JP2004007168A - Electronic camera and program for auxiliary image display of image data file - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To generate a data file for each image so as to understand the positional relation of images to be joined in executing panoramic photographing by an electronic camera. <P>SOLUTION: This electronic camera records main image data 42P and auxiliary image data whose data size is smaller than that of the main image data 42P in an image data file in a photographic mode. An auxiliary image at panoramic photographing is made to correspond to the pertinent frame by arranging a thumbnail picture 42S corresponding to the pertinent frame and a thumbnail picture 41S corresponding to the previous frame. The arranging direction is set to be the moving direction from the previous frame. In a reproduction mode, when information indicating a panoramic picture is included in the image data file of the auxiliary image display frame, the electronic camera displays a plurality of thumbnail pictures 41S and 42S constituting the auxiliary image on an LCD monitor 21 ( figure 1), and surrounds the thumbnail picture 42S corresponding to the pertinent frame with a thick frame. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an electronic camera that captures a subject image by an imaging device, and a program that displays a sub-image of an image data file generated by the electronic camera.
[0002]
[Prior art]
2. Description of the Related Art There is known an image synthesizing apparatus that divides a subject that does not fit in one shooting screen into a plurality of images with an electronic camera, captures the images, combines the captured images, and combines them as one image. The plurality of images are captured so as to have an overlap area between the images. Japanese Patent Application Laid-Open No. 9-322059 discloses an image synthesizing apparatus that detects an overlapping portion of images and synthesizes the images when the user specifies the relative positional relationship between the upper, lower, left, and right of four images.
[0003]
[Problems to be solved by the invention]
In the above-described apparatus, the user specifies the relative positional relationship between the four images in the upper, lower, left, and right directions. When the image includes the outline of the subject, the relative positional relationship between the images is easy to understand, but when the image does not include the outline of the subject, the relative positional relationship between the images may not be known.
[0004]
An object of the present invention is to provide an electronic camera which generates a data file of each image so that the positional relationship between images to be joined can be understood, and a program for displaying a sub-image based on an image data file generated by the electronic camera. It is in.
[0005]
[Means for Solving the Problems]
(1) An electronic camera according to the first aspect of the present invention includes an imaging device and an Nth frame image captured by the imaging device so as to be combined with an (N-1) th frame image captured by the imaging device. A data file generating circuit for generating an N-th image data file, main image data of an N-th image in an N-th image data file, The above object is achieved by providing a control circuit for controlling the data file generation circuit so as to include the sub-image data.
(2) The electronic camera according to claim 1, further comprising file association means for associating N image data files generated by the data file generation circuit, and in this case, the control circuit includes N image data files. The data file generation circuit may be controlled to further include information indicating the association in each of the data files.
(3) In the electronic camera according to the first or second aspect, the sub-image data individually includes sub-image data of the (N-1) th frame image and sub-image data of the Nth frame image. You may.
(4) In the electronic camera according to the first or second aspect, the control circuit may further include the sub-image data of each of the first to (N-2) th frames in the Nth image data file. May control the data file generation circuit.
(5) In the electronic camera according to the fifth aspect of the present invention, an image pickup device and an Nth frame image picked up by the image pickup device so as to be combined with the (N-1) th frame image picked up by the image pickup device. A data file generating circuit for generating an N-th image data file, file associating means for associating the N image data files generated by the data file generating circuit, and a N-th image data file The object described above is achieved by providing a control circuit that controls the data file generation circuit so as to include the main image data and information indicating the association.
(6) In the electronic camera according to (5), the control circuit may be configured to further include the sub-image data of each of the (N-1) th frame and the Nth frame in the Nth image data file. The generation circuit may be controlled.
(7) In the electronic camera according to any one of (1) to (4) and (6), the control circuit controls the data file generation circuit so as to further include information indicating the position of the combination in the sub-image data. You may.
(8) In the electronic camera according to any one of claims 2, 5, and 6, the information indicating the association includes information indicating the number N of image data files associated with each other and the direction of combination. Good.
(9) The electronic camera according to any one of (1) to (4), (6) and (7), further comprising: an image signal generator for generating an image signal for displaying an image based on the sub-image data on a display device. A circuit, an operation member for selecting the image data file, and outputting the sub-image data included in the image data file selected by the operation member to the image signal generation circuit, and selecting among the sub-image data And a display control circuit that controls the image signal generation circuit to display information indicating an image corresponding to the image data file.
(10) In the electronic camera according to the tenth aspect of the present invention, an image pickup device and an Nth frame image picked up by the image pickup device so as to be combined with the (N-1) th frame image picked up by the image pickup device. A data file generating circuit for generating an N-th image data file, main image data of the N-th image, information indicating the N-th frame, and The above object is achieved by providing a control circuit for controlling the data file generation circuit so as to include the sub-image data.
(11) The electronic camera according to claim 10, further comprising file association means for associating N image data files generated by the data file generation circuit, and in this case, the control circuit includes N image data files. The data file generation circuit may be controlled to further include information indicating the association in each of the data files.
(12) In the electronic camera according to any one of the first to fourth, sixth, seventh, and ninth to eleventh aspects, the sub-image may be a thumbnail image.
(13) In the electronic camera according to any one of the second, fifth, sixth, eighth, and eleventh aspects, the data file generation circuit updates the information indicating the association for each imaging. Good.
(14) In the electronic camera according to any one of (1) to (13), the (N-1) th frame image and the Nth frame image may have an overlap area on at least one of them. In this case, it is preferable to combine the (N-1) th frame image and the Nth frame image in the direction of the overlap area.
(15) The invention according to claim 15, wherein the main image data of the Nth frame combined with the (N-1) th frame image and the respective images of the (N-1) th frame and the Nth frame This is applied to a sub-image display program for displaying a sub-image in an image data file including the sub-image data on a display device. A process of selecting one of the M image data files; a process of generating an image signal for displaying an image based on the sub-image data included in the selected image data file on a display device; By executing, by a computer, a process of further generating an image signal for displaying an image corresponding to the selected image data file in a different manner from images corresponding to other image data files, thereby achieving the above-described object. To achieve.
(16) The invention according to claim 16, wherein (N-1) the main image data of the N-th frame combined with the image of the N-th frame, the sub-image data of the N-th frame, and M images The present invention is applied to a sub-image display program for displaying a sub-image based on an image data file including data file association information on a display device. Then, a process of selecting one of the M image data files, an image based on the sub-image data included in the selected image data file, and an image included in the M image data files indicated by the association information A process of generating an image signal for displaying an image based on the sub-image data on a display device, and an image corresponding to an image data file selected from the display images being different from an image corresponding to another image data file The above-described object is achieved by executing, by a computer, a process of further generating an image signal to be displayed in an aspect.
(17) In the sub-image display program according to claim 15 or 16, the (N-1) -th frame image and the N-th frame image may have an overlap area in at least one of them. It is preferable to combine the (N-1) th frame image and the Nth frame image in the direction of the overlap area.
[0006]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
(First embodiment)
FIG. 1 is a block diagram illustrating an outline of an electronic camera according to the first embodiment of the present invention. The electronic camera includes an imaging device 11, an A / D conversion circuit 12, an image processing circuit 13, a timing generation circuit 14, a CPU 15, a RAM 16, a flash memory 17, an operation member 18, a display circuit 20, And an LCD monitor 21. The recording medium 19 is configured by a memory card or the like, and is detachable from the electronic camera.
[0007]
The CPU 15 controls the operation of the electronic camera. The electronic camera has a photographing mode for recording photographed image data on the recording medium 19 and a reproduction mode for reproducing and displaying an image based on the image data recorded on the recording medium 19 on the LCD monitor 21. Switching between the photographing mode and the reproduction mode is performed by operating a mode switching switch (not shown) of the operation member 18.
[0008]
-Shooting mode-
When the photographer operates the mode changeover switch to the photographing mode side, a mode changeover operation signal is sent to the CPU 15 from the mode changeover switch. The CPU 15 switches the electronic camera to a shooting mode. When the photographer operates a release button (not shown) constituting the operation member 18, the operation member 18 outputs a release operation signal to the CPU 15. When the release operation signal is input, the CPU 15 causes the electronic camera to start a shooting operation. The imaging element 11 accumulates signal charges according to the brightness of the subject image formed on the imaging surface. The signal charges accumulated in the image sensor 11 are discharged by a timing signal from a timing generation circuit 14 and are converted from an analog image signal into a digital signal by an A / D conversion circuit 12. The digitally converted signal is guided to an image processing circuit 13, where predetermined image processing such as contour compensation, gamma correction, and color temperature adjustment is performed. The data after the image processing is temporarily stored in the RAM 16.
[0009]
The image processing circuit 13 compresses the image data stored in the RAM 16 at a predetermined ratio by a method such as JPEG, generates main image data, and stores the main image data in the RAM 16. The image processing circuit 13 further generates thumbnail image data having a smaller data size than the main image data, and stores the generated thumbnail image data in the RAM 16. The CPU 15 converts the format of image data and image data information in the RAM 16 into TIFF format file data, and records the TIFF format data and the JPEG format data on the recording medium 19 as Exif files. The information of the image data includes the shooting date and time of the image, the shooting position, whether the image forms a panoramic image, the number of frames forming the panoramic image, and the moving direction from the previous frame in the panoramic image. Information is included. The panoramic image will be described later.
[0010]
A program executed by the CPU 15 is stored in the flash memory 17. The program stored in the flash memory 17 is configured to be rewritable in the case of an upgrade, for example. The RAM 16 is used as a temporary storage for the above-described image data and as a work area for the CPU 15.
[0011]
The panoramic image will be described. A panoramic image is a single image obtained by seamlessly connecting a plurality of continuous images. FIG. 2 is a diagram illustrating a panoramic image. In FIG. 2, a panorama image 24 is composed of three images 21 to 23. When the photographer operates a panorama shooting button (not shown) of the operation member 18, the CPU 15 converts the image data of a plurality of frames shot until the panorama shooting button is operated again as image data constituting a panorama image. handle.
[0012]
The CPU 15 captures the first frame image 21, the second frame image 22, and the third frame image 23 in response to the release operation by the photographer, and converts the image data corresponding to each captured frame into the above-mentioned Exif. The information is recorded on the recording medium 19 in a file format. The photographer captures image data corresponding to the images 21 to 23 in the recording medium 19 into a personal computer or the like, and performs a combining process on the images 21 to 23 using a well-known panoramic image synthesizing program. A panoramic image 24 synthesized with the image is obtained.
[0013]
The present invention is characterized in that an image data file generated by the above-described electronic camera when shooting a plurality of frames for a panoramic image. In the first embodiment, among a plurality of frames constituting a panoramic image, a thumbnail image corresponding to a photographed frame and a thumbnail image corresponding to a frame immediately preceding the frame are arranged as a thumbnail image of the frame. .
[0014]
FIG. 3 is a flowchart illustrating the flow of the panoramic photographing process performed by the CPU 15. The process shown in FIG. 3 is repeated when the main switch of the electronic camera is turned on and the camera is set to the shooting mode. In step S1 of FIG. 3, the CPU 15 determines whether or not to start the panorama shooting mode. The CPU 15 makes an affirmative determination in step S1 when an operation signal is input from a panorama shooting button (not shown) of the operation member 18 and proceeds to step S2, and proceeds to step S1 when an operation signal is not input from the panorama shooting button. A negative determination is made and the process proceeds to step S8.
[0015]
The case of proceeding to step S2 is a case of starting a panorama image shooting mode, that is, a panorama shooting mode. In step S2, the CPU 15 determines whether or not shooting is to be performed. When an operation signal is input from a release button (not shown) of the operation member 18, the CPU 15 makes an affirmative determination in step S2, starts the above-described shooting operation, and proceeds to step S3. On the other hand, when the operation signal is not input from the release button, the CPU 15 makes a negative determination in step S2, and repeats the determination processing in step S2.
[0016]
In step S3, the CPU 15 performs main image data generation processing, and proceeds to step S4. In step S4, the CPU 15 performs a sub-image data generation process, and proceeds to step S5. FIG. 4 is a diagram illustrating main image data and sub image data. Image 41P shows the main image of the first frame in the panorama shooting mode. The image 42P shows the main image of the second frame in the panorama shooting mode. Similarly, an image 43P shows the main image of the third frame in the panorama shooting mode. The image 41S is a thumbnail image having a smaller data size than the main image 41P of the first frame. The image 42S is a thumbnail image having a smaller data size than the main image 42P of the second frame. The image 43S is a thumbnail image having a smaller data size than the main image 43P of the third frame.
[0017]
The CPU 15 forms a sub-image corresponding to the frame by arranging the thumbnail image corresponding to the shot frame and the thumbnail image corresponding to the frame preceding the frame. The direction in which the thumbnail images are arranged is a moving direction from a previous frame to be described later. Since there is no thumbnail image corresponding to the previous frame, the sub-image data corresponding to the first frame includes only the thumbnail image corresponding to the first frame.
[0018]
In step S5, the CPU 15 performs a folder generation process, and proceeds to step S6. FIG. 5 is a flowchart illustrating the folder generation processing. In step S51, the CPU 15 determines whether or not the first frame is shot in the panorama shooting mode. The CPU 15 makes an affirmative decision in step S51 when taking the first frame, proceeds to step S52, and makes a negative decision in step S51 when taking the second and subsequent frames, and terminates the processing in FIG. Proceed to step S6. In step S52, the CPU 15 creates a new folder, ends the processing in FIG. 5, and proceeds to step S6 in FIG.
[0019]
FIG. 6 is a diagram illustrating a folder structure for recording a data file. In FIG. 6, a folder “DCIM” is generated under the root directory “ROOT”, and folders “100ABCDE”, “101ABCDE”, and “102ABCDE” for normal shooting are created under the folder “DCIM”. Has been generated. The folder for normal shooting is a folder for recording an image data file that is not panoramic shooting.
[0020]
On the other hand, folders “103PANOR” and “104PANOR” for panoramic photography are generated under the folder “DCIM”. The panorama shooting folder is a folder for recording image data files constituting a panoramic image. In the present embodiment, the CPU 15 assigns one folder to one panoramic image. Therefore, the CPU 15 generates a new folder for the first frame in the panorama shooting mode and sets it as a folder for panoramic images. As for the folder name, the numerical value of “***” in the name “*** PANOR” is renewed every time the panorama shooting is performed.
[0021]
The folder structure as shown in FIG. 6 is defined by a DCF (Design rule for camera file system) and is consistent with a structure called a DOS used in a system that handles a storage device such as a personal computer. As a result, image data captured by the electronic camera can be imported to a personal computer or the like and displayed on a monitor screen of the personal computer.
[0022]
In step S6 of FIG. 3, the CPU 15 performs a process of recording an image data file on the recording medium 19 such as a memory card, and proceeds to step S7. In recording an image data file at the time of panoramic photography, a data file of the photographed image is recorded in the panoramic photography folder generated in step S5. The image data file includes the above-described main image data, sub-image data, information on the shooting date and time of the image of the frame, information on the shooting position (position information by GPS), information indicating a panoramic image, and a panoramic image. Information on the number of frames and information on the direction of movement from the previous frame in the panoramic image are included.
[0023]
The information on the shooting date and time is generated by a clock built in the CPU 15. As the information on the shooting position, position information generated by a GPS device (not shown) is used. As the information indicating the panorama shooting, for example, a panorama flag value set when the CPU 15 makes an affirmative determination in step S1 is used. The information on the number of frames forming the panoramic image indicates the number of frames shot in the panoramic shooting mode. The information on the number of frames is updated and recorded for each image data file in the same folder that forms a panoramic image each time the image is shot in the panoramic shooting mode. For example, when the image of the third frame is photographed, the frame number information is updated retroactively to the image data file of the first frame as well as the frame number information in the image data file of the second frame. As the information of the direction in which the panorama image has moved from the previous frame, information indicating the direction instructed by the photographer is used.
[0024]
The moving direction from the previous frame will be described. The panoramic image 24 in FIG. 2 is composed of three images 21 to 23, each of which is photographed by moving the object field rightward during photographing. When the photographer operates the panorama shooting button (not shown) at the time of panorama shooting, the photographer further operates the cross switch (not shown) to instruct the moving direction with respect to the previous frame. The cross switch constituting the operation member 18 is configured to output operation signals indicating up, down, left, and right directions according to the operation by the photographer. The images 21 to 23 illustrated in FIG. 2 are obtained after the photographer operates the cross switch to the right. The CPU 15 sets any one of the up, down, left, and right directions corresponding to the operation signal input from the cross switch before the determination processing in step S2 in FIG. 3 as the movement direction from the previous frame. Then, information indicating this direction is included in the image data file and recorded.
[0025]
In step S7, the CPU 15 determines whether or not to end the panorama shooting mode. When an operation signal is input again from a panorama shooting button (not shown) of the operation member 18, the CPU 15 makes an affirmative determination in step S7, resets the panorama flag, and ends the processing in FIG. When an operation signal is not input from the panorama shooting button, the CPU 15 makes a negative determination in step S7 and returns to step S2. To return to step S2, the next frame constituting the panoramic image is photographed.
[0026]
The case where a negative determination is made in step S1 and the process proceeds to step S8 is a case where normal shooting is performed instead of panoramic shooting. In step S8, the CPU 15 determines whether or not shooting is to be performed. When an operation signal is input from a release button (not shown) of the operation member 18, the CPU 15 makes an affirmative determination in step S8, starts the above-described shooting operation, and proceeds to step S9. On the other hand, when the operation signal is not input from the release button, the CPU 15 makes a negative determination in step S8, and ends the processing in FIG.
[0027]
In step S9, the CPU 15 performs main image data generation processing, and proceeds to step S10. In step S10, the CPU 15 performs a sub-image data generation process, and proceeds to step S11. In this case, the sub-image is composed of only a thumbnail image having a smaller data size than the main image of the shot frame.
[0028]
In step S11, the CPU 15 performs a process of recording the image data file on the recording medium 19 such as a memory card, and ends the process in FIG. In recording an image data file at the time of normal photographing, the image data file is recorded in a normal photographing folder generated in advance separately from the processing shown in FIG. The normal shooting folder is newly generated when the photographer performs a folder generation operation or when the number of image data files recorded in the folder exceeds a predetermined number. The image data file records the above-described main image data, sub-image data, information on the shooting date and time of the image of the frame, information on the shooting position (position information by GPS), and information indicating that the image is not a panoramic image. I do. For information that is not a panoramic image, an unset panorama flag value is used. The process of generating the normal shooting folder and the process of specifying the folder in which the image data file is recorded when there are a plurality of normal shooting folders are performed in advance separately from the process of FIG.
[0029]
-Playback mode-
When the photographer operates a mode changeover switch (not shown) constituting the operation member to the reproduction mode, a mode changeover operation signal is sent from the mode changeover switch to the CPU 15. The CPU 15 switches the electronic camera to the reproduction mode, reads sub-image data from the image data file recorded on the recording medium 19, and outputs a command to the display circuit 20 to display the sub-image on the LCD monitor 21. The display circuit 20 generates an image signal for displaying a thumbnail using the sub-image data, and outputs the image signal to the LCD monitor 21. Thereby, the LCD monitor 21 reproduces and displays the sub-image shown in FIG.
[0030]
The sub-image first displayed on the LCD monitor 21 after the electronic camera is switched to the playback mode is the sub-image corresponding to the frame with the latest shooting date and time among the image data files recorded on the recording medium 19. . To switch the frame of the sub-image to be displayed, the photographer operates the above-mentioned cross switch (not shown) to select. When the cross switch is operated to the left, the CPU 15 causes the LCD monitor 21 to display the sub-image corresponding to the frame immediately before the frame corresponding to the sub-image currently being displayed. When the cross switch is operated to the right, the CPU 15 causes the LCD monitor 21 to display a sub-image corresponding to a frame immediately after the frame corresponding to the sub-image currently being displayed.
[0031]
When information indicating a panorama image is included in the image data file corresponding to the frame selected by the cross switch, the CPU 15 displays the thumbnail image corresponding to the frame in a manner different from other thumbnail images. Instruct circuit 20. The display circuit 20 generates an image signal so as to surround the thumbnail image corresponding to the frame with a thick frame among the thumbnail images constituting the sub-image, and outputs the image signal to the LCD monitor 21. The example in FIG. 4 shows that when the first frame is selected by the cross switch, the thumbnail image 41S is displayed in a thick frame. Also, it indicates that when the second frame is selected by the cross switch, the thumbnail image 42S is displayed with a thicker frame than the thumbnail image 41S. Similarly, when the third frame is selected by the cross switch, the thumbnail image 42S is displayed as a thicker frame than the thumbnail image 41S.
[0032]
When the image data file of the frame selected by the cross switch does not include information indicating a panoramic image, the CPU 15 does not instruct the display circuit 20 to generate an image signal that encloses the thumbnail image corresponding to the frame with a thick frame. .
[0033]
The first embodiment described above will be summarized.
(1) In the photographing mode, the electronic camera records main image data and sub-image data having a smaller data size than the main image data in an image data file. As a sub-image at the time of panorama shooting, a thumbnail image corresponding to a shot frame and a thumbnail image corresponding to a frame immediately before the frame are arranged as a sub-image corresponding to the frame. The direction of arrangement is the direction moved from the previous frame. Therefore, by reading the sub-image data from the image data recorded in the image data file, the relative positional relationship between the image of the previous frame and the image of the previous frame can be known. If the sub-image is composed of only one frame of thumbnail image, it is not known which part of the panorama image the frame corresponds to. However, as in the present embodiment, the sub-image is arranged side by side with the thumbnail image of the previous frame. , The positional relationship with the image of the previous frame can be understood. The example of the sub-image in FIG. 4 indicates that the image of the second frame has been moved to the right with respect to the image of the first frame, and has been photographed. Indicates that the image was moved to. In addition, since sub-image data is read instead of main image data, the time required for data reading can be reduced as compared with the case where main image data is read.
(2) In the playback mode, when information indicating a panoramic image is included in the image data file of a frame to display a sub image in the playback mode, the electronic camera displays a plurality of thumbnail images constituting the sub image on the LCD monitor 21, The thumbnail image corresponding to the frame is surrounded by a thick frame. As a result, for example, when the second frame is selected by the cross switch, the thumbnail image 42S is displayed in a thicker frame than the thumbnail image 41S as shown in FIG. Can be displayed in an easy-to-understand manner.
[0034]
Instead of enclosing the thumbnail image corresponding to the frame selected in the reproduction mode with a thick frame, the frame may be displayed in a different color.
[0035]
Instead of displaying the thumbnail image corresponding to the frame selected in playback mode with a thick frame, the thumbnail image corresponding to the selected frame among the multiple thumbnail images arranged in the recording mode is surrounded by a thick frame. The sub-image may be generated above. In this case, it is unnecessary to surround the thumbnail image corresponding to the frame selected at the time of reproduction with a thick frame.
[0036]
In the example of the sub-image in FIG. 4, an example has been described in which the image of the second frame is located on the right side of the first frame, and the image of the third frame is further located on the right side of the second frame. Alternatively, panoramic shooting may be performed such that the image of the second frame is positioned above the first frame and the image of the third frame is positioned further above the second frame. In the sub mode displayed on the LCD monitor 21 in the playback mode in this case, the image of the second frame is located above the first frame, and the image of the third frame is located further above the second frame. I do.
[0037]
Panorama shooting may be performed such that the image of the second frame is located on the left side of the first frame and the image of the third frame is located on the upper side of the second frame. In the sub mode displayed on the LCD monitor 21 in the reproduction mode in this case, the image of the second frame is located on the left with respect to the first frame, and the image of the third frame is located on the upper side with respect to the second frame. .
[0038]
In the above description, the thumbnail image corresponding to the shot frame and the thumbnail image corresponding to the frame immediately before the frame are arranged to generate one sub-image data corresponding to the frame. Instead, first sub-image data composed of a thumbnail image corresponding to a shot frame and second sub-image data composed of a thumbnail image corresponding to a frame immediately preceding the frame are separately generated. May be. In this case, a plurality of sub-image data are recorded in the image data file.
[0039]
Also, instead of generating the sub-image data corresponding to the frame with the thumbnail image corresponding to the frame taken and the thumbnail image corresponding to the frame immediately before the frame, a thumbnail image corresponding to the frame taken, The sub-image data corresponding to the frame may be generated with the thumbnail image corresponding to the frame immediately after the frame. In this case, the sub-image data corresponding to the last frame constituting the panoramic image is composed of only the thumbnail image corresponding to the last frame since there is no thumbnail image corresponding to the subsequent frame.
[0040]
(Second embodiment)
In the second embodiment, of a plurality of frames constituting a panoramic image, a thumbnail image corresponding to a photographed frame, a thumbnail image corresponding to all frames preceding the frame, and a thumbnail image corresponding to the frame. I do. FIG. 7 is a diagram illustrating main image data and sub image data according to the second embodiment. Image 71P shows the main image of the first frame in the panorama shooting mode. Image 72P shows the main image of the second frame in the panorama shooting mode. Similarly, the image 73P shows the main image of the third frame in the panorama shooting mode. The image 71S is a thumbnail image having a smaller data size than the main image 71P of the first frame. The image 72S is a thumbnail image having a smaller data size than the main image 72P of the second frame. The image 73S is a thumbnail image having a smaller data size than the main image 73P of the third frame.
[0041]
The CPU 15 arranges the thumbnail images corresponding to the shot frame and the thumbnail images corresponding to all frames preceding the frame to form a sub-image corresponding to the frame. The direction in which the thumbnail images are arranged when forming the sub-images is the same as in the first embodiment. That is, the CPU 15 uses the information indicating one of the up, down, left, and right directions input from the cross switch before the determination process in step S2 of FIG. decide. The sub-image illustrated in FIG. 7 indicates that the image of the second frame has been moved to the right with respect to the image of the first frame and photographed, and the image of the third frame has been further shifted to the right of the image of the second frame. To indicate that the image was taken.
[0042]
The sub-image to be reproduced and displayed on the LCD monitor 21 in the reproduction mode is an image based on the sub-image data recorded in the image data file. In the example of FIG. 7, all frames preceding the current frame are located such that the image of the second frame is located on the right side of the first frame, and the image of the third frame is located further on the right side of the second frame. The thumbnail images corresponding to are displayed side by side. The display circuit 20 generates an image signal so as to surround the thumbnail image corresponding to the frame with a thick frame among the thumbnail images constituting the sub-image, as in the first embodiment.
[0043]
According to the second embodiment described above, in addition to the first embodiment, a thumbnail image corresponding to a shot frame and thumbnail images corresponding to all frames preceding the frame are arranged and arranged in the frame. The corresponding sub-image was used. Thus, by reading the sub-image data from the data recorded in the image data file, it is possible to know the positional relationship of the frame with respect to all frames preceding the frame forming the panoramic image.
[0044]
In the description of the second embodiment, a thumbnail image corresponding to a shot frame and thumbnail images corresponding to all frames preceding the frame are arranged to generate one sub-image data corresponding to the frame. did. Instead, first sub-image data composed of a thumbnail image corresponding to the shot frame, second sub-image data composed of a thumbnail image corresponding to the frame immediately preceding the frame, and one more Sub-image data such as third sub-image data composed of thumbnail images corresponding to the previous frame and so on may be separately generated. In this case, a plurality of sub-image data are recorded in the image data file.
[0045]
In the above-described second embodiment, the sub-image data corresponding to the last frame constituting the panorama image includes the largest number of thumbnail images corresponding to other frames. Therefore, the sub-image data corresponding to all the frames constituting the panoramic image may be generated using the thumbnail image data corresponding to all the frames constituting the panoramic image. In this case, the thumbnail images of the entire panoramic image can be included in the sub-images of any frames constituting the panoramic image.
[0046]
(Third embodiment)
In the third embodiment, among a plurality of frames forming a panoramic image, information indicating the direction in which the shot frame has moved from the previous frame is embedded in the thumbnail image corresponding to the previous frame. FIG. 8 is a diagram illustrating main image data and sub image data according to the third embodiment. Image 81P shows the main image of the first frame in the panorama shooting mode. An image 82P shows the main image of the second frame in the panorama shooting mode. Similarly, an image 83P shows the main image of the third frame in the panorama shooting mode. The image 81S is a thumbnail image having a smaller data size than the main image 81P of the first frame. The image 82S is a thumbnail image having a smaller data size than the main image 82P of the second frame. The image 83S is a thumbnail image having a smaller data size than the main image 83P of the third frame.
[0047]
The CPU 15 forms a sub-image corresponding to the frame by arranging the thumbnail images corresponding to the shot frame and the thumbnail images corresponding to all frames preceding the frame. The direction in which the thumbnail images are arranged is all right. At this time, the CPU 15 embeds a mark indicating the direction in which the frame has moved from the immediately preceding frame in the thumbnail image of the immediately preceding frame. In the example of FIG. 8, an arrow mark 82A is embedded in the thumbnail image 81S, and an arrow mark 83A is embedded in the thumbnail image 82S. The direction indicated by the arrow marks 82A and 83A matches one of the upper, lower, left, and right directions input from the cross switch before the determination processing in step S2 of FIG. 3, that is, the moving direction of the frame with respect to the immediately preceding frame. . The arrow mark 82A indicates that the image of the second frame is located on the right side with respect to the first frame, and the arrow mark 83A indicates that the image of the third frame is located above the second frame.
[0048]
The sub-image to be reproduced and displayed on the LCD monitor 21 in the reproduction mode is a rightward horizontal thumbnail image recorded in the image data file. When the CPU 15 instructs the display circuit to display an image using the sub-image data, the sub-image shown in FIG. At this time, similarly to the first and second embodiments, the display circuit 20 outputs the image signal so that the thumbnail image corresponding to the frame among the thumbnail images constituting the sub-image is surrounded by a thick frame. Generate.
[0049]
According to the third embodiment described above, similar to the second embodiment, by reading the sub-image data from the image data recorded in the image data file, the corresponding The positional relationship of the frame with respect to all frames before the frame can be known. Furthermore, since the sub-images can always be rightward side-by-side thumbnail images, the direction in which the sub-images are lined up can be aligned regardless of the shooting direction during panoramic shooting.
[0050]
(Fourth embodiment)
FIG. 9 is a diagram illustrating main image data and sub image data according to the fourth embodiment. The image 91P shows the main image of the first frame in the panorama shooting mode. The image 91S is a thumbnail image having a smaller data size than the main image 91P of the first frame.
[0051]
The CPU 15 sets a thumbnail image corresponding to the shot frame as a sub-image corresponding to the frame. At this time, the CPU 15 embeds the number of frames indicating the number of the thumbnail image in panorama shooting in the thumbnail image. In the example of FIG. 9, “(1)” indicating the first frame is embedded in the sub-image 91S.
[0052]
The sub-image reproduced and displayed on the LCD monitor 21 in the reproduction mode is a thumbnail image recorded in the image data file. When the CPU 15 instructs the display circuit 20 to display an image based on the sub-image data, the thumbnail image 91S shown in FIG.
[0053]
According to the fourth embodiment described above, by reading the sub-image data from the image data recorded in the image data file, it is possible to determine the number of the frame taken in the panoramic shooting. You can know.
[0054]
Instead of the number of frames to be embedded in the thumbnail image, the number of frames / total number of frames may be embedded. For example, when the number of frames (the total number of frames) constituting the panoramic image is 3, “(１ ／)” is embedded in the thumbnail image of the first frame. In this case, every time the image is shot in the panoramic shooting mode, the embedded contents are updated and recorded for all the image data files in the same folder that constitute the panoramic image. For example, when the image of the third frame is photographed, the embedding contents are updated by going back to the sub image of the first frame as well as the sub image of the second frame. By embedding the number of frames / total number of frames in the sub-image, if the sub-image data is read from the image data recorded in the image data file, the number of frames corresponding to the total number of You can know if the photo was taken.
[0055]
In the first and second embodiments described above, “information of the direction moved from the previous frame” in panoramic shooting, that is, input from the cross switch before the determination processing in step S2 of FIG. 3 A plurality of thumbnail images are arranged to generate a sub-image according to information indicating one of the up, down, left, and right directions. The direction in which the thumbnail images are arranged is the direction indicated by the input information by the cross switch. In the third embodiment, a sub-image is generated by embedding an arrow mark in the direction indicated by input information from the cross switch in the thumbnail image of the immediately preceding frame. As described above, when the sub-image is generated using the “information of the direction moved from the previous frame”, the “information of the direction moved from the previous frame” is obtained from the information of the image data recorded in the image data file. May be omitted.
[0056]
(Fifth embodiment)
When recording “information on the direction moved from the previous frame” in the information of the image data, the following may be performed. In the recording mode, the CPU 15 records “information of the direction moved from the previous frame” in the information of the image data to be recorded in the image data file, and corresponds to the main image of the frame as sub-image data of each image data file. Only the thumbnail image to be recorded is recorded. The main image data, the information on the shooting date and time of the image of the frame, the information on the shooting position (position information by GPS), the information indicating the panoramic image, and the information on the number of frames forming the panoramic image are respectively described in the first embodiment. The information is recorded in the same manner as in the first to third embodiments.
[0057]
In the reproduction mode, the CPU 15 arranges a plurality of thumbnail images at the timing of reproduction and display on the LCD monitor 21 and generates a display image on the LCD monitor 21. FIG. 10 is a flowchart illustrating the flow of the sub-image display process performed by the CPU 15. The program that performs the processing in FIG. 10 starts when the electronic camera is switched to the playback mode. In step S101, the CPU 15 sets the read frame number N to the last frame number with the latest image capturing date and time, and proceeds to step S102.
[0058]
In step S102, the CPU 15 opens the image data file of the Nth frame recorded on the recording medium 19, reads out the sub image data and "information on the direction moved from the previous frame", and proceeds to step S103. In step S103, the CPU 15 opens the image data file of the immediately preceding (N-1) th frame, reads out the sub image data, and proceeds to step S104.
[0059]
In step S104, the CPU 15 causes the display circuit 20 to display the thumbnail images corresponding to (N-1) frames and the thumbnail images corresponding to N frames side by side according to the "information of the direction moved from the previous frame". , And the process proceeds to step S105. In step S105, the CPU 15 outputs an instruction to the display circuit 20 to surround the thumbnail images corresponding to N frames with a thick frame, and proceeds to step S106. Thereby, the sub image illustrated in FIG. 4 is displayed on the LCD monitor 21.
[0060]
In step S106, the CPU 15 determines whether or not there is a frame designation. When an operation signal indicating left and right is input from a cross switch (not shown) constituting the operation member 18, the CPU 15 makes an affirmative determination in step S <b> 106, proceeds to step S <b> 108, and performs an operation indicating left and right from the cross switch (not shown). If no signal is input, step S106 is negatively determined, and the process proceeds to step S107.
[0061]
In step S107, the CPU 15 determines whether to end the processing in FIG. When an operation signal is input from the mode changeover switch, the CPU 15 makes an affirmative decision in step S107 and ends the processing in FIG. When an operation signal has not been input from the mode switch, the CPU 15 makes a negative determination in step S107, and returns to step S106.
[0062]
In step S108, the CPU 15 sets the designated frame number as the read frame number N. The CPU 15 decrements the value of N by one according to the operation signal when the operation signal from the cross switch indicates the left direction, and decrements the value of N by one according to the operation signal when the operation signal indicates the right direction. Add each time. After setting the value of N, the CPU 15 returns to step S102.
[0063]
The fifth embodiment described above will be summarized.
(1) In the recording mode, in the panoramic shooting, in the image data file, main image data, sub-image data, shooting date and time information of the image of the frame, shooting position information (position information by GPS), information indicating a panoramic image, The information including the information on the number of frames constituting the panoramic image and the information on the direction moved from the previous frame is recorded. As the sub image data, only the thumbnail image corresponding to the main image of the frame is recorded.
(2) In the playback mode, when information indicating a panoramic image is included in the image data file of a frame to be displayed as a sub image, the sub image data of the frame from the image data file and the direction of movement from the previous frame are displayed. Information, and further reads the sub-image data recorded in the image data file corresponding to the frame preceding the current frame, and arranges a plurality of thumbnail images according to the "information of the direction moved from the previous frame" to the LCD monitor. 21 are generated. As described above, even if a plurality of thumbnail images are arranged at the timing of playback and display to generate a display image, the relative positional relationship between the image of the previous frame and the image of the relevant frame with respect to the frame constituting the panorama image is displayed in an easy-to-understand manner. it can.
[0064]
When the sub-image display illustrated in FIG. 7 is performed, the following may be performed instead of step S103. That is, the CPU 15 opens the image data files corresponding to all frames preceding the frame, and reads the recorded sub image data and “information on the direction moved from the previous frame”, respectively. When arranging a plurality of thumbnail images, the CPU 15 arranges the thumbnail images according to “information on the direction moved from the previous frame” and generates a display image.
[0065]
Furthermore, when the sub-image display illustrated in FIG. 8 is performed, the following may be performed instead of step S103. That is, the CPU 15 opens the image data files corresponding to all frames preceding the frame, and reads the recorded sub image data and “information on the direction moved from the previous frame”, respectively. The CPU 15 arranges a plurality of thumbnail images to the right, and generates a display image such that an arrow mark is superimposed on the thumbnail image of the immediately preceding frame according to “information of a direction moved from the previous frame”.
[0066]
In the above description, the electronic camera has been described. However, a sub-image display in the playback mode of the electronic camera may be performed by a computer or the like. In this case, a sub-image display program for reproducing and displaying an image based on the sub-image data recorded in the image data file is prepared, and the program is loaded into a computer or the like and used as a sub-image display device. A sub-image display device is provided by loading a program into a data storage device of a computer and executing the program. Loading of the program may be performed by setting a recording medium on which the program is stored, or by a method via a network.
[0067]
As for the images 21 to 23 constituting the panoramic image 24, an example has been described in which the images 21 and 22 have an overlapping area and the images 22 and 23 have an overlapping area. However, the overlapping area is not necessarily required. .
[0068]
Correspondence between each component in the claims and each component in the embodiment of the invention will be described. The imaging device includes, for example, the imaging element 11. The data file generation circuit, the control circuit, the file association means, and the display control circuit are configured by, for example, the CPU 15. The sub-image corresponds to, for example, a thumbnail image. The association is performed by recording a data file of an image forming a panoramic image in a panorama shooting folder. The information indicating the association corresponds to, for example, information indicating a panoramic image, information on the number of frames forming the panoramic image, and information on the direction in which the image has moved from the previous frame. The information indicating the position of the connection corresponds to, for example, an arrow mark. The direction of the combination corresponds to the direction moved from the previous frame. The display device includes, for example, an LCD monitor 21. The image signal generation circuit is configured by, for example, the display circuit 20. The information indicating the image corresponding to the selected image data file is, for example, a thick frame. Note that each component is not limited to the above configuration as long as the characteristic functions of the present invention are not impaired.
[0069]
【The invention's effect】
According to the first, fifth and tenth aspects of the present invention, a data file of each image can be generated so that the positional relationship between the images to be joined can be understood. Further, according to the inventions described in claims 15 and 16, the sub-image can be displayed so that the positional relationship between the images to be joined can be understood.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating an outline of an electronic camera according to a first embodiment.
FIG. 2 is a diagram illustrating a panoramic image.
FIG. 3 is a flowchart illustrating a flow of a panoramic photographing process performed by a CPU.
FIG. 4 is a diagram illustrating main image data and sub image data.
FIG. 5 is a flowchart illustrating a folder generation process.
FIG. 6 is a diagram illustrating a folder structure.
FIG. 7 is a diagram illustrating main image data and sub image data according to a second embodiment.
FIG. 8 is a diagram illustrating main image data and sub image data according to a third embodiment.
FIG. 9 is a diagram illustrating main image data and sub image data according to a fourth embodiment.
FIG. 10 is a flowchart illustrating a sub-image display process.
[Explanation of symbols]
11 image sensor, 12 A / D conversion circuit,
13 ... image processing circuit, 14 ... timing generation circuit,
15 ... CPU, 16 ... RAM,
17: Flash memory, 18: Operation member,
19: recording medium, 20: display circuit,
21 ... LCD monitor, 24 ... Panorama image,
41P-43P, 71P-73P, 81P-83P, 91P ... main image,
41S-43S, 71S-73S, 81S-83S, 91S ... Thumbnail image

Claims (17)

An imaging device;
A data file generation circuit for generating an N-th image data file for an N-th frame image picked up by the imaging device so as to be combined with an (N-1) th frame image picked up by the imaging device;
The data file is generated so that the Nth image data file includes main image data of the Nth frame image and sub image data of each of the (N-1) th frame and the Nth frame. An electronic camera, comprising: a control circuit that controls a circuit. The electronic camera according to claim 1,
File association means for associating the N image data files generated by the data file generation circuit,
The electronic camera according to claim 1, wherein the control circuit controls the data file generation circuit so as to further include information indicating the association in each of the N image data files. The electronic camera according to claim 1, wherein
The electronic camera according to claim 1, wherein the sub-image data includes sub-image data of the (N-1) th frame image and sub-image data of the Nth frame image. The electronic camera according to claim 1, wherein
The control circuit controls the data file generation circuit so that the N-th image data file further includes sub-image data of each image from the first frame to the (N-2) th frame. Electronic camera. An imaging device;
A data file generation circuit for generating an N-th image data file for an N-th frame image picked up by the imaging device so as to be combined with an (N-1) th frame image picked up by the imaging device;
File association means for associating the N image data files generated by the data file generation circuit;
An electronic camera, comprising: a control circuit that controls the data file generation circuit so that the Nth image data file includes main image data of the Nth frame image and information indicating the association. . The electronic camera according to claim 5,
The control circuit controls the data file generation circuit so that the N-th image data file further includes sub-image data of each of the (N-1) th frame and the Nth frame. And an electronic camera. In the electronic camera according to any one of claims 1 to 4 and 6,
The electronic camera according to claim 1, wherein the control circuit controls the data file generation circuit so that the sub-image data further includes information indicating the position of the combination. In the electronic camera according to any one of claims 2, 5, and 6,
The electronic camera according to claim 1, wherein the information indicating the association includes information indicating the number N of the associated image data files and the direction of the combination. The electronic camera according to any one of claims 1 to 4, claim 6, and claim 7,
An image signal generation circuit that generates an image signal for displaying an image based on the sub-image data on a display device,
An operation member for selecting the image data file;
Outputs the sub-image data included in the image data file selected by the operation member to the image signal generation circuit, and outputs information indicating an image corresponding to the selected image data file in the sub-image data. A display control circuit for controlling the image signal generation circuit to display the image. An imaging device;
A data file generation circuit for generating an N-th image data file for an N-th frame image picked up by the imaging device so as to be combined with an (N-1) th frame image picked up by the imaging device;
The data file is generated so that the Nth image data file includes main image data of the Nth frame, information indicating the Nth frame, and sub image data of the Nth frame. An electronic camera, comprising: a control circuit that controls a circuit. The electronic camera according to claim 10,
File association means for associating the N image data files generated by the data file generation circuit,
The electronic camera according to claim 1, wherein the control circuit controls the data file generation circuit so as to further include information indicating the association in each of the N image data files. The electronic camera according to any one of claims 1 to 4, claim 6, claim 7, and claims 9 to 11,
An electronic camera, wherein the sub-image is a thumbnail image. In the electronic camera according to any one of claims 2, 5, 6, 8, and 11,
An electronic camera, wherein the data file generation circuit updates information indicating the association for each image pickup. The electronic camera according to any one of claims 1 to 13,
At least one of the (N-1) th frame image and the Nth frame image has an overlap area, and the (N-1) th frame image and the Nth frame image in the direction of the overlap area. An electronic camera, wherein the image is combined with an eye image. (N-1) An image data file including main image data of the Nth frame image to be combined with the image of the Nth frame, and sub image data of each of the (N-1) th frame and the Nth frame image In a sub-image display program for displaying a sub-image on a display device,
A process of selecting one of the M image data files;
A process of generating an image signal for displaying an image based on the sub-image data included in the selected image data file on the display device;
Computer-executing a process of further generating an image signal for displaying an image corresponding to the selected image data file in a different manner from an image corresponding to another image data file. Display program. (N-1) An image data file including main image data of an Nth frame image to be combined with an image of a Nth frame, sub image data of the Nth frame image, and association information of M image data files In a sub-image display program for displaying a sub-image on a display device,
A process of selecting any one of the M image data files;
An image signal for displaying, on the display device, an image based on the sub-image data included in the selected image data file and an image based on the sub-image data included in the M image data files indicated by the association information. Processing to generate,
Executing, by a computer, a process of further generating an image signal for displaying an image corresponding to the selected image data file in the display image in a manner different from an image corresponding to another image data file. A sub-image display program characterized by the following. The sub-image display program according to claim 15, wherein:
At least one of the (N-1) th frame image and the Nth frame image has an overlap area, and the (N-1) th frame image and the Nth frame image in the direction of the overlap area. A sub-image display program characterized by being combined with an eye image.

Images