JP5035433B2 - Imaging apparatus, interval imaging method, and program - Google Patents

Description

The present invention is an imaging device capable of interval shooting that performs shooting multiple times with a shooting interval,
On the interval imaging method and program in the apparatus.

  In general, some digital cameras include interval shooting for shooting a subject at a predetermined shooting interval and the number of shooting times. For example, in such a digital camera, it is possible to perform shooting according to the shooting interval and the number of shooting times set in this shooting mode by selecting one of a plurality of shooting modes (see, for example, Patent Document 1). .

JP 2004-126242 A

  However, in the camera described in Patent Document 1, when any one of a plurality of shooting modes is selected, shooting is performed under the same shooting conditions at a fixed time interval set in the shooting mode.

  Therefore, even if the change of the subject to be photographed is not constant, photographing is always performed at a constant interval, and the photographing at the time of the best shot may be missed. In addition, if a short shooting interval is used in order not to miss the best shot, an interval shooting is continuously performed including a period in which the short shooting interval is unnecessary, and an unnecessary image is shot.

  Also, with regard to shooting conditions such as shutter speed, aperture value, and white balance, all images were shot using certain conditions set for the shooting mode. Could not shoot.

An object of the present invention is to provide a plurality photographing apparatus capable interval shooting to take pictures, the interval imaging method and program in accordance with the change in the subject.

Invention of claim 1, and shadow means shooting, a plurality of which are associated with a plurality of photographing interval and the shooting interval associated with the image of the total number and the total number of images to be captured by the imaging means samples A storage unit that associates images with each other and stores a plurality of sets as one shooting mode, and a plurality of sample images in one shooting mode among a plurality of shooting modes stored in the storage unit are associated with the sample image. a display means for sequentially displayed according to time corresponding to a plurality of photographing interval continuously an image on the imaging means at a plurality of photographing interval corresponding to the shooting mode one in which a plurality of sample images are sequentially displayed by the display means And a photographing control means for photographing.

According to a second aspect of the present invention, in the first aspect, it is characterized in that a plurality of shooting interval stored in the storage means comprises further a photographing interval setting means for setting separately.

According to a third aspect, the invention described in claim 2, and selection means for selecting individually set imaging frequency than before Symbol photographing interval setting means, according to the imaging interval selected by said selection means wherein the sample image further comprising an image display means for displaying the.

The invention of claim 4, wherein, in the third aspect of the present invention, comprises an image storage means for storing a plurality of sample images corresponding to the difference in shooting distance before taking the last image of said total number The image display means reads from the image storage means and displays a sample image corresponding to the shooting interval for the last image among the total number of images set by the shooting interval setting means. .

According to a fifth aspect of the present invention, in the invention according to any one of the first to fourth aspects, a photographing condition stored when the photographing means captures an image according to the photographing interval is stored in the storage means. further comprising an imaging condition storage means for storing in association with distance, the photographing control unit, in accordance with the stored imaging condition by the imaging condition storage means, the Rukoto image is continuously captured in said capturing means Features.

The invention described in claim 6 is associated with the display means, the photographing means, the total number of images photographed by the photographing means, a plurality of photographing intervals associated with the total number of images, and the photographing intervals. A storage unit that associates a plurality of sample images with each other and stores a plurality of sets as one shooting mode, and is an interval shooting method for the imaging apparatus, wherein one of the imaging modes stored in the storage unit One of the display control step of sequentially displaying on the display means according to the time corresponding to a plurality of photographing interval associated a plurality of sample images to the sample image in the photographing mode, the display control plurality of sample images are sequentially Te in step include an imaging control step of causing an image on said imaging means at a plurality of photographing distance corresponding to one imaging mode of the displayed continuously photographed And features.

The invention according to claim 7 is associated with the display means, the photographing means, the total number of images photographed by the photographing means, a plurality of photographing intervals associated with the total number of images, and the photographing intervals. Storage means for associating a plurality of sample images with each other and storing a plurality of sets as one shooting mode; and a computer of an imaging apparatus comprising: a plurality of sets stored in the storage means; display control means for sequentially displaying a plurality of sample images on said display means according to the time corresponding to a plurality of photographing interval associated with the sample image, a plurality of sample images one which are sequentially displayed more said display control means It is characterized by functioning as photographing control means for causing the photographing means to continuously photograph images at a plurality of photographing intervals corresponding to photographing modes .

According to the present invention, sample images corresponding to each shooting interval in the case of interval shooting of a plurality of images can be sequentially displayed according to the time corresponding to each shooting interval, so that a total number of images are shot. In such a case, it is possible to confirm at what timing and what kind of image is shot before actually starting the shooting .

1 is a block diagram showing a configuration of a camera device 1 (imaging device) in an embodiment of the present invention. 6 is a flowchart for explaining a setting process of a best shot shooting mode in the present embodiment. The figure which shows the example of the display screen at the time of the best shot imaging | photography mode setting in this embodiment. The figure which shows an example of the screen by which the best shot imaging | photography mode in this embodiment was displayed as a list. The figure which shows an example of the data memorize | stored in the best shot imaging | photography management data 25b in this embodiment. The figure which shows an example of the some best shot imaging | photography management data 25b with respect to "fireworks mode" in this embodiment. 6 is a flowchart for explaining shooting processing in a best shot shooting mode in the present embodiment. The figure which shows the example of the 1st display form of the setting content screen in this embodiment. The figure which shows the example of the 2nd display form of the setting content screen in this embodiment. The figure which shows the example of the 3rd display form of the setting content screen in this embodiment.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 is a block diagram showing a configuration of a camera device 1 (photographing device) in the present embodiment.

  In the camera apparatus 1 shown in FIG. 1, in the photographing mode which is the basic mode, the photographing lens 11 is moved to the lens position corresponding to the aperture position or the normal photographing by driving the motor (M) 10 in the lens optical system. Further, the photographing lens 11 is extended / stored by driving a motor (not shown) according to the zoom operation. A CCD (Charge Coupled Device) 12, which is an image sensor disposed behind the photographing optical axis of the photographing lens 11, is scanned and driven by a timing generator (TG) 13 and a vertical driver 14, and is formed at regular intervals. The photoelectric conversion output corresponding to is output for one screen.

  The photoelectric conversion output is appropriately gain-adjusted for each primary color component of RGB in the state of an analog value signal, sampled and held by a sample hold (S / H) circuit 15, and digital data by an A / D converter 16. The signal processing unit 17 performs color process processing including pixel interpolation processing and γ correction processing to generate digital luminance signals Y and color difference signals Cb and Cr, and a DMA (Direct Memory Access) controller. 18 is output.

  The DMA controller 18 once uses the luminance signal Y and the color difference signals Cb and Cr output from the signal processing unit 17 by using the composite synchronization signal, the memory write enable signal, and the clock signal from the signal processing unit 17 once. And the DMA transfer to the DRAM 21 used as a buffer memory through the DRAM interface (I / F) 20.

  The control unit 25 includes a CPU, a ROM in which operation programs and data executed by the CPU are fixedly recorded, a RAM used as a work memory, a timer 25a used for measuring time passage, and the like. This controls the overall operation of the camera device 1.

  After completing the DMA transfer of the luminance and color difference signals to the DRAM 21, the control unit 25 reads the luminance and color difference signals from the DRAM 21 via the DRAM interface 20 and writes them to the VRAM 27 via the VRAM controller 26.

  The digital video encoder 28 periodically reads luminance and color difference signals from the VRAM 27 via the VRAM controller 26, generates a video signal based on these data, and outputs the video signal to the display unit 29.

  The display unit 29 functions as a monitor display unit (electronic finder) in the shooting mode, and performs display based on the video signal from the digital video encoder 28 to display image information captured from the VRAM controller 26 at that time. The base image (through image) is displayed in real time.

  When a through image is displayed in real time on the display unit 29, a trigger signal is generated when the shutter key of the key input unit 37 is operated at the timing of capturing a still image.

  In response to this trigger signal, the control unit 25 stops driving the CCD 12 at that time, and then performs an automatic exposure process to obtain an appropriate exposure value, and controls the aperture of the lens optical system and the exposure time of the CCD 12. Re-capture the image.

  After the newly obtained image data for one frame is DMA-transferred and written in the DRAM 21 in this way, the control unit 25 reads out the image data for one frame written in the DRAM 21 to the image processing unit 30. Write. The image processing unit 30 encodes image data by JPEG (Joint Photographic Experts Group) with respect to the image data.

  The encoded image data is a non-volatile memory card 32 that is detachably mounted as a recording medium of the camera device 1, or a non-volatile memory that is fixedly built in the case where the memory card 32 is not mounted. It is written in the built-in memory 33.

  Then, with the completion of the writing of the image data to the memory card 32 or the built-in memory 33 for one frame, the control unit 25 resumes the drive for displaying the through image from the CCD 12 via the DRAM 21 on the display unit 29. .

  In the present embodiment, when the shutter key of the key input unit 37 is operated in a state in which the best shot shooting mode described later is set, the control unit 25 displays the image set for the shooting mode selected by the user. Based on the total number of images, the shooting interval (time) until each image was shot, and the data indicating the shooting conditions at the time of shooting at each shooting interval, the above-mentioned shooting operation was controlled and arbitrarily set A plurality of images can be taken at a shooting interval where all the shooting intervals are not constant.

  In addition, a key input unit 37, an audio processing unit 40, and a strobe driving unit 41 are connected to the control unit 25.

  The key input unit 37 includes a power key, a shutter key, a mode key, a menu key, a selection key, a cross key (cursor key), and the like, and signals associated with these key operations are directly sent to the control unit 25. The

  The audio processing unit 40 includes a sound source circuit such as a PCM sound source, digitizes the audio signal input from the microphone unit (MIC) 42 when recording audio, and performs a predetermined data file format such as MP3 (MPEG-1 Audio Layer-). 3) According to the standard, the data is compressed and an audio data file is created and sent to the memory card 32 or the built-in memory 33, while the audio data file sent from the memory card 32 or the built-in memory 33 is uncompressed at the time of playing the sound. Then, it is converted into an analog signal and the speaker unit (SP) 43 is driven to emit loud sounds.

  Furthermore, the sound processing unit 40 generates various operation sounds, for example, a pseudo shutter sound associated with the operation of the shutter key, a beep sound associated with the operation of other keys, and the like based on the control from the control unit 25. The sound is emitted from 43.

  The strobe drive unit 41 charges a large-capacitance capacitor for strobe (not shown) at the time of still image shooting, and then drives the strobe light emitting unit 45 to flash based on the control from the control unit 25.

  Next, the operation in the best shot shooting mode in the camera device 1 of the present embodiment will be described.

  First, setting processing in the best shot shooting mode will be described with reference to the flowchart shown in FIG. FIG. 3 shows an example of a display screen (setting screen) when the best shot shooting mode is set.

  The control unit 25 executes the setting process of the best shot shooting mode, thereby setting contents by the setting process (for example, data indicating the total number of images to be shot at intervals, each shooting interval, shooting conditions at the time of each shooting, and the like). Are stored so that shooting can be controlled in the shooting process described later according to these data.

  First, when a request for setting the best shot shooting mode is input by an operation on the key input unit 37, the control unit 25 causes the display unit 29 to display a list of shooting modes prepared in advance as the best shot shooting mode (step S31). A1).

  FIG. 4 shows an example of a screen displaying a list of best shot shooting modes. In the example shown in FIG. 4, a plurality of shooting mode names such as “morning glory mode”, “fireworks mode”, “golf shot mode”, “batting mode”, “pitching mode”,.

  Here, by operating the cross key (cursor key) of the key input unit 37, the user can move the mode selection cursor in the screen to arbitrarily specify the shooting mode to be set.

  For example, when the mode selection cursor is moved to the position of “fireworks mode” and selection execution is instructed (step A2), the control unit 25 sets the default (or previously set) for this “firework mode”. The total number of shots and shooting interval data (set in the best shot shooting mode setting) are read (step A3). Note that the total number is the total number of images to be captured (number of times of capturing) in the best shot capturing mode, and the capturing interval is the time until each capturing is performed.

  In the camera device 1 according to the present embodiment, the shooting interval is not constant at all intervals, and the time until each shooting is arbitrarily set according to the shooting mode (or as desired by the user). Can do.

  For example, in the morning glory mode, about one shot is taken every two hours at night from the current time, and the shooting interval is shortened as it approaches the morning, so that the morning glory that changes greatly in the morning is photographed in detail. Therefore, it is possible to avoid shooting unnecessary images by reducing the number of shootings at night when there is little change.

  The control unit 25 stores in advance best shot shooting management data 25b corresponding to each shooting mode, and reads data corresponding to default (or previous setting) from the best shot shooting management data 25b.

  FIG. 5 shows an example of data stored in the best shot shooting management data 25b. As shown in FIG. 5, the best shot shooting management data 25b stores sample images and data indicating shooting conditions in association with each shooting interval corresponding to the shooting mode.

  For example, in the fireworks mode, the shooting interval can be set in units of 0.5 seconds, and sample images indicating the state of fireworks at the time of shooting when shooting at this shooting interval are stored. Also, depending on the time point (time interval) at which shooting is performed, there are optimum shooting conditions that are different from those at the time of other shootings, so this shooting condition is stored in association with the time interval.

  For example, when shooting fireworks that use fireworks mode, immediately after launching, the speed of fireworks movement is fast, so the shutter speed is taken and the aperture is opened. It is possible to acquire a high-quality image in which changes in fireworks are expressed.

  As shooting conditions, various shooting parameters such as sharpness, contrast, saturation, white balance, gamma correction, contour enhancement, etc. can be targeted in addition to shutter speed and aperture.

  When the control unit 25 reads data corresponding to default (or previously set) from the best shot shooting management data 25b, the control unit 25 reads a sample image (best shot image) from the best shot shooting management data 25b based on this data (step A4). ). Then, a setting screen is displayed on the display unit 29 based on the total number of sheets, the shooting interval, and the sample image (step A5).

  FIG. 3A shows an example of a screen on which a setting screen is displayed. In the setting screen shown in FIG. 3A, in addition to the message “I will explain fireworks” for explaining the shooting mode (for example, “Fireworks mode”), the total number (4) and each shooting (first image) (Second to fourth sheet) are displayed in seconds (1.5 seconds, 2 seconds, 3 seconds, and 3.5 seconds). As shown in FIG. 3A, the shooting interval until each shooting is not constant, and is set to a different interval according to the shooting mode.

   In this shooting mode, a sample image of the best shot indicating the most desired shooting state is displayed. The sample image of the best shot is determined in advance in the best shot shooting management data 25b, for example, and in the example of FIG. 3A, the sample stored corresponding to the shooting interval “3.0” (seconds later). The image is read and displayed as the best shot image.

  Here, the user may operate the enter key of the key input unit 37 when shooting with the total number of images displayed on the setting screen and the shooting interval. When the enter key is operated (step A6, Yes), the control unit 25 sets the total number of images and the shooting interval displayed on the setting screen and shifts to the shooting mode (step A22).

  On the other hand, when the menu key is operated (step A7, Yes), the control unit 25 sets an input item for the total number so that the total number on the setting screen can be changed (step A8).

  FIG. 3B shows a state in which the total number of input items is set. When the input item of the total number is set, the increase / decrease of the total number can be instructed by operating the key indicating the right or left direction of the cursor key.

  Here, when the left cursor key is operated (step A9, Yes), the control unit 25 displays that the total number of sheets has been reduced by one (step A10), assuming that the reduction of the total number has been instructed. . In addition, when the total number of images is reduced, the display is changed to display the shooting interval in accordance with the total number of images (step A11). For example, when the total number is changed from 4 to 3, the shooting interval from the first to the fourth is changed to display the time interval from the first to the third.

  On the other hand, similarly, when the right cursor key is operated (step A9, Yes), the control unit 25 displays that the total number is incremented by 1 assuming that the total number is increased. (Step A10) When the total number is increased, the display of the photographing interval is changed in accordance with the total number (Step A11). That is, the display of the shooting interval is added so that the setting of the shooting interval until the increased number of images is shot can be made by increasing the total number of images.

  Here, with the total number of input items set, it is possible to instruct a shooting interval to be changed by operating the cursor key up or down.

  For example, as shown in FIG. 3B, when the downward cursor key is operated in a state where the total number of input items is set (step A12, Yes), the control unit 25 uses the shutter key. As shown in FIG. 3C, it is assumed that the shooting interval until the first image is shot after the button is operated is taken as a change target, and is shot at the display position of the shooting interval corresponding to the first image. An interval input item is set (step A13).

  At this time, the control unit 25 reads a sample image (for example, “sample 2” corresponding to “1.5” in FIG. 5) corresponding to the imaging interval set at this time from the best shot imaging management data 25b. It is displayed on the setting screen (steps A14 and A15). As shown in FIG. 3C, when the first image interval “after 1.5 seconds” is designated as a change target, for example, an image at the beginning of the opening of fireworks is displayed as a sample image.

  Similarly, when the downward cursor key is operated (step A20, Yes), the control unit 25 assumes that the shooting interval until the second image is shot is instructed to be changed. As shown in FIG. 3D, the shooting interval input item is changed and set to the shooting interval display position corresponding to the second image (step A13).

  Also in this case, the control unit 25 selects the sample image (for example, “sample 3” corresponding to “2.0” in FIG. 5) corresponding to the second image capturing interval set at this time as the best shot imaging management data. The data is read from 25b and displayed on the setting screen (steps A14 and A15). As shown in FIG. 3D, when the second image capturing interval “after 2.0 seconds” is designated as a change target, for example, an image with a little open fireworks is displayed as a sample image.

  Hereinafter, as the down cursor key is operated sequentially, as shown in FIGS. 3E and 3F, the shooting intervals until the third and fourth images are shot are sequentially changed. The sample image corresponding to the shooting time to be changed is read and displayed.

  If the up cursor key is operated (step A18, Yes), conversely, the shooting interval until the fourth, third, second,... Set and display the sample image accordingly.

  In addition, in the state where the input item is set with the shooting interval of any number of sheets set as an object to be changed, increase / decrease of time can be instructed by operating the right or left direction of the cursor key.

  Here, when the left cursor key is operated (step A16, Yes), the control unit 25 displays the time reduced by a predetermined interval (step A17) assuming that the reduction of the shooting interval is instructed. ). For example, it is assumed that the time for a predetermined interval to be decreased according to the key operation is determined according to the shooting mode. In the case of the “fireworks mode”, since the entire photographing time is several seconds, it is changed every 0.5 seconds, for example. Accordingly, the default shooting interval “after 1.5 seconds” is changed to “after 1.0 seconds”.

  For example, in the “morning glory mode”, since the entire shooting time is several hours, the change is initially made every minute, and when the change instruction continues (for example, when there is an operation of continuously pressing the cursor key) ), The time for a predetermined interval is changed every 10 minutes, every 30 minutes, and every hour. Thereby, the designation of the photographing interval according to the photographing mode can be changed accurately and efficiently.

  When the shooting interval is changed by operating the cursor key, the control unit 25 performs best shot shooting of a sample image corresponding to the changed shooting interval (for example, “Sample 1” corresponding to “1.0” in FIG. 5). The data is read from the management data 25b and displayed on the setting screen (steps A18 and A19).

  On the other hand, when the right cursor key is operated in the same manner (step A16, Yes), the control unit 25 increases the time by a predetermined interval and displays it as an instruction to increase the shooting interval. (Step A17). Also in this case, the sample image corresponding to the changed shooting interval is read out and displayed with the change of the shooting interval (steps A18 and A19).

  Thus, by displaying the sample image corresponding to the changed shooting interval in accordance with the change of the shooting interval, the user can arbitrarily specify at what timing the image is shot while referring to the sample image. This makes it easy to set an appropriate shooting interval.

  In the above description, the setting of the total number of images and the shooting interval has been described. However, the shooting conditions can be set in the same manner. For example, when a predetermined key of the key input unit 37 is operated when an input item is set for any shooting interval (changeable state), shooting is performed at this shooting interval. Display the shooting condition setting screen. This shooting condition setting screen includes setting items for each of a plurality of shooting parameters, and the user can arbitrarily set parameters by selecting one of the setting items and specifying a setting value. Can do. The control unit 25 stores the parameters input through the shooting condition setting screen in association with the shooting interval. When the user does not set shooting conditions, shooting is controlled in shooting processing described later according to shooting conditions stored in advance in the best shot shooting management data 25b in association with shooting intervals.

  In the above description, the best shot shooting management data 25b as shown in FIG. 5 is stored for one shooting mode. However, for example, for one shooting mode (for example, "Fireworks mode"), a plurality of best shot shooting management data 25b may be prepared.

  FIG. 6 shows an example of the best shot shooting management data 25b set for each of the plurality of best shot shooting management data 25b for the “fireworks mode”, that is, “fireworks mode 1”, “fireworks mode 2”,. (Image storage means). For example, in “Fireworks Mode 1” and “Fireworks Mode 2”, the shooting interval (shooting time of the total number of images) until the last image is shot out of the total number is different, and sample images corresponding to each shooting interval are stored. Has been.

  For example, in the case of launch fireworks, the time from the launch to the end of opening and the course of change differ depending on the size of the fireworks. That is, depending on the type of fireworks, the state of the fireworks is different even at the same shooting interval, so that the sample interval can be appropriately set by displaying a sample image corresponding to the type of fireworks. Here, the shooting interval (total shooting time) required until the last image is shot differs depending on the type (size) of the fireworks, so the shooting interval for the last image is set by the user according to the type of fireworks. Take advantage of what is being done.

  The control unit 25 sets a plurality of best shot shooting management data 25b (“fireworks mode 1”, “fireworks mode 2”,...) According to the shooting interval set for the last image of the total number on the setting screen. Is selected and a sample image is read from the management data 25b and displayed.

  For example, as shown in FIG. 3, when the shooting interval “3.5” is set for the fourth image, the best shot shooting management data 25b of “fireworks mode 1” in FIG. The sample image 1-5 corresponding to the photographing interval “3.5” is read from the management data 25b and displayed. Also, when the shooting interval “5.0” is set for the last image, the best shot shooting management data 25b of “fireworks mode 2” is selected as a shooting of different types of fireworks, and this The sample image 2-9 corresponding to the photographing interval “5.0” is read from the management data 25b and displayed.

  In this way, by displaying different sample images according to the shooting interval set for the last image of the total number, the change process and the time required for the change differ even for the same subject (for example, “fireworks”). Even in this case, an appropriate sample image corresponding to the difference can be displayed.

  In the above description, the default total number of shots and the shooting interval preset for the shooting mode selected from the best shot shooting mode list are changed. However, the best shot shooting mode list includes “ By selecting “free setting mode”, the user can arbitrarily set the total number of images and the shooting interval.

  In the “free setting mode”, the total number of shots and the shooting interval can be set arbitrarily, so that the subject to be shot can be captured in any of the shooting modes prepared in the best shot shooting mode. It is also possible to cope with cases where it is not possible to expect appropriate interval shooting according to changes. The shooting conditions may be set corresponding to each shooting interval in the same manner as described above.

  Note that sample images cannot be displayed in the first setting in the “free setting mode”, but when shooting is performed by shooting processing described later according to the setting contents set in the “free setting mode”, at that time A plurality of photographed images may be stored as sample images in association with respective photographing intervals, and may be displayed at the time of setting in the next “free setting mode”. In this case, it is assumed that the user can arbitrarily designate an image to be the best shot.

  Next, photographing processing according to the setting contents by the setting processing described above will be described with reference to the flowchart shown in FIG.

  First, when a request for shooting in the best shot shooting mode is input by operating the key input unit 37, the control unit 25 causes the display unit 29 to display a list of shooting modes prepared in advance as the best shot shooting mode ( Step B1). It is assumed that the shooting mode list is displayed as shown in FIG. 4 as in the setting process.

  Here, by operating the cross key (cursor key) of the key input unit 37, the user can arbitrarily specify the shooting mode to be executed by moving the mode selection cursor in the screen.

  When the mode selection cursor is moved to an arbitrary position and selection execution (selection key) is instructed (step B2), the control unit 25 sets the total number of images and the shooting interval set for the selected shooting mode. Then, a sample image or the like is read and a setting content screen is displayed (step B3).

  Here, examples (first to third) of display forms of the setting content screen will be described.

  (1) In the first display form of the setting content screen, as shown in FIG. 8, a screen similar to that during the setting process of the best shot shooting mode is displayed. That is, in addition to the message “I will explain fireworks” to explain the shooting mode (for example, “Fireworks mode”), the total number (4) and the interval between each shooting (1st to 4th) are shown. The number of seconds (1.5 seconds later, 2 seconds later, 3 seconds later, 3.5 seconds later) is displayed, and the best shot sample image (at the photographing interval “3 seconds later” in the best shot photographing management data 25b) is displayed. Corresponding sample image) is displayed.

  (2) In the second display form of the setting content screen, as shown in FIG. 9, sample images are displayed in accordance with the actual shooting interval. FIG. 9 shows an example when “golf shot mode” is selected, and displays the message, the total number of images, and the shooting interval until each shooting, in the same manner as in the first display mode. As for the sample image, not only the sample image of the best shot but also in the example shown in FIG. 9, “after 0 seconds”, “after 3 seconds”, “after 3.2 seconds”, and “3. Sample images corresponding to “after 4 seconds” are sequentially displayed repeatedly at the same timing as each photographing interval.

  Note that when the shooting interval is short and it is difficult to check the sample image, for example, the display interval of the sample image may be arbitrarily increased. For example, when a predetermined key operation is performed on the key input unit 37 by the user, the display interval is changed to 1.5 times, 2.0 times, 2.5 times,. Thereby, the sample image for every imaging | photography space | interval can be confirmed easily.

  (3) In the third display form of the setting content screen, as shown in FIG. 10, sample images are displayed at regular time intervals, for example, regardless of the actual shooting interval. In FIG. 10, as in the first display mode, the message, the total number of images, and the shooting interval until each shooting are displayed. As for the sample image, not only the best shot sample image but also the sample image corresponding to each photographing interval is sequentially displayed every second in the example shown in FIG. In the example shown in FIG. 10, since the shooting interval is “after 0 seconds”, “after 45 seconds”, “after 100 seconds”, and “after 160 seconds”, it means that the sample image is displayed in accordance with the actual shooting interval. Therefore, the display is switched in units of time that allows easy confirmation of the sample image. Note that the user may arbitrarily change the time for switching the sample image table.

  In this way, it is possible to check the number of shots and the shooting interval set with reference to the sample image before starting shooting in the best shot shooting mode.

  Here, when it is desired to change the setting contents, it is possible to request the setting process of the best shot shooting mode (No in Step B4). In this case, the best shot shooting mode setting process described above is executed, and the total number of sheets, shooting interval, shooting conditions, and the like can be set again according to an instruction from the user (step A0, FIG. 2).

  On the other hand, when the shutter key of the key input unit 37 is operated after the sample image is confirmed (step B6, Yes), the control unit 25 starts measuring the shooting interval by the timer 25a, and the next image It is determined whether or not the shooting interval for shooting has elapsed (step B7). Note that the operation of the shutter key is performed after the display of the sample image is stopped by the operation of the selection key and the through image is displayed.

  When the shooting interval for shooting the next image has elapsed (step B7, Yes), the control unit 25 reads out the shooting conditions set for the current shooting mode (step B8), and executes shooting according to the shooting conditions. (Step B9).

  The control unit 25 stores the captured image in the built-in memory 33 or the memory card 32 (step B10), and updates and stores the number of captured images (step B11).

  Here, it is determined whether or not shooting has been completed by comparing the number of shots with the total number of shots set by the setting process (step B12). If the shooting for the total number of images has not been completed, it is determined whether the shooting interval for shooting the next image has elapsed based on the measurement by the timer 25a in the same manner as described above (step B7). Hereinafter, similarly, when the shooting interval of the next image has elapsed, shooting is performed under the shooting conditions set corresponding to the shooting interval, and the image is recorded.

  When it is determined that shooting of the total number of images has been completed (step B12, Yes), the control unit 25 ends the shooting process in the best shot shooting mode.

  In this way, the camera device 1 according to the present embodiment shoots each image by the total number set for the shooting mode selected according to the subject by executing the shooting process in the best shot shooting mode. Since the shooting is executed according to the shooting interval up to and the shooting conditions set in association with the shooting interval, the shooting can be performed at the timing according to the change of the subject to be shot, and the best image (best shot) Therefore, it is possible to avoid shooting unnecessary images without missing the shooting timing. In addition, since shooting is controlled by optimal shooting parameters at each shooting, a high-quality image can be obtained at each shooting.

  In the above description, the sample image is described as being stored in advance in the best shot shooting management data 25b. However, for example, an image actually shot by the user is added in association with data indicating the shooting interval. By making it possible to store the image, the additionally stored image may be displayed as a sample image. In this case, it is assumed that the user can arbitrarily designate an image to be the best shot.

  An interval shooting program that can be executed by a computer mounted on the camera apparatus 1 is written in a recording medium such as a magnetic disk (flexible disk, hard disk, etc.), an optical disk (CD-ROM, DVD, etc.), a semiconductor memory, etc. Or through a communication medium. By controlling the operation of the computer mounted on the camera device 1 by the interval shooting program, the functions in the above-described embodiments can be realized.

  DESCRIPTION OF SYMBOLS 1 ... Camera apparatus, 10 ... Motor (M), 11 ... Shooting lens, 12 ... CCD, 13 ... Timing generator (TG), 14 ... Vertical driver, 15 ... Sample hold circuit (S / H), 16 ... A / D converter, 17 ... signal processing unit, 18 ... DMA controller, 20 ... DRAM interface (I / F), 21 ... DRAM, 25 ... control unit, 24a ... timer, 25b ... best shot shooting management data, 26 ... VRAM controller 27 ... VRAM, 28 ... digital video encoder, 29 ... display unit, 30 ... image processing unit, 32 ... memory card, 33 ... built-in memory, 37 ... key input unit, 40 ... audio processing unit, 41 ... strobe drive unit, 42 ... Microphone part (MIC), 43 ... Speaker part (SP), 45 ... Strobe light emitting part.

Claims (7)

And shadow means shooting,
A plurality of sets as one shooting mode in which the total number of images shot by the shooting unit, a plurality of shooting intervals associated with the total number of images, and a plurality of sample images associated with the shooting intervals are associated with each other. Storage means for storing;
Display means for sequentially displaying a plurality of sample images in one photographing mode among a plurality of image pickup modes stored in the storage means according to a plurality of photographing intervals associated with the sample images;
A plurality of sample images capturing control means for continuously capturing an image on the imaging means at a plurality of photographing interval corresponding to the shooting mode one, which are sequentially displayed by the display means
Photographing apparatus characterized by comprising a. Imaging apparatus according to claim 1, characterized by further comprising a photographing interval setting means for individually setting a plurality of shooting interval stored in the storage means. And selection means for selecting individually set imaging frequency than before Symbol shooting interval setting means,
Image display means for displaying a sample image corresponding to the photographing interval selected by the selection means;
The photographing apparatus according to claim 2 , further comprising: Comprising image storage means for storing a plurality of sample images according to the difference in shooting interval until the last image of the total number is shot;
The image display means, according to claim 3, characterized in that displaying a sample image in accordance with the imaging interval for the last image of the set the total number by the photographing interval setting means reads from the image storage means The imaging device described. A photographing condition storage unit that stores a photographing condition when the photographing unit captures an image according to the photographing interval in association with the photographing interval stored in the storage unit;
Said imaging control means, in accordance with the stored imaging condition by the imaging condition storage means, imaging apparatus according to any one of claims 1 to 4, characterized in Rukoto image is continuously captured in said capturing means. A display means, a photographing means, a total number of images photographed by the photographing means, a plurality of photographing intervals associated with the total number of images, and a plurality of sample images associated with the photographing intervals are associated with each other. Storage means for storing a plurality of sets as one shooting mode, and an interval shooting method for an imaging apparatus comprising:
Display control for sequentially displaying a plurality of sample images in one photographing mode among a plurality of image capturing modes stored in the storage means on the display means according to a plurality of photographing intervals associated with the sample images. Steps,
A photographing control step of the image is continuously photographed with the imaging means at a plurality of photographing interval corresponding to the shooting mode one in which a plurality of sample images are sequentially displayed Te in the display control step
The interval imaging | photography method characterized by including . A display means, a photographing means, a total number of images photographed by the photographing means, a plurality of photographing intervals associated with the total number of images, and a plurality of sample images associated with the photographing intervals are associated with each other. And a storage means for storing a plurality of sets as one shooting mode ,
Display control for sequentially displaying a plurality of sample images in one photographing mode among a plurality of image capturing modes stored in the storage means on the display means according to a plurality of photographing intervals associated with the sample images. means,
More plurality of sample images capturing control means for said imaging means continuously captures images in a plurality of photographing interval corresponding to the shooting mode one, which are sequentially displayed on said display control means
Program for causing to function as a.

Images