stored and recorded in the flash memory 16. Of course, similarly to the first embodiment, the photographing process may be performed a plurality of times while sequentially changing the white balance value, and the obtained plurality of image data may be stored and recorded in the flash memory 16.
[0068]
On the other hand, if the result of the determination in step S204 is that an image processing change operation has been performed, the slide processing of the image processing (white balance) of the through images “1”, “2”, “3”, and “4” is changed by the amount of the operation ( Step S207). Therefore, by a simple operation of operating the white balance adjustment key in the multi-screen display state, a plurality of through images “1”, “2”, “3” and “4” displayed on the multi-screen of the TFT LCD monitor 20 are displayed. By simply changing the balance, a plurality of through images each having a different white balance from before can be displayed on a multi-screen.
[0069]
Next, it is determined whether or not any of the through images “1”, “2”, “3”, and “4” currently displayed on the TFT LCD monitor 20 has been selected by operating the selection key (step S208). , Is repeated until the selection is made.
[0070]
If any of the through images “1”, “2”, “3”, and “4” currently displayed on the TFT LCD monitor 20 is selected (step S208; YES), the through image composed of the selected white balance is selected. The image is entirely displayed on the TFT liquid crystal monitor 20 alone (step S209). Therefore, when the through image “2” is selected in FIG. 5A, the through image formed by the white balance of the through image “2” as shown in FIG. Is displayed on the TFT liquid crystal monitor 20 alone on the full screen.
[0071]
Further, it is determined whether or not the white balance adjustment key has been operated (step S210). If the key has been operated, the image processing is changed by the amount of the operation, and the entire screen is displayed alone on the TFT LCD monitor 20. The white balance of the through image "2" is changed (step S211). Therefore, in the present embodiment, after selecting a desired through image from the through images of different white balances displayed on the multi-screen and displaying the entire screen alone, the white balance of the through image is further finely adjusted. You can also.
[0072]
Then, in step S212 following step S210 or step S211, it is determined whether or not the shutter button has been operated. If the shutter button has been operated, the photographing process (step S213) and the recording process (step S214) are executed. I do. That is, the imaging signal output from the CCD 3 is sent from the unit circuit 14 to the MPU 4 as a digital signal, and the MPU 4 performs the same white balance processing as the white balance of the through image “2” displayed on the full screen alone. After that, the video signal is finally stored in the flash memory 16 as a compressed video signal.
[0073]
In the present embodiment, the white balance has been described as the image processing, but the present invention is not limited to this, and it is needless to say that the present invention can be applied to other image processing such as filter processing. For example, blue, red. It is conceivable that a through image subjected to a filter such as black and white or sepia is displayed on a multi-screen, or a through image having different brightness, a degree of color enhancement, a degree of skin color correction, and a degree of contour enhancement is displayed on a multi-screen.
[0074]
Further, in the present embodiment, as a result of the determination in step S204 in FIG. 4, when an image processing change operation is performed, the white balance values (adjustment amounts) of a plurality of through images displayed on the multi-screen are changed by slide change. However, when an image processing change operation (or an operation of selecting a desired type of image processing) is performed, the image processing is switched to another type of image processing other than the white balance processing (for example, filter processing) and the other processing is performed. In the type of image processing, a plurality of through images having different image adjustment amounts may be displayed on a multi-screen. Further, a slide changing operation for changing the slide amount of the image processing (eg, white balance) adjustment for a plurality of through images displayed on the multi-screen and an image processing on the plurality of through images displayed on the multi-screen are performed separately. The image processing change operation for switching to the type of image processing may be made valid.
[0075]
In the present embodiment, a plurality of through images having different image adjustment amounts are displayed on a multi-screen in one type of image processing. However, a plurality of through images subjected to different types of image processing are displayed on a multi-screen. You may make it display on a screen. For example, in addition to displaying a plurality of through images having different degrees of applying a red filter (color density) on a multi-screen, a through image with a red filter, a through image with a blue filter, and the like may be displayed on a multi-screen. Can be
[0076]
In the first and second embodiments, when shooting is instructed in a state where a plurality of through images are displayed on a multi-screen, a plurality of shot image data corresponding to each through image is generated. However, after photographing, a plurality of photographed image data generated may be displayed on a multi-screen, and only the photographed image data selected by the user from among them may be recorded.
[0077]
In each of the first and second embodiments, the case where the present invention is applied to an electronic still camera has been described. However, the present invention is not limited to this. The present invention can be easily applied to a terminal, a PDA with a camera (Personal Digital Assistants: a personal digital assistant), a personal computer with a camera, and the like.
[0078]
【The invention's effect】
[0079]
As described above, according to the present invention, by performing an operation for selecting any one of a plurality of through images having different angles of view or image processing displayed on the multi-screen on the display unit, it is possible to respond to the selection operation. The through image can be displayed alone on the display means. Therefore, the selected through image, which has been displayed relatively small by the multi-screen display, can be displayed large on the entire screen of the display means by the single display, whereby the user can select the desired through image selected on the multi-screen. Can be determined. As a result, the user can accurately make a determination for capturing a desired image, and capture an image having a desired angle of view or an image on which desired image processing has been performed. In addition, when an operation for selecting one of a plurality of through images displayed on the multi-screen on the display unit is performed, the through image corresponding to the selection operation is displayed alone on the display unit, so that shooting can be performed as it is. For example, a subject image having the angle of view or a subject image on which the image processing has been performed can be photographed, whereby the quick shooting performance can be improved.
[0080]
Further, according to the present invention, since the angle of view or the image processing of each of the plurality of through images can be easily changed at the same time, it is possible to determine which angle of view or the image processing is better while comparing and judging which is better. As a result, the user can appropriately make a determination for capturing a desired image and capture an image having a desired angle of view or an image on which desired image processing has been performed. In addition, since the angle of view of each of the plurality of through images can be easily changed at the same time, the quick shooting can be improved.
[0081]
According to the present invention, image data of a plurality of subjects having different angles of view or image processing is recorded by a shooting instruction in a state where a plurality of through images having different angles of view or image processing are displayed on a multi-screen. Therefore, the quick shooting performance can be improved.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a circuit configuration of an electronic still camera common to each embodiment of the present invention.
FIG. 2 is a flowchart illustrating a processing procedure according to the first embodiment.
FIG. 3 is a display transition diagram in the embodiment.
FIG. 4 is a flowchart illustrating a processing procedure according to the second embodiment.
FIG. 5 is a display transition diagram in the embodiment.
[Explanation of symbols]
1 electronic still camera
2 Zoom lens
3 CCD
4 MPU
7 Drive mechanism
8 Zoom driver
9 Drive mechanism
12 TG
13 V driver
14 Unit circuit
15 DRAM
16 Flash memory
17 MROM
19 Operation key section
20 TFT LCD monitor

Claims (23)

An imaging apparatus comprising: an imaging unit that captures an image of a subject and outputs image data; and a display unit that displays a through image of the subject based on the image data output from the imaging unit.
First display control means for causing the display means to display a plurality of through images having different angles of view on the multi-screen based on the image data;
Selecting means for selecting any of a plurality of through images having different angles of view displayed on the display means in a multi-screen according to an operation;
An image pickup apparatus comprising: a second display control unit that causes the display unit to independently display a through image having an angle of view selected by the selection unit. In a state in which the through image having the selected angle of view is displayed alone on the display means, a shooting operation is performed in response to a shooting instruction, and image data of a subject having the angle of view is recorded on a recording medium. The imaging apparatus according to claim 1, further comprising a recording control unit. Further comprising an optical zoom means for changing the angle of view of the subject image formed on the imaging means,
The imaging apparatus according to claim 1, wherein the second display control unit controls the optical zoom unit to display a through image having the selected angle of view on a display unit alone. 4. apparatus. In a state where the through image having the selected angle of view is solely displayed on the display unit, a third angle of view of the through image that is solely displayed on the display unit is changed in response to an instruction to change the angle of view. The imaging apparatus according to claim 1, further comprising a display control unit. An imaging apparatus comprising: an imaging unit that captures an image of a subject and outputs image data; and a display unit that displays a through image of the subject based on the image data output from the imaging unit.
First display control means for causing the display means to display a plurality of through images having different angles of view on the multi-screen based on the image data;
An image pickup apparatus comprising: a second display control unit that simultaneously changes an angle of view of each of a plurality of through images displayed on a multi-screen on the display unit in accordance with an operation. An imaging apparatus comprising: an imaging unit that captures an image of a subject and outputs image data; and a display unit that displays a through image of the subject based on the image data output from the imaging unit.
Display control means for displaying a plurality of through images having different angles of view on the display means based on the image data,
In a state where a plurality of through images having different angles of view are displayed on the display means on a multi-screen, a shooting operation is performed in response to a shooting instruction, and image data of each subject having the different angle of view is recorded on a recording medium. An image pickup apparatus, comprising: a recording control unit for recording. An imaging apparatus comprising: an imaging unit that captures an image of a subject and outputs image data; and a display unit that displays a through image of the subject based on the image data output from the imaging unit.
A first display control unit that performs a plurality of different image processes on the image data, and causes the display unit to display a plurality of through images each having the different image processes displayed on the multi-screen;
Selecting means for selecting any one of a plurality of different through images of different image processing displayed on the display means in a multi-screen according to an operation;
An image pickup apparatus comprising: a second display control unit that causes the display unit to solely display a through image that has been subjected to the image processing selected by the selection unit. In a state in which the selected through-image subjected to the image processing is displayed alone on the display unit, a shooting operation involving the image processing is performed in response to a shooting instruction, and The imaging apparatus according to claim 7, further comprising a recording control unit that records the image data on a recording medium. In a state where the selected through-image subjected to the image processing is displayed alone on the display unit, the image processing of the through-image displayed alone on the display unit is changed in response to an image processing change instruction. The imaging device according to claim 7, further comprising a third display control unit. An imaging apparatus comprising: an imaging unit that captures an image of a subject and outputs image data; and a display unit that displays a through image of the subject based on the image data output from the imaging unit.
A first display control unit that performs a plurality of different image processes on the image data, and causes the display unit to display a plurality of through images each having the different image processes displayed on the multi-screen;
An image pickup apparatus comprising: a second display control unit that simultaneously changes image processing of each of a plurality of through images displayed on a multi-screen on the display unit in accordance with an operation. The first display control means performs a plurality of image processings with different adjustment amounts on the image data, and causes the display means to display a plurality of through images each having been subjected to the image processing with the different adjustment amounts on a multi-screen. ,
11. The imaging apparatus according to claim 10, wherein the second display control unit simultaneously changes an adjustment amount of image processing of each of a plurality of through images displayed on the display unit on a multi-screen according to an operation. apparatus. The first display control means performs a plurality of image processings with different adjustment amounts on the image data, and causes the display means to display a plurality of through images each having been subjected to the image processing with the different adjustment amounts on a multi-screen. ,
11. The imaging apparatus according to claim 10, wherein the second display control unit simultaneously changes the type of image processing for each of a plurality of through images displayed on the display unit on a multi-screen according to an operation. . An imaging apparatus comprising: an imaging unit that captures an image of a subject and outputs image data; and a display unit that displays a through image of the subject based on the image data output from the imaging unit.
Display control means for performing a plurality of different image processing on the image data, and displaying a plurality of through images each of which has been subjected to the different image processing on the display means on a multi-screen;
In a state in which the plurality of through images subjected to the different image processing are displayed on the display means on a multi-screen, a photographing operation is performed in response to a photographing instruction, and an image of each subject subjected to the different image processing is obtained. An image pickup apparatus comprising: a recording control unit that records data on a recording medium. An imaging apparatus comprising: an imaging unit that captures an image of a subject and outputs image data; and a display unit that displays a through image of the subject based on the image data output from the imaging unit.
The image processing apparatus further includes a display control unit that performs a plurality of image processings with different adjustment amounts on the image data, and causes the display unit to display a plurality of through images on which the image processings with the different adjustment amounts are respectively performed on a multi-screen. Imaging device. A selection unit for selecting a type of image processing;
The display control unit performs image processing of a plurality of different adjustment amounts in the image processing of the type selected by the selection unit on the image data, and a plurality of through-images each subjected to the image processing of the different adjustment amounts. The image pickup apparatus according to claim 14, wherein the display means displays a multi-screen on the display means. An imaging apparatus comprising: an imaging unit that captures an image of a subject and outputs image data; and a display unit that displays a through image of the subject based on the image data output from the imaging unit.
A plurality of types of image processing are respectively performed on the image data, and display control means for displaying a plurality of through images, each of which has been subjected to the different types of image processing, on the display means on a multi-screen is provided. apparatus. A computer having an imaging device including an imaging unit that captures an image of a subject and outputs image data, and a display unit that displays a through image of the subject based on the image data output from the imaging unit.
First display control means for causing the display means to display a plurality of through images having different angles of view on the multi-screen based on the image data;
Selecting means for selecting any of a plurality of through images having different angles of view displayed on the display means in a multi-screen according to an operation;
An imaging control program for causing a through image having an angle of view selected by the selection means to function as second display control means for individually displaying the through image on the display means. A computer having an imaging device including an imaging unit that captures an image of a subject and outputs image data, and a display unit that displays a through image of the subject based on the image data output from the imaging unit.
First display control means for causing the display means to display a plurality of through images having different angles of view on the multi-screen based on the image data;
An imaging control program for functioning as second display control means for simultaneously changing the angle of view of each of a plurality of through images displayed on a multi-screen on the display means in accordance with an operation. A computer having an imaging device including an imaging unit that captures an image of a subject and outputs image data, and a display unit that displays a through image of the subject based on the image data output from the imaging unit.
Display control means for displaying a plurality of through images having different angles of view on the display means based on the image data,
In a state where a plurality of through images having different angles of view are displayed on the display means on a multi-screen, a shooting operation is performed in response to a shooting instruction, and image data of each subject having the different angle of view is recorded on a recording medium. An imaging control program that functions as recording control means for recording. A computer having an imaging device including an imaging unit that captures an image of a subject and outputs image data, and a display unit that displays a through image of the subject based on the image data output from the imaging unit.
A first display control unit that performs a plurality of different image processes on the image data, and causes the display unit to display a plurality of through images each having the different image processes displayed on the multi-screen;
Selecting means for selecting any one of a plurality of different through images of different image processing displayed on the display means in a multi-screen according to an operation;
An imaging control program for causing a through image, which has been subjected to image processing selected by the selection means, to function as a second display control means for individually displaying the through image on the display means. A computer having an imaging device including an imaging unit that captures an image of a subject and outputs image data, and a display unit that displays a through image of the subject based on the image data output from the imaging unit.
A first display control unit that performs a plurality of different image processes on the image data, and causes the display unit to display a plurality of through images each having the different image processes displayed on the multi-screen;
An imaging control program for causing an image processing function to function as second display control means for simultaneously changing image processing of each of a plurality of through images displayed on a multi-screen on the display means in accordance with an operation. A computer having an imaging device including an imaging unit that captures an image of a subject and outputs image data, and a display unit that displays a through image of the subject based on the image data output from the imaging unit.
Display control means for performing a plurality of different image processing on the image data, and displaying a plurality of through images each of which has been subjected to the different image processing on the display means on a multi-screen;
In a state in which the plurality of through images subjected to the different image processing are displayed on the display means on a multi-screen, a photographing operation is performed in response to a photographing instruction, and an image of each subject subjected to the different image processing is obtained. An imaging control program for functioning as recording control means for recording data on a recording medium. A computer having an imaging device including an imaging unit that captures an image of a subject and outputs image data, and a display unit that displays a through image of the subject based on the image data output from the imaging unit.
A display control unit that performs a plurality of image processings with different adjustment amounts or types on the image data, and displays a plurality of through images on which the image processes with the adjustment amounts or types are differently displayed on the display unit on a multi-screen. An imaging control program characterized by functioning.

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