JP5261092B2 - IMAGING DEVICE AND IMAGING DEVICE CONTROL METHOD - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problem that the entire imaged moving picture can not be confirmed because it has been conventionally displayed as a quick review by extracting multiple image data from a partial range of beginning and central portions of the imaged moving picture. <P>SOLUTION: In the imaging device for imaging moving pictures, the image extraction requirement for a quick review is entered, and the image data for the imaged moving picture is partially extracted on the basis of an extraction requirement (S315 to S317). Thereafter, the extracted image data is stored in relation to the order of extraction, and the stored image data is reproduced and displayed as an image for quick review after completion of imaging the moving picture (S305). <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to an imaging apparatus that captures, records, and reproduces still images and moving images, and a method for controlling the imaging apparatus. More specifically, the present invention relates to an imaging apparatus having a quick review function for recording an image captured by an imaging apparatus on a storage medium and confirming the captured image, and a method for controlling the imaging apparatus.

  2. Description of the Related Art An imaging device such as an electronic camera that uses a memory card having a solid-state memory element as a storage medium, stores captured still images and moving images in the storage medium, and reads and reproduces still images and moving images from the storage medium is widely known. Yes. In these imaging apparatuses, it is possible to continuously display images before shooting on the display unit, and the user can determine the composition of the subject, and display the shot images on the display unit for confirmation.

  In particular, a function (quick review) for reproducing a photographed image immediately after photographing is highly convenient and is a useful function for the user of the imaging apparatus. In this quick review function, when a review image is created from an image stored in a storage medium, the time required for image data read processing, image processing, and encoding processing from the storage medium can be omitted. You can check the image. However, this kind of image review using the quick review function can be performed during still image shooting, but cannot be performed during movie shooting. It was the target.

On the other hand, in Patent Document 1, a plurality of image data (still images) are extracted from a partial range of the beginning (shooting start) portion and the central portion of a captured moving image, and these still images are displayed as a quick review. Yes.
JP 2003-23600 A

  However, in Patent Document 1, since a plurality of image data is extracted from a partial range of the head portion and the center portion of the captured moving image and displayed as a quick review, the entire captured moving image cannot be confirmed. Even if important scenes exist after the middle part of the moving image, the conventional quick review could not confirm the important scenes.

  Furthermore, in Patent Document 1, since an area for extracting an image to be displayed as a quick review is determined in advance, an important scene of a captured moving image is not always confirmed.

  An object of the present invention is to solve such conventional problems.

  A feature of the present invention is to provide an imaging apparatus having a quick review function capable of confirming the entire captured moving image and a method for controlling the imaging apparatus.

In order to achieve the above object, an imaging apparatus according to one embodiment of the present invention includes the following arrangement. That is,
Imaging means;
Means for receiving a recording start instruction and a recording end instruction by the user;
The moving image signal obtained by the imaging means is recorded on a recording medium, starts recording the moving image signal in response to the recording start instruction, and responds to the recording end instruction. Recording means for terminating the recording of the signal;
The moving image signal obtained by the image pickup device is recorded after the recording device starts recording the moving image signal in response to the recording start instruction until the recording ends in response to the recording end instruction . among them, as well as specify the successive frames of the second period from the beginning of the frame after the start recording from the beginning of the frame, an image signal of consecutive frames of the each first period the second period the Processing means for storing in a memory during recording of the moving image signal by the recording means;
Output means for reading out the image signal stored in the memory and outputting it to a display unit after the recording of the moving image signal is completed.

In order to achieve the above object, a method for controlling an imaging apparatus according to one embodiment of the present invention includes the following steps. That is,
An imaging means, a means for receiving a recording start instruction and a recording end instruction by a user, and a means for recording a moving image signal obtained by the imaging means on a recording medium, in response to the recording start instruction An image pickup apparatus control method for controlling an image pickup apparatus having recording means for starting recording of the moving image signal and ending recording of the moving image signal in response to an instruction to end the recording,
The moving image signal obtained by the image pickup device is recorded after the recording device starts recording the moving image signal in response to the recording start instruction until the recording ends in response to the recording end instruction . among them, as well as specify the successive frames of the second period from the beginning of the frame after the start recording from the beginning of the frame, an image signal of consecutive frames of the each first period the second period the A process of storing in a memory during recording of the moving image signal by a recording means ;
An output step of reading out the image signal stored in the memory and outputting it to a display unit after the recording of the moving image signal is completed.

  According to the present invention, the photographer can confirm the entire captured moving image.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments do not limit the present invention according to the claims, and all combinations of features described in the embodiments are not necessarily essential to the solution means of the present invention. .

[Embodiment 1]
Embodiment 1 according to the present invention will be described with reference to FIGS. In the first embodiment, quick review image data (confirmation image) is stored in the image memory at the start of moving image shooting, every predetermined time during moving image shooting, and at the end of shooting. The operation when displaying the stored image data on the image display unit 28 as a quick review will be described.

  FIG. 1 is a block diagram illustrating a configuration of an imaging apparatus 100 according to an embodiment of the present invention. Hereinafter, the configuration of the imaging apparatus 100 will be described with reference to FIG.

  Reference numeral 10 denotes an imaging lens. Reference numeral 12 denotes a shutter having a diaphragm function for controlling the exposure amount to the image sensor 14. The image sensor 14 converts an optical image incident through the lens 10 and the shutter 12 into an electrical signal, and is, for example, a CCD sensor or a CMOS sensor. The light beam incident on the imaging lens 10 is guided through a diaphragm / shutter 12 that is a light amount limiting unit, and is formed on the imaging surface of the imaging device 14 as an optical image. The A / D converter 16 converts an analog signal output from the image sensor 14 into a digital signal (hereinafter referred to as image data). The timing generation circuit 18 supplies a clock signal and a control signal to the image sensor 14, the A / D converter 16, the D / A converter 26, and the like, and is controlled by the memory control circuit 22 and the system control circuit 50.

  The image processing circuit 20 is a combination of a filter circuit and a gain circuit, and performs predetermined pixel interpolation processing and color conversion processing on the image data from the A / D converter 16 or the image data from the memory control circuit 22. I do. The image processing circuit 20 performs predetermined arithmetic processing using the captured image data. Then, based on the obtained calculation result, the system control circuit 50 controls the shutter control unit 40 and the distance measurement control unit 42, AF (auto focus) processing of TTL (through the lens) method, AE (automatic exposure) ) Processing and EF (strobe light control) processing. Further, the image processing circuit 20 performs predetermined calculation processing using the captured image data, and also performs TTL AWB (auto white balance) processing based on the calculation result. Further, the image processing circuit 20 has an electronic zoom means, and can electrically perform zooming by cutting out a captured image at the center. The memory control circuit 22 controls the A / D converter 16, the timing generation circuit 18, the image processing circuit 20, the image display memory 24, the D / A converter 26, the image memory 30, and the compression / decompression circuit 32.

  The image data output from the A / D converter 16 is written into the image display memory 24 or the image memory 30 through the image processing circuit 20 and the memory control circuit 22 or only through the memory control circuit 22. The image display memory 24 stores image data to be displayed on the image display unit 28. The D / A converter 26 converts the image data (digital data) into an analog signal, outputs it to the image display unit 28, and displays it. The image display unit 28 is, for example, a TFT liquid crystal display (LCD). The electronic viewfinder function can be realized by sequentially displaying the image data captured by the image sensor 14 by the image display unit 28.

  Further, the image data recorded in the storage area (202 or 212) of the storage medium 200 or the storage medium 210 is read out and decompressed by the compression / decompression circuit 32, and then passed through the image display memory 24 and the D / A converter 26. It can also be displayed on the image display unit 28. Further, the image display unit 28 can arbitrarily turn on / off the display according to an instruction from the system control circuit 50. When the display is turned off, the power consumption of the imaging apparatus 100 can be greatly reduced.

  The image memory 30 is an image data storage unit that stores captured still images, moving images, and image data for quick review display, and has a sufficient storage capacity to store a predetermined number of still images and a predetermined time of moving images. ing. This makes it possible to write a large amount of image data to the image memory 30 even in continuous shooting or moving image shooting in which a plurality of still images are continuously shot. The system memory 52 is used as a work area for the system control circuit 50. The compression / decompression circuit 32 compresses / decompresses image data by adaptive discrete cosine transform (ADCT) or the like.

  The shutter control unit 40 controls the shutter 12 having a diaphragm function, and also has a flash light control function in cooperation with the flash 48. The distance measurement control unit 42 controls the focusing of the photographing lens 10. The shutter control unit 40 and the distance measurement control unit 42 are controlled using the TTL method, and the system control circuit 50 performs shutter control based on the calculation result obtained by calculating the image data captured by the image sensor 14 by the image processing circuit 20. The unit 40 and the distance measurement control unit 42 are controlled. The zoom control unit 44 controls zooming of the taking lens 10. The barrier control unit 46 controls the operation of the protection unit 102 that is a lens barrier. The strobe (flash) 48 includes a light emitting unit using a xenon tube and a charging unit using a capacitor, and has a charging voltage detection function, an AF auxiliary light projecting function, a strobe dimming function, and the like. The system control circuit 50 controls the overall operation of the imaging apparatus 100 and also performs an image extraction operation for extracting a part of the image data from the image data of the captured moving image. The system control circuit 50 includes a CPU 501 such as a microprocessor, and a ROM 502 that stores programs executed by the CPU 501.

  The memory 52 provides a work area for storing constants, variables, and the like for operating the system control circuit 50. The display unit 54 includes a liquid crystal display device, a speaker, and the like that display an operation state, a message, and the like of the imaging device using characters, images, sounds, and the like according to execution of a program in the system control circuit 50. One or a plurality of the display units 54 are installed in the vicinity of the operation unit of the imaging apparatus 100 at an easily visible position, and are configured by a combination of, for example, an LCD, an LED, and a sounding element. The display unit 54 is partially installed in the optical viewfinder 104. Among the contents displayed on the display unit 54, what is displayed on the LCD or the like is a single shot / continuous shooting display, a self-timer display, a compression ratio display, a recording pixel number display, a recording number display, and a remaining image number display. , Shutter speed display, aperture value display, and exposure compensation display. In addition, a strobe display, a red-eye reduction display, a macro shooting display, a buzzer setting display, a clock battery level display, a battery level display, an error display, a multi-digit number information display, and a storage medium 200 and 210 attachment / detachment status display is there. Furthermore, there are a communication I / F operation display, a date / time display, a display showing a connection state with an external computer, and the like.

  Among the display contents of the display unit 54, what is displayed on the optical viewfinder 104 includes in-focus display, camera shake warning display, flash charge display, shutter speed display, aperture value display, exposure correction display, and the like. Among the display contents of the display unit 54, what is displayed on a lamp or the like includes a self-timer notification lamp, and the self-timer notification lamp may be used in common with AF auxiliary light. The nonvolatile memory 56 is an electrically erasable / recordable memory, and records the contents of the memory 52 as necessary. For example, an EEPROM or the like is used. The nonvolatile memory 56 also has a function as a reproduction time storage unit that stores the quick review reproduction time input by the operation unit 74. The timer 58 measures the elapsed time.

  Reference numerals 60, 62, 64, 66, 68, 70, 72 and 74 are operation members for inputting various operation instructions of the system control circuit 50, such as switches, dials, touch panels, pointing by line-of-sight detection, voice recognition devices, and the like. It is composed of one or a plurality of combinations.

  Next, these operation members will be described.

  The power switch 60 can switch the power of the imaging apparatus 100 on and off. In addition, the power-on and power-off settings of various accessory devices such as the storage media 200 and 210 connected to the imaging device 100 can be switched together. The mode dial switch 62 can set various function modes such as a still image shooting mode, a moving image shooting mode, and a playback mode. The release switch SW1 (64) is turned on during the operation of a release button (not shown), and AF (autofocus) processing, AE (automatic exposure) processing, WB (white balance) processing, and EF (strobe adjustment) are performed during still image shooting. Instructs the start of operation such as light processing. The release switch SW2 (66) is turned on when the operation of the release button is completed. At the time of still image shooting, the release switch SW2 (66) performs an exposure process of writing image data shot by the image sensor 14 into the image memory 30 via the memory control circuit 22. Also, a development process using computations by the image processing circuit 20 and the memory control circuit 22, and a series of processing operations that read image data from the image memory 30, compress it by the compression / decompression circuit 32 and write it to the storage medium 200 or 210 are started Instruct. The image display on / off switch 68 can set on / off of the display of the image display unit 28. With this function, when shooting using the optical viewfinder 104, it is possible to save power by cutting off the current supply to the image display unit 28 such as an LCD. When the movie shooting button 70 is turned on when the movie is not being shot, the movie shooting is started. When the movie shooting button 70 is turned on during the movie shooting, the movie shooting is instructed to end. The zoom button 72 includes a + (plus) button and a-(minus) button (not shown). When the zoom button 72 is pressed, the zoom control unit 44 drives the photographing lens 10 to perform zooming. When the + (plus) button is pressed, the photographic lens 10 is driven to zoom in the direction in which the image is narrowed, and when the-(minus) button is pressed, the photographic lens 10 is driven in the direction in which the image is expanded to zoom. To do. The operation unit 74 includes various buttons, a touch panel, and the like, and includes a menu button, a set button, a macro button, a multi-screen playback page break button, a strobe setting button, and a single shooting / continuous shooting / self-timer switching button. Further, there are a menu movement + (plus) button, a menu movement-(minus) button, a reproduction image movement + (plus) button, a reproduction image movement-(minus) button, a shooting image quality selection button, and an exposure correction button. Furthermore, it has a date / time setting button, a selection / switching button, an AF mode setting switch, and the like. The operation unit 74 is used as quick review display setting means (reproduction time setting means) when setting the quick review display time. The quick review image data storage flag 76 is set to “1” when quick review image data is stored during moving image shooting. The counter 77 is a quick review image data number counter and counts the number of quick review image data stored in the image memory 30. The quick review image data display number counter 78 is “0” when the quick review starts, and counts the number of image data for quick review displayed on the image display unit 28 from the start of the quick review to the end of the quick review. The luminance value memory 79 is a luminance value storage means, and temporarily stores the luminance value of the captured image data.

  The power control unit 80 includes a battery detection circuit, a DC / DC converter, a switch circuit that switches blocks to be energized, and the like. The power supply control unit 80 detects the presence / absence of a battery, the type of battery, and the remaining battery level, and controls the DC / DC converter based on the detection result and the instruction of the system control circuit 50 to obtain a necessary voltage. It supplies to each part containing the storage media 200 and 210 for a required period. The power supply unit includes a first inner connector 82, a first outer connector 84, a primary battery such as an alkaline battery or a lithium battery, a secondary battery such as a NiCd battery, a NiMH battery, or a Li battery, or a power source 86 such as an AC adapter. Have.

  Reference numerals 90 and 94 denote a first interface and a second interface with storage media 200 and 210 such as a memory card and a hard disk. Reference numerals 92 and 96 denote a second inner connector and a third inner connector for connecting to storage media 200 and 210 such as a memory card and a hard disk. The storage medium attachment / detachment detection unit 98 detects whether the storage mediums 200 and 210 are attached to the second and third connectors 92 and 96. In the present embodiment, the description is given assuming that there are two systems of interfaces and connectors for attaching the storage medium. Of course, one or a plurality of interfaces and connectors for attaching the storage medium may be provided. Further, a configuration including a combination of interfaces and connectors of different standards may be used.

  The protection unit 102 functions as a barrier that prevents the imaging unit from being dirty or damaged by covering the imaging unit including the lens 10 of the imaging device 100. The optical viewfinder 104 can perform shooting using only the optical viewfinder 104 without using the electronic viewfinder function of the image display unit 28.

  The communication unit 110 has various communication functions such as RS232, USB, IEEE1394, P1284, SCSI, modem, LAN, and wireless communication. Reference numeral 112 denotes a connector for connecting the imaging apparatus 100 to another device by the communication unit 110, or an antenna in the case of wireless communication.

  A first storage medium 200 such as a memory card or a hard disk includes a first storage area 202 such as a semiconductor memory or a magnetic disk, a third interface 204 with the imaging apparatus 100, and a second interface connected to the imaging apparatus 100. And an outer connector 206. A second storage medium 210 such as a memory card or a hard disk is connected to a second storage area 212 such as a semiconductor memory or a magnetic disk, a fourth interface 214 with the imaging apparatus 100, and a third interface connected to the imaging apparatus 100. The outer connector 216 is provided.

  Next, with reference to FIG. 2, a quick review setting method for the imaging apparatus according to the embodiment of the present invention will be described.

  2A to 2E are diagrams illustrating an example of a setting display screen for performing settings relating to a quick review in the imaging apparatus according to the embodiment of the present invention.

  When the menu button of the operation unit 74 is turned on, various setting screens related to the imaging apparatus are displayed on the display unit 54. When setting for quick review, first, the “right” button or “left” button of the operation unit 74 is operated, and “playback” is selected from “photographing”, “playback”, “setup”, and “customize”. . Subsequently, the “up” button or “down” button of the operation unit 74 is operated to select a menu item to be set. On the right side of the menu item, the currently set menu content is displayed (FIG. 2A).

  Here, when setting the quick review, the “upper” button or the “lower” button of the operation unit 74 is operated to select the “confirm image” menu item. When the set button of the operation unit 74 is turned on in this state, “OFF” or “ON” as a selection item of the menu item “confirm image” is displayed (FIG. 2B). In this state, operate the “up” button or “down” button of the operation unit 74 to move the cursor, and select “OFF” when quick review is not performed, and “ON” when quick review is performed. Then, the set button of the operation unit 74 is turned on again. In this way, you can set whether to perform a quick review. When changing the display time of the quick review, the “up” button or “down” button of the operation unit 74 is operated to select the “image check time” menu item, and the set button of the operation unit 74 Is turned on (FIG. 2C). Here, when the “right” button or “left” button of the operation unit 74 is operated, the confirmation time of the image is changed. Therefore, the photographer selects a desired confirmation time and turns on the set button of the operation unit 74. . In the example of FIG. 2C, the display time is set to 5 seconds.

  When changing the contents to be confirmed at the time of the quick review, the “up” button or the “down” button of the operation unit 74 is operated, the menu item “contents of image confirmation” is selected, and the set button of the operation unit 74 is pressed. Turn on. Here, “time” and “person”, “brightness” and “zoom” are displayed as selection items (extraction conditions) of “confirmation contents of image” (FIG. 2D). In this state, the “up” button or the “down” button of the operation unit 74 is operated to move the cursor, and “time” is selected when it is desired to check the photographed image for every predetermined time from the photographing start to the photographing end. If the user wants to confirm a scene where a person is photographed at a predetermined size or larger, “person” is selected. In addition, “brightness” is selected when it is desired to check a scene where the luminance has changed greatly during moving image shooting, and “zoom” is selected when a scene where zoom operation has been performed during moving image shooting (whether or not zoom operation is performed) is selected. Then, the set button of the operation unit 74 is turned on again. Thereby, the image extracted as a quick review can be designated.

  Next, when changing the display method of the quick review, the “up” button or the “down” button of the operation unit 74 is operated to select “display image” and the set button of the operation unit 74 is turned on. . As a selection item of this “image display”, “sequential”, “divided / still image”, and “divided / moving image” are displayed (FIG. 2E). In this state, the “up” button or “down” button of the operation unit 74 is operated to move the cursor, and “sequential” is selected to display the photographed images one by one in the order of photographing. Also, “divided / moving image” is selected to display a plurality of captured images simultaneously as still images, and “divided / moving image” is selected to display a plurality of captured images simultaneously as moving images.

  Various settings relating to the quick review input and set using the operation unit 74 in this manner are stored in the nonvolatile memory 56 and are referred to when creating the quick review image data and during the quick review. In the first to fifth embodiments described below, processing corresponding to selection of image confirmation content and image display shown in FIG. 2 is executed.

  Next, the operation of the imaging apparatus according to the first embodiment of the present invention will be described with reference to FIGS.

  FIG. 3 is a flowchart showing the operation and processing procedure of the imaging apparatus according to the first embodiment of the present invention. Note that a program for executing this processing is stored in the ROM 502 and executed under the control of the CPU 501. Therefore, the operation subject of each step in the following description is the CPU 501. In the first embodiment, image data for quick review is created and stored in a storage medium every time a predetermined time elapses during moving image shooting. At the time of quick review, when a plurality of image data for quick review are stored, each image is reproduced and displayed in order for the time designated in FIG.

  This process is started when the power is turned on. First, in step S101, flags and control variables are initialized, and then in step S102, the image display of the image display unit 28 is initialized to an off state. Next, it progresses to step S103, it is judged whether the power switch 60 was turned on, and if the power switch 60 is off, it will progress to step S104 and will change the display of the display part 54 to an end state. Then, the barrier of the protection unit 102 is closed via the barrier control unit 46 to protect the imaging unit. Further, necessary parameters, setting values, and setting modes including flags and control variables are recorded in the nonvolatile memory 56. In addition, the power control unit 80 is controlled to perform predetermined end processing such as shutting off unnecessary power of each unit of the imaging apparatus 100 including the image display unit 28.

  On the other hand, if the power switch 60 is turned on in step S103, the process proceeds to step S105, where the setting position of the mode dial switch 62 is determined, and it is determined whether the moving image shooting mode is set. If it is not the moving image shooting mode, the process proceeds to step S106, and processing according to the selected mode is executed. Then, when the process is finished, the process returns to step S103.

  On the other hand, as a result of the determination in step S105, if the mode dial switch 62 determines that the moving image shooting mode is designated, the process proceeds to step S107. In step S107, based on the signal from the power supply control unit 80, it is determined whether the remaining battery capacity of the power supply unit 86 is sufficient and whether the power supply operating state is normal. If it is determined that there is a problem, the process proceeds to step S109, where a predetermined warning is displayed with an image or sound using the display unit 54, and the process returns to step S103.

  On the other hand, if it is determined in step S107 that there is no problem in the remaining battery capacity and the operating status, the process proceeds to step S108. In step S <b> 108, it is determined whether the operation state of the storage medium 200 or the storage medium 210 has no problem in the operation of the imaging apparatus 100, particularly the image data storage / reproduction operation with respect to the storage medium. Examples of cases where there is a problem include a case where the storage medium 200 and / or the storage medium 210 is not attached to the imaging apparatus 100. If it is determined that there is a problem, the process proceeds to step S109 to display a warning as described above. On the other hand, if it is determined in step S108 that there is no problem, the process proceeds to step S110. In step S110, initialization of shooting preparation for displaying the live view image (moving image captured by the image sensor 14 for displaying as a finder function before and after shooting) on the image display unit 28 is performed. In step S111, the timing generation circuit 18 is controlled to read out image data obtained by the image sensor 14 at the frame rate timing of live view display. In step S112, the image processing circuit 20 and the memory control circuit 22 perform image processing for live view display, and store the image data in the image display memory 24 as display image data. In step S113, the image data stored in the image display memory 24 is displayed on the image display unit 28 via the memory control circuit 22 and the D / A converter 26 (live view display). Then, the process proceeds to step S201 (FIG. 4). The electronic finder function is realized by sequentially repeating the operations in steps S111 to S113.

  Next, the operation of the image pickup apparatus during moving image shooting in the live view display state will be described with reference to the flowcharts of FIGS. 4 and 5 and FIG.

  4 and 5 are flowcharts showing an operation of creating an image for quick review and storing it in the image memory 30 at predetermined time intervals during moving image shooting in the imaging apparatus 100 according to Embodiment 1 of the present invention. Note that a program for executing this processing is stored in the ROM 502 and executed under the control of the CPU 501. Therefore, the operation subject of each step in the following description is the CPU 501.

  FIG. 6 is a diagram illustrating image data creation timing for quick review from the start to the end of shooting in the imaging apparatus 100 according to the first embodiment.

  In step S201 in FIG. 4, it is determined whether the moving image shooting mode is selected without changing the position of the mode dial switch 62. If the position of the mode dial switch 62 is changed and a mode other than the moving image shooting mode is selected, the process proceeds to step S103 in FIG.

  On the other hand, if the moving image shooting mode is still selected in step S201, the process proceeds to step S202. In step S202, it is determined whether the moving image shooting button 70 is turned on and moving image shooting is started. If the moving image shooting button 70 is not turned on and moving image shooting is not started, the process proceeds to step S203, and the timing generation circuit 18 reads the captured image data at the frame rate timing of the live view display. In step S204, the image data is subjected to image processing for live view display via the image processing circuit 20 and the memory control circuit 22 and stored in the image display memory 24. In step S205, the image data stored in the image display memory 24 is displayed on the image display unit 28 via the memory control circuit 22 and the D / A converter 26. In step S206, the image processing circuit 20 performs a predetermined photometric calculation on the signal obtained from the image sensor 14, and stores the calculation result in the system memory 52. Based on the calculation result, the aperture / shutter 12 is driven via the shutter control unit 40, the AE process is performed on the live view image, and the process proceeds to step S201.

  On the other hand, when it is determined in step S202 that the moving image shooting button 70 is turned on and moving image shooting is started, the process proceeds to step S207, where the image processing circuit 20 performs a predetermined distance measurement operation on the signal obtained from the image sensor 14, The calculation result is stored in the system memory 52. Then, based on the calculation result, AF processing is performed using the distance measurement control unit 42, and the photographing lens 10 is focused on the subject. In step S208, the image processing circuit 20 performs a predetermined photometric calculation on the signal obtained from the image sensor 14, and stores the calculation result in the system memory 52. Based on this calculation result, the shutter control unit 40 is used to perform AE processing.

  In step S209, the moving image shooting process in a series of shooting operations is executed. The timing generation circuit 18 is controlled to store image data captured by the image sensor 14 in the image memory 30. Next, the process proceeds to step S210, where the time measured by the timer 58 is set to "0" and time counting is started. In step S211, the count value of the quick review image data number counter 77 is incremented by "+1". In step S212, the quick review image data storage flag 76 is set to "1".

  In step S213, image data to be stored in the storage medium 200 or 210 and image data to be displayed as a quick review after shooting is created from the image data stored in the image memory 30 in step S209. The image data stored in the storage medium 200 or the storage medium 210 is subjected to predetermined development and compression processing in the JPEG format or the like by the image processing circuit 20 and stored again in the image memory 30. In addition, image processing such as predetermined development, pixel thinning, and compression processing is performed on image data to be displayed as a quick review after moving image shooting based on the number of pixels of the image display unit 28 and the setting of the quick review display method described above. Done. Then, the image data is stored in the image memory 30 in association with the count value (initially “1”) of the quick review image data number counter 77.

  In step S214, the image data stored in the storage medium 200 or 210 stored in the image memory 30 is stored in the storage medium 200 or the storage area 202 of the storage medium 210 as the first frame of the moving image file. Is stored in the storage area 212. In step S215, the image data obtained from the image sensor 14 in step S209 is subjected to image processing for live view display via the image processing circuit 20 and the memory control circuit 22. Then, it is stored in the image display memory 24 as image data. In step S216, the image data stored in the image display memory 24 is displayed on the image display unit 28 via the memory control circuit 22 and the D / A converter 26, and the process proceeds to step S301 (FIG. 5).

  In step S301, it is determined whether the position of the mode dial switch 62 is not changed and the moving image shooting mode remains. If the position of the mode dial switch 62 is changed and a mode other than the moving image shooting mode is selected, the process proceeds to step S103 in FIG. On the other hand, if the moving image shooting mode is still selected in step S301, the process proceeds to step S302. In step S302, it is determined whether or not the moving image shooting button 70 is turned on again to instruct the end of moving image shooting. If the moving image shooting button 70 is turned on again and the end of moving image shooting is instructed, the process proceeds to step S303, and it is determined whether or not the count value NC of the quick review image data number counter 77 is “1”. . If the count value NC of the quick review image data number counter 77 is not “1”, the process proceeds to step S304, the count value NC of the quick review image data number counter 77 is incremented by 1, and the process proceeds to step S305. On the other hand, if the count value NC of the quick review image data number counter 77 is “1” in step S303, there is no quick review image data stored after the predetermined time t1, and the process proceeds to step S305. Start a review. In this case, only the last quick review image data stored in step S317 is displayed. The details of the quick review operation will be described later in detail with reference to FIGS.

  Then, after the quick review display is performed in step S305, the process proceeds to step S306, the image data for quick review stored in the image memory 30 is deleted, and the process proceeds to step S103 in FIG.

  On the other hand, if it is determined in step S302 that moving image shooting is continued, the process proceeds to step S307, where the image processing circuit 20 performs a predetermined distance measurement operation on the image data obtained from the image sensor 14, and the calculation is performed. The result is stored in the system memory 52. Then, based on the calculation result, AF processing is performed via the distance measurement control unit 42, and the photographing lens 10 is focused on the subject. In step S 308, the image processing circuit 20 performs a predetermined photometric calculation on the image data obtained from the image sensor 14 and stores the calculation result in the system memory 52. Based on the calculation result, the aperture / shutter 12 is driven via the shutter control unit 40 to perform the AE process. In step S 309, the timing generation circuit 18 is controlled to store the image data from the image sensor 14 in the image memory 30.

  Next, proceeding to step S310, it is determined whether or not the measured value of the timer 58 has reached a predetermined time t1 set in advance. If the time measured by the timer 58 has not reached the predetermined time t1, the process proceeds to step S311 to determine whether or not the quick review image data storage flag 76 is “1”. If the quick review image data storage flag 76 is “1”, the process proceeds to step S312, the value of the storage flag 76 is set to “0”, and the process proceeds to step S317. On the other hand, if the quick review image data storage flag 76 is not “1” in step S311, the process proceeds to step S313, and the latest quick review image data stored in the image memory 30 is deleted in step S317, and the process proceeds to step S317. move on. In the latest image data of the quick review image data sequentially stored in this way, the count value of the associated quick review image data number counter 77 is the largest. Therefore, even when there are a plurality of quick review image data stored in the image memory 30, the latest quick review image data can be determined.

  On the other hand, if the time measured by the timer 58 has passed the predetermined time t1 in step S310, the process proceeds to step S314, the timer 58 is set to “0”, and the time measurement of the predetermined time t1 by the timer 58 is started again. In step S315, the count value NC of the quick review image data number counter 77 is incremented by "+1". In step S316, the quick review image data storage flag 76 is set to “1”. In step S317, image data to be stored in the storage medium 200 or 210 is created from the image data stored in the image memory 30 in step S309. Image data to be displayed as a quick review is created. The created image data is subjected to predetermined image processing by the image processing circuit 20 and stored again in the image memory 30. Further, image data to be displayed as a quick review is created by performing image processing based on the number of pixels of the image display unit 28 and the setting of the quick review display method described above. The image data is stored in the image memory 30 in association with the count value NC of the quick review image data number counter 77. In step S318, the image data stored in the image memory 30 is written in the storage area of the storage medium 200 or 210 as image data constituting the moving image file. In step S319, the image data obtained from the image sensor 14 in step S309 is subjected to image processing for live view display via the image processing circuit 20 and the memory control circuit 22 to be stored in the image display memory 24. Remember. In step S320, the image data stored in the image display memory 24 is displayed on the image display unit 28 via the memory control circuit 22 and the D / A converter 26.

  As described above, according to the imaging apparatus according to the first embodiment, as shown in FIG. 6, quick review image data can be created and stored every predetermined time t1 during moving image shooting. Therefore, at the time of quick review after moving image shooting, it is possible to check a moving image shot at the start of shooting and at the end of shooting and every predetermined time t1, so that the entire shot moving image can be checked.

  FIG. 6 is a diagram illustrating the creation timing of quick review image data according to the first embodiment.

  In this example, quick review image data is created and stored every time t1 at the start and end of moving image shooting and during moving image shooting.

  In addition, the imaging device with this configuration can display the image data at the start and end of video recording as a quick review, so it is possible to check the image at the start of video recording and the image at the end of video recording. It is.

  Next, a quick review display operation of the imaging apparatus according to the first embodiment of the present invention will be described with reference to FIGS. First, with reference to FIGS. 7 and 8, a quick review operation in the case where image data for quick review are sequentially displayed one by one in the order of photographing will be described.

  FIG. 7 is a flowchart showing a quick review operation in the imaging apparatus according to the first embodiment. Note that a program for executing this processing is stored in the ROM 502 and executed under the control of the CPU 501. Therefore, the operation subject of each step in the following description is the CPU 501.

  FIG. 8 is a timing diagram illustrating the timing of quick review in the imaging apparatus according to the first embodiment.

  First, in step S401, the display time T1 per quick review image data is calculated from the count value NC of the quick review image data number counter 77 and the quick review display time T preset by the photographer by the operation unit 74. calculate. In the example of FIG. 2, the quick review display time T is 5 seconds. Therefore, if the count value NC of the counter 77 is “5”, the display time T1 is 1 second. In step S402, the quick review image data associated with the count value “1” of the quick review image data number counter 77 is read from the image memory 30, and the memory control circuit 22 and the D / A converter 26 are read. Via the image display unit 28. Next, in step S403, the timer 58 starts counting, and the count value NS of the quick review image data display number counter 78 is set to “1”. In step S405, it is determined whether or not the time measured by the timer 58 has reached the display time T1 per one quick review image data obtained in step S401. If the time measured by the timer 58 has not reached the display time T1, the determination operation in step S405 is repeated. When the time measured by the timer 58 reaches the display time T1, the process proceeds to step S406. In step S406, it is determined whether or not the count value NS of the quick review image data display number counter 78 is the same as the count value NC of the quick review image data number counter 77. If it is determined that the count value NS of the display number counter 78 is the same as the count value NC of the quick review image data number counter 77, all the image data stored for the quick review is displayed. The review ends.

  On the other hand, if the count value NS of the display number counter 78 has not reached the count value NC of the quick review image data number counter 77 in step S406, the process proceeds to step S407. In step S407, the quick review image data associated with the count value “NS + 1” of the quick review image data number counter 77 is read from the image memory 30. Then, the image is displayed on the image display unit 28 via the memory control circuit 22 and the D / A converter 26. In step S408, the time measured by the timer 58 is set to "0" and the time measured by the timer 58 is started again. In step S409, the count value NS of the quick review image data display number counter 78 is incremented by "+1". Then, the process proceeds to step S405, and the quick review image data is displayed for the display time T1. When the above process is executed for the number of sheets represented by the count value NC of the quick review image data sheet counter 77, this process ends.

  As a result, as shown in FIG. 8, during the quick review display time T preset by the photographer, images stored as quick review image data are sequentially displayed in the order in which they were taken.

  Next, with reference to FIG. 9 to FIG. 11, a quick review operation in the case where a plurality of images are simultaneously displayed in the quick review image data will be described.

  FIG. 9 is a flowchart showing a quick review operation when a plurality of images are simultaneously displayed in the quick review image data in the imaging apparatus according to the first embodiment. Note that a program for executing this processing is stored in the ROM 502 and executed under the control of the CPU 501. Therefore, the operation subject of each step in the following description is the CPU 501.

  FIG. 10 is a diagram illustrating an example of display contents of the image display unit 28 when a plurality of quick review image data are displayed simultaneously.

  FIG. 11 is a diagram showing the quick review operation timing when a plurality of quick review image data is displayed on the image display unit 28 at the same time.

  When there are a predetermined number or more of quick review image data, the display area per image data displayed on the image display unit 28 becomes very small, so that it is difficult to confirm the image. Therefore, in the first embodiment, “9” is the upper limit for the number of image data to be displayed during the quick review. Therefore, when the count value NC of the quick review image data number counter 77 is “1” to “9”, the quick review display frame number Nf is “1”, and all the stored quick reviews are stored in one screen. Review image data can be displayed. In addition, when the count value NC of the quick review image data number counter 77 is “10” to “18”, the quick review display frame number Nf is “2”, which is stored by switching between the two screens. All image data for quick review can be displayed. The same applies to more cases.

  In FIG. 9, first, in step S501, it is determined whether or not the count value NC of the quick review image data number counter 77 is larger than “9”. If the count value NC of the quick review image data number counter 77 is “9” or less, the process proceeds to step S502. In step S502, the display area per quick review image data is calculated from the displayable area of the image display unit 28 and the count value NC of the quick review image data number counter 77. In step S503, the image processing circuit 20 performs image processing on the quick review image data based on the calculated display area per quick review image data. Then, quick review display image data for simultaneously displaying all quick review image data stored in the image memory 30 is created. In step S504, the image is displayed on the image display unit 28 via the memory control circuit 22 and the D / A converter 26. Next, the process proceeds to step S505, and time measurement by the timer 58 is started. In step S506, it is checked whether or not the quick review display time T preset by the photographer has elapsed. If the time measured by the timer 58 exceeds the display time T, the quick review operation is terminated.

  On the other hand, if the count value NC of the quick review image data number counter 77 is greater than “9” in step S501, the process proceeds to step S507. In step S507, the quick review display frame number Nf is calculated based on the count value NC of the quick review image data number counter 77. In step S508, the quick review display time T2 per quick review display is calculated from the number Nf of quick review display frames and the quick review display time T preset by the photographer through the operation unit 74. In step S509, the image processing circuit 20 performs image processing on the quick review image data based on the display area per quick review image data and the number Nf of quick review display frames. Then, all quick review display image data to be displayed in the frame is created. In step S510, the quick review display image data of the first frame is displayed on the image display unit 28 via the memory control circuit 22 and the D / A converter 26. At this time, as shown in FIG. 10, each quick review image is displayed in the image area divided into nine on the image display unit 28.

  Next, the process proceeds to step S511, and time measurement by the timer 58 is started. In step S512, the count value NS of the quick review image data display number counter 78 is set to “1”. In step S513, it is determined whether or not the time measured by the timer 58 has reached the quick review display time T2 per quick review display calculated in step S508. If it is determined that the time measured by the timer 58 has not reached the quick review display time T2, the process of step S513 is repeated to continue the quick review display at the present time.

  If it is determined in step S513 that the time measured by the timer 58 has reached the quick review display time T2 per quick review display image data, the process proceeds to step S514. In step S514, it is determined whether the count value NS of the quick review image data number counter 77 is the same as the number of quick review display frames Nf. If it is determined that the count value NS of the display number counter 78 is the same as the quick review display frame number Nf, the quick review operation ends. On the other hand, if it is determined in step S514 that the count value NS has not reached the quick review display frame number Nf, the process proceeds to step S515. In step S515, the quick review display image data of the next frame is displayed on the image display unit 28 via the memory control circuit 22 and the D / A converter 26. In step S516, the timer 58 starts time measurement. In step S517, the count value NS of the quick review image data display number counter 78 is set to “+1”, and the process proceeds to step S513.

  As described above, according to the first embodiment, the still image data of the moving image captured at the start of shooting, every predetermined time during shooting, and at the end of shooting is stored in the image memory 30, and the quick review image after moving image shooting is performed. It can be stored and displayed as data. As a result, the photographer can confirm the entire captured moving image.

  Further, when there are a plurality of quick review image data, all or some of the plurality of quick review image data can be displayed simultaneously. Alternatively, each quick review image data can be sequentially displayed in time order.

[Embodiment 2]
In the second embodiment, an operation will be described in which when a main subject is photographed larger than a predetermined size during video recording, it is stored in the image memory 30 as quick review image data and displayed on the image display unit 28 as a quick review. The configuration of the imaging apparatus according to the second embodiment is the same as that of the imaging apparatus 100 according to the first embodiment. In the second embodiment, the same processes as those in steps S101 to S113 in FIG. 3 and steps S201 to S216 in FIG. 4 are executed, and thus description thereof is omitted.

  FIG. 12 is a flowchart illustrating an operation of creating and storing quick review image data when the main subject is photographed larger than a predetermined size during moving image photographing in the imaging apparatus 100 according to the second embodiment of the present invention. In the second embodiment, the main subject will be described as a person. Note that a program for executing this processing is stored in the ROM 502 and executed under the control of the CPU 501. Therefore, the operation subject of each step in the following description is the CPU 501.

  This process is shown as a process after the live view image is displayed in step S216 in FIG. 4. In step S601, whether or not the moving image shooting mode is continued without changing the position of the mode dial switch 62. Determine whether. If the position of the mode dial switch 62 is changed and a mode other than the moving image shooting mode is selected, the process proceeds to step S103 in FIG. On the other hand, if the moving image shooting mode is still selected in step S601, the process proceeds to step S602, where it is determined whether the moving image shooting button 70 is turned on again and the end of moving image shooting is instructed. When the end of moving image shooting is instructed, the process proceeds to step S603, where it is determined whether or not the count value NC of the quick review image data number counter 77 is “1”. If the count value NC is not “1”, the process proceeds to step S604, the count value NC of the quick review image data number counter 77 is incremented by 1, and the process proceeds to step S605.

  On the other hand, if the count value NC of the quick review image data number counter 77 is “1” in step S603, the process proceeds to step S605 to start the quick review. Here, after the quick review display is performed, the process proceeds to step S606, where the image data for quick review stored in the image memory 30 is deleted, and the process proceeds to step S103 in FIG.

  On the other hand, if it is determined in step S602 that the moving image shooting is continued, the process proceeds to step S607, where the image processing circuit 20 performs a predetermined distance calculation on the image data obtained from the image sensor 14, and the calculation result Is stored in the system memory 52. Then, based on the calculation result, AF processing is performed via the distance measurement control unit 42 to focus the photographing lens 10 on the subject. In step S 608, the image processing circuit 20 performs a predetermined photometric calculation on the image data obtained from the image sensor 14 and stores the calculation result in the system memory 52. Based on the calculation result, AE processing for driving the aperture / shutter 12 through the shutter control unit 40 is performed. In step S609, the timing generation circuit 18 is controlled to convert the signal from the image sensor 14 into image data and store it in the image memory 30. In step S610, image data to be recorded in the storage medium 200 or 210 is created from the image data stored in the image memory 30. Then, predetermined image processing is performed by the image processing circuit 20 and stored in the image memory 30 again. In step S611, the image data stored in the image memory 30 is written and stored in the storage area of the storage medium 200 or the storage medium 210 as image data constituting a moving image file.

  In step S612, it is determined whether a person's face is captured in the created image data. As a method for determining whether or not a person's face has been photographed in the image data in this way, face detection technology that detects and determines the positions of the eyes, nose, and mouth, which are the elements of the person's face, is widely known. It has been. If it is determined that the photographed image data does not include a human face, the process proceeds to step S615. On the other hand, if it is determined in step S612 that the face of the person is included in the image data, the process proceeds to step S613 to calculate the ratio of the area occupied by the face of the photographed person in the image data. Then, it is determined whether the ratio of the area occupied by the person's face is equal to or greater than a predetermined value of the entire image data. In the second embodiment, the predetermined value is “1/3”. As a method for determining whether the ratio of the area occupied by a person's face is 1/3 or more of the entire image data, it is possible to use the face detection technique described above. Further, from the eye, nose and mouth position detection results in step S612, the distances of the eyes, nose and mouth are measured, and the face size is calculated. From the calculation result, the ratio of the face in the entire image data can be calculated.

  In this way, if it is determined in step S613 that the ratio of the area occupied by the face of the photographed person is smaller than “1/3”, the process proceeds to step S615. If not, the process proceeds to step S614. In step S614, it is determined whether or not the amount of change between the immediately preceding frame image and the current frame image is greater than or equal to a predetermined amount. If the change amount is not greater than the predetermined amount, the process proceeds to step S615. In step S615, it is determined whether or not the quick review image data storage flag 76 is “1”. If the quick review image data storage flag 76 is “1”, the process proceeds to step S616, the value of the quick review image data storage flag 76 is set to “0”, and the process proceeds to step S621. If the quick review image data storage flag 76 is not “1” in step S615, the process proceeds to step S617, and the latest quick review image data stored in the image memory 30 is erased, and the process proceeds to step S621.

  On the other hand, if the amount of change between the previous frame image and the current frame image is greater than or equal to the predetermined amount in step S614, the process proceeds to step S619, and the count value NC of the quick review image data number counter 77 is set to “+1”. " In step S620, the quick review image data storage flag 76 is set to "1".

  In step S621, image data to be displayed as a quick review after shooting is created from the image data stored in the image memory 30 in step S609. Here, image processing is performed based on the number of pixels of the image display unit 28 and the setting of the quick review display method described above, and then stored in the image memory 30 in association with the count value NC of the quick review image data number counter 77. In step S622, the image data obtained from the image sensor 14 is subjected to image processing for live view display via the image processing circuit 20 and the memory control circuit 22, and stored in the image display memory 24. In step S623, the image data stored in the image display memory 24 is displayed on the image display unit 28 via the memory control circuit 22 and the D / A converter 26.

  As described above, according to the second embodiment, when the ratio of the main subject to the entire image data is greater than or equal to a predetermined value, the image data is stored in the image memory 30 and the image is used as quick review image data after moving image shooting. It is displayed on the display unit 28. As a result, the photographer can confirm the important part of the captured moving image. In addition, since the image data is stored in the image memory 30 at the start of shooting and at the end of shooting and displayed as quick review image data after moving image shooting, the entire shot moving image can be confirmed.

  In step S614 in FIG. 12, it is determined whether a predetermined time has elapsed based on the time value measured by the timer 58. The quick review image data may be stored when the ratio of the area occupied by the face of the person thus photographed is “1/3” and when the predetermined time T1 has elapsed. In this case, if it is determined in step S614 that the predetermined time has elapsed, it is necessary to initialize the timer 58 in the next step. Thereby, even when the ratio of the area occupied by the face of the photographed person is long, the number of images stored as quick review image data can be reduced.

[Embodiment 3]
Next, a third embodiment of the present invention will be described with reference to FIGS. 3 and 4 and FIGS. In the third embodiment, when zooming is performed during moving image shooting, the image data for quick review is stored in the image memory 30 and displayed on the image display unit 28 as a quick review. Note that the imaging apparatus according to the third embodiment has the same configuration as the imaging apparatus 100 according to the first embodiment, and is the same as steps S101 to S113 in FIG. 3 and steps S201 to S216 in FIG. Since the process is executed, the description thereof is omitted.

  FIGS. 13 and 14 are flowcharts for explaining an operation of creating quick review image data and storing it in the image memory 30 when zooming during moving image shooting in the imaging apparatus 100 according to the third embodiment of the present invention. . Note that a program for executing this processing is stored in the ROM 502 and executed under the control of the CPU 501. Therefore, the operation subject of each step in the following description is the CPU 501.

  FIG. 15 is a diagram illustrating image data creation timing for quick review from the start to the end of shooting in the imaging apparatus 100 according to the third embodiment of the present invention.

  The process shown in FIG. 13 is a process after the live view image is displayed in step S216 in FIG. 4, and in step S701, the position of the mode dial switch 62 is not changed and the moving image shooting mode is maintained. Determine whether or not. When the position of the mode dial switch 62 is changed and a mode other than the moving image shooting mode is selected, the process proceeds to step S103 in FIG. On the other hand, if the moving image shooting mode is still selected in step S701, the process proceeds to step S702, and it is determined whether the moving image shooting button 70 is turned on again to instruct the end of moving image shooting. If the end of moving image shooting is instructed, the process advances to step S703 to determine whether or not the count value NC of the quick review image data number counter 77 is “1”. If the count value NC of the number counter 77 is not “1”, the process proceeds to step S704, and the count value NC of the quick review image data number counter 77 is incremented by 1, and the process proceeds to step S705. On the other hand, if the count value NC of the number counter 77 is “1” in step S703, the process proceeds to step S705 and quick review is started. The processing in step S705 is the same as the processing in step S305 in FIG. After performing the quick review display in step S705 in this way, the process proceeds to step S706, the image data for quick review stored in the image memory 30 is deleted, and the process proceeds to step S103 in FIG.

  On the other hand, if the moving image shooting is continued in step S702, the process proceeds to step S707, where the image processing circuit 20 performs a predetermined distance measurement operation on the image data obtained from the image sensor 14, and the calculation result is used as a system. Store in the memory 52. Then, based on the calculation result, AF processing is performed via the distance measurement control unit 42 to focus the photographing lens 10 on the subject. In step S708, the image processing circuit 20 performs a predetermined photometric calculation on the image data obtained from the image sensor 14, and the calculation result is stored in the system memory 52. Then, based on the calculation result, AE processing for driving the aperture / shutter 12 through the shutter control unit 40 is performed. In step S 709, the timing generation circuit 18 is controlled to store the image data captured from the image sensor 14 in the image memory 30.

  In step S710, it is determined whether the zoom button 72 is turned on. If the zoom button 72 is turned on, the process proceeds to step S711. From the image data stored in the image memory 30 in step S709, image data to be stored in the storage medium, image data to be displayed as a quick review after shooting is completed, Create Here, the image data stored in the storage medium is subjected to predetermined image processing by the image processing circuit 20 and stored again in the image memory 30. The image data displayed as a quick review is subjected to image processing based on the number of pixels of the image display unit 28 and the setting of the quick review display method. Thereafter, the image data is stored in the image memory 30 in association with the count value NC of the quick review image data number counter 77. In step S712, the image data stored in the storage medium stored in the image memory 30 is stored in the storage medium as image data constituting the moving image file. In step S713, the image data obtained in step S709 is subjected to image processing for live view display via the image processing circuit 20 and the memory control circuit 22, and stored in the image display memory 24 as image data. Is done. In step S714, the image data stored in the image display memory 24 is displayed on the image display unit 28 via the memory control circuit 22 and the D / A converter 26. Then, the process proceeds to step S801 in FIG.

  On the other hand, if it is determined in step S710 that the zoom button 72 has not been turned on, the process advances to step S715 to determine whether or not the quick review image data storage flag 76 is “1”. If the quick review image data storage flag 76 is “1”, the process proceeds to step S716, the value of the quick review image data storage flag 76 is set to “0”, and the process proceeds to step S718. On the other hand, if the quick review image data storage flag 76 is not “1” in step S715, the process proceeds to step S717, and the latest quick review image data stored in the image memory 30 is deleted, and the process proceeds to step S718. move on. In step S718, image data to be stored in the storage medium and Ick review image data are created from the image data stored in the image memory 30 in step S709. These image data are subjected to predetermined image processing by the image processing circuit 20 and stored in the image memory 30. In step S719, the image data stored in the storage medium stored in the image memory 30 is stored in the storage medium as image data constituting the moving image file. In step S720, the image data obtained in step S709 is subjected to image processing for live view display via the image processing circuit 20 and the memory control circuit 22, and stored in the image display memory 24. In step S721, the image data stored in the image display memory 24 is displayed on the image display unit 28 via the memory control circuit 22 and the D / A converter 26. Then, the process returns to step S701.

  Next, in step S801 of FIG. 14 proceeding from step S714 of FIG. 13, it is determined whether or not the moving image shooting mode is selected without changing the position of the mode dial switch 62. If the position of the mode dial switch 62 is changed and a mode other than the moving image shooting mode is selected, the process proceeds to step S103 in FIG.

  On the other hand, if the moving image shooting mode is still selected in step S801, the process proceeds to step S802, and it is determined whether or not the moving image shooting button 70 is turned on again to instruct the end of moving image shooting. If the end of moving image shooting is instructed, the process proceeds to step S803, where it is determined whether or not the count value NC of the quick review image data number counter 77 is “1”. If the count value NC of the number counter 77 is not “1”, the count value NC of the quick review image data number counter 77 is incremented by 1 in step S804, and the process proceeds to step S805. On the other hand, if the count value NC of the quick review image data number counter 77 is “1” in step S803, the process proceeds to step S805 to start quick review. After the quick review display, the process proceeds to step S806, where the quick review image data stored in the image memory 30 is deleted, and the process proceeds to step S103 in FIG.

  If the moving image shooting is continued in step S802, the process proceeds to step S807, where the image processing circuit 20 performs a predetermined distance measurement operation on the image data obtained from the image sensor 14, and the calculation result is stored in the system memory. 52. Then, based on the calculation result, AF processing is performed via the distance measurement control unit 42 to focus the photographing lens 10 on the subject. In step S 808, the image processing circuit 20 performs a predetermined photometric calculation on the image data obtained from the image sensor 14 and stores the calculation result in the system memory 52. Based on the calculation result, the aperture / shutter 12 is driven via the shutter control unit 40 to perform the AE process. In step S809, the timing generation circuit 18 is controlled to execute a moving image shooting process for storing image data shot by the image sensor 14 in the image memory 30.

  In step S810, it is determined whether the zoom button 72 is turned on. If the zoom button 72 is turned on, the state turned on in step S710 is continued, and the process proceeds to step S811, and it is determined whether or not the quick review image data storage flag 76 is “1”. . If the quick review image data storage flag 76 is “1”, the process proceeds to step S812, the value of the quick review image data storage flag 76 is set to “0”, and the process proceeds to step S814. On the other hand, if the quick review image data storage flag 76 is not “1” in step S811, the process proceeds to step S813, and the latest quick review image data stored in the image memory 30 is deleted, and the process proceeds to step S814. move on. Through the processing in steps S811 to S813, the image data stored as the quick review image data in the previous frame is deleted.

Next, the process proceeds to step S814, and the same processing as step S213 in FIG. 4 (S317 in FIG. 3, S711 in FIG. 13, etc.) is performed. That is, image data to be stored in the storage medium and image data to be displayed as a quick review after shooting is created from the image data stored in the image memory 30. The image data stored in the storage medium is subjected to predetermined image processing by the image processing circuit 20 and stored again in the image memory 30. Further, after image processing of image data to be displayed as a quick review is performed, the image data is stored in the image memory 30 in association with the count value NC of the quick review image data number counter 77. In step S815, the image data stored in the storage medium stored in the image memory 30 is stored in the storage medium. In step S816, image data to be displayed as a live view is stored in the image display memory 24. In step S817, the image data stored in the image display memory 24 is displayed on the image display unit 28 via the memory control circuit 22 and the D / A converter 26, and the process returns to step S701 in FIG. If it is determined in step S810 that the zoom button 72 has been turned off, the process advances to step S818 to increment the count value NC of the quick review image data number counter 77 by “+1”. In step S819, the quick review image data storage flag 76 is set to “1”, and the flow advances to step S820. In step S820, as in step S814, two image data are created from the image data stored in the image memory 30, image data stored in the storage medium and image data to be displayed as a quick review after shooting. In step S821, the image data stored in the storage medium stored in the image memory 30 is stored in the storage medium as image data constituting a moving image file. In step S822, image processing for live view display is performed on the image data obtained from the image sensor 14 in step S809 via the image processing circuit 20 and the memory control circuit 22, and the image display memory is displayed as image data. 24. In step S823, the image data stored in the image display memory 24 is displayed on the image display unit 28 via the memory control circuit 22 and the D / A converter 26, and the process returns to step S701 (FIG. 13).

  FIG. 15 is a diagram illustrating image data extraction timing for extracting a quick review image according to the third embodiment of the present invention.

  Here, after the zoom button 72 is turned on during moving image shooting, when the zoom button 72 is turned off and zooming is completed, the image data at that time is stored in the image memory 30 as image data for quick review. The quick review image data is displayed on the image display unit 28 as a quick review image after moving image shooting. This is because the shooting scene and composition often change before and after the zoom operation, and it can be assumed that the image shot in that state is an image of an important scene. In this way, the photographer can easily confirm the important part of the captured moving image.

  As described above, in the imaging apparatus according to the third embodiment, the photographer can confirm the zoomed image that is considered to be an important part of the captured moving image as a quick review.

  Also, the image data is stored in the image memory 30 at the start of shooting and at the end of shooting, and is displayed as quick review image data after moving image shooting, so that the entire shot moving image can be confirmed.

[Embodiment 4]
Next, a fourth embodiment of the present invention will be described with reference to FIG. 3, FIG. 4, FIG. 16, and FIG.

  In the fourth embodiment, an operation will be described in which, when the luminance changes by a predetermined value or more during moving image shooting, the quick review image data is stored in the image memory 30 and displayed as a quick review on the image display unit 28. Note that the internal configuration of the imaging apparatus 100 according to the fourth embodiment is the same as that of the first embodiment, and the processing in steps S101 to S113 of FIG. .

  FIGS. 16 and 17 illustrate an operation of creating quick review image data and storing it in the image memory 30 when the luminance changes by a predetermined value or more during moving image shooting in the imaging apparatus according to the fourth embodiment of the present invention. It is a flowchart. In FIG. 16, the processing in steps S901 to S912 is the same as the processing in steps S201 to S212 in FIG. A program for executing this processing is stored in the ROM 502 and executed under the control of the CPU 501. Therefore, the operation subject of each step in the following description is the CPU 501.

  In step S913, image data to be stored in the storage medium is created from the image data stored in the image memory 30 in step S909, the image processing circuit 20 performs predetermined image processing, and the image data is stored in the image memory 30 again. In step S914, the image data is stored in the storage medium as the first frame of the moving image file. In step S915, the brightness value of the image data is calculated from the image data created in step S913. In step S916, the calculated luminance value is stored in the luminance value memory 79. In step S917, image data to be displayed as a quick review after shooting is created from the image data stored in the image memory 30 in step S909. Here, image processing is performed based on the number of pixels of the image display unit 28 and the setting of the quick review display method described above, and then stored in the image memory 30 in association with the count value NC of the quick review image data number counter 77. In step S918, the image processing circuit 20 and the memory control circuit 22 perform image processing for live view display on the image data obtained in step S909, and store the image data in the image display memory 24 as image data. In step S919, the image data stored in the image display memory 24 is displayed on the image display unit 28 via the memory control circuit 22 and the D / A converter 26, and the flow advances to step S1001 (FIG. 17).

  The processing in steps S1001 to S1011 in FIG. 17 is the same as the processing in steps S601 to S611 in FIG.

  After storing in the recording medium in step S1011, the process proceeds to step S1012 to calculate the luminance value of the image data from the image data created in step S1011. In step S1013, it is determined from the brightness value stored in the brightness value memory 79 whether the brightness value has changed by a predetermined value or more. If the luminance value has not changed more than the predetermined value, the process proceeds to step S1015. Here, the processing of steps S1015 to S1017 is the same as the processing of steps S615 to 617 of FIG. When step S1016 or S1017 is executed, the process proceeds to step S1021.

  On the other hand, if it is determined in step S1013 that the luminance value has changed by a predetermined value or more, the process advances to step S1019 to increment the count value NC of the quick review image data sheet counter 77 by “+1”. In step S1020, the quick review image data storage flag 76 is set to “1”. In step S1021, the brightness value stored in the brightness value memory 79 is deleted, and in step S1022, the brightness value calculated in step S1012 is stored in the brightness value memory 79. In step S1023, image data to be displayed as a quick review after shooting is created from the image data stored in the image memory 30 in step S1009. Here, image processing is performed based on the number of pixels of the image display unit 28 and the setting of the quick review display method described above, and then stored in the image memory 30 in association with the count value NC of the quick review image data number counter 77. In step S1024, the image data obtained from the image sensor 14 in step S1009 is subjected to image processing for live view display via the image processing circuit 20 and the memory control circuit 22 to obtain captured moving image data. Store in the image display memory 24. In step S1025, the image data stored in the image display memory 24 is displayed on the image display unit 28 via the memory control circuit 22 and the D / A converter 26, and the flow advances to step S1001.

  As described above, according to the fourth embodiment of the present invention, when the luminance value changes more than a predetermined value during moving image shooting, the image data at that time is stored in the image memory 30, and quick review image data after moving image shooting is performed. Is displayed on the image display unit 28. As described above, since the shooting scene and the composition often change before and after the luminance value changes greatly, the photographer can check the important part of the shot moving image. Also, the image data is stored in the image memory 30 at the start of shooting and at the end of shooting, and is displayed as quick review image data after moving image shooting, so that the entire shot moving image can be confirmed.

[Embodiment 5]
Next, a fifth embodiment of the present invention will be described with reference to FIGS. In the fifth embodiment, moving image data for quick review at the end of shooting is stored in the image memory 30 at the start and end of moving image shooting and every predetermined time during shooting, and the image display unit 28 is used as a moving image quick review. To display. The configuration of the imaging apparatus 100 according to the fifth embodiment is the same as that of the first embodiment, and the processing in steps S101 to S113 of FIG.

  FIGS. 18 to 20 are flowcharts showing an operation in the case of storing moving images being captured in the image memory 30 at predetermined time intervals in the imaging apparatus 100 according to the fifth embodiment of the present invention. Note that a program for executing this processing is stored in the ROM 502 and executed under the control of the CPU 501. Therefore, the operation subject of each step in the following description is the CPU 501.

  FIG. 21 is a diagram illustrating the timing for creating quick review moving image data from the start to the end of shooting in the imaging apparatus 100 according to the fifth embodiment of the present invention.

  The processes in steps S1101 to S1115 in FIG. 18 are the same as the processes in steps S201 to S211 and steps S213 to S216 in FIG.

  When the live view image is displayed in step S1115 in FIG. 18, the process proceeds to step S1201 (FIG. 19), and it is determined whether the moving image shooting mode is selected without changing the position of the mode dial switch 62. If a mode other than the moving image shooting mode is selected, the process proceeds to step S103 in FIG. On the other hand, if the moving image shooting mode is still selected in step S1201, the process proceeds to step S1202, and it is determined whether or not the moving image shooting button 70 is turned on again to instruct the end of moving image shooting. If it is determined that the end of moving image shooting has been instructed, the process advances to step S1203 to determine whether or not the count value NC of the quick review image data number counter 77 is “1”. If the count value NC of the number counter 77 is not “1”, the process proceeds to step S1204, the count value NC of the quick review image data number counter 77 is incremented by 1, and the process proceeds to step S1205. On the other hand, if the count value NC of the quick review image data number counter 77 is “1” in step S1203, the process proceeds to step S1205, and quick review is started. Details of the moving image quick review operation in step S1205 will be described later with reference to FIG.

  After performing the quick review display in step S1205 in this way, the process proceeds to step S1206, and the quick review moving image data stored in the image memory 30 is stored in the storage medium. Then, the process proceeds to step S103 in FIG.

  On the other hand, if it is determined in step S1202 that the moving image shooting is continued, the process proceeds to step S1207, and AF processing is performed in the same manner as in step S207 in FIG. 4 to focus the photographing lens 10 on the subject. Subsequently, the process proceeds to step S1205, and AE processing for driving the aperture / shutter 12 through the shutter control unit 40 is performed in the same manner as in step S208 of FIG. In step S 1209, the timing generation circuit 18 is controlled to store the image data obtained from the image sensor 14 in the image memory 30. In step S1210, it is determined whether or not the time measured by the timer 58 has reached a quick review display time T preset by the photographer. If it is determined that the time measured by the timer 58 has not reached the quick review display time T, the process proceeds to step S1211. In step S1211, two image data are created from the image data stored in the image memory 30 in step S1209, the image data stored in the storage medium and the image data displayed as a quick review after the photographing is completed. Here, the image data stored in the storage medium is subjected to predetermined image processing by the image processing circuit 20 and stored again in the image memory 30. The image data for quick review is subjected to image processing based on the number of pixels of the image display unit 28 and the setting of the video quick review display, and is then correlated with the count value NC of the image data number counter 77 for quick review. Stored in the memory 30. In step S1212, the image data stored in the image memory 30 is stored in the storage medium as image data constituting the moving image file. In step S 1213, the image data obtained from the image sensor 14 in step S 1209 is subjected to image processing for live view display via the image processing circuit 20 and the memory control circuit 22 and stored in the image display memory 24. In step S1214, the image data stored in the image display memory 24 is displayed on the image display unit 28 as a live view, and the process advances to step S1201.

  On the other hand, if the time measured by the timer 58 has reached the quick review display time T in step S1210, the process proceeds to step S1215. In steps S1215 to S1218, the same processing as steps S1211 to S1214 described above is executed. Then, when step S1218 is executed, the process proceeds to step S1301 (FIG. 20).

  The processes in steps S1301 to S1309 in FIG. 20 are the same as the processes in steps S1201 to S1209 in FIG.

  In step S1309 of FIG. 20, when image data obtained by moving image recording is stored in the image memory 30, the process proceeds to step S1310. In step S1310, it is determined whether or not the time measured by timer 58 has reached a predetermined time t1 set in advance. If it is determined that the measured value of the timer 58 has reached the predetermined time t1, the process proceeds to step S1311, the measured value by the timer 58 is set to “0”, and the time measured by the timer 58 is started again. In step S1312, the count value NC of the quick review image data number counter 77 is incremented by "+1". In step S1313, as in steps S1211, S1215 described above, image data stored in the storage medium and image data displayed as a quick review are created from the image data stored in the image memory 30 in step S1309. The image data stored in the storage medium is subjected to predetermined image processing by the image processing circuit 20 and stored again in the image memory 30. The image data for quick review is subjected to image processing based on the number of pixels of the image display unit 28 and the setting of moving image quick review display, and then associated with the count value NC of the image data number counter 77 for quick review. 30. In step S1314, the image data stored in the storage medium stored in the image memory 30 is stored in the storage medium as image data constituting the moving image file. In step S1315, the image data obtained from the image sensor 14 in step S1309 is subjected to image processing for live view display via the image processing circuit 20 and the memory control circuit 22, and stored in the image display memory 24. . In step S1316, the image data stored in the image display memory 24 is displayed on the image display unit 28 via the memory control circuit 22 and the D / A converter 26 (live view display). The process returns to S1201.

  On the other hand, if it is determined in step S1310 that the time value of the timer 58 has not reached the predetermined time t1, the process advances to step S1317 to create image data to be stored in the storage medium and image data for quick review. In step S1318, the image data stored in the storage medium stored in the image memory 30 is stored in the storage medium as image data constituting the moving image file. In step S1319, it is determined whether or not the number of quick review image data associated with “NC + 1” stored in the image memory 30 is greater than the quick review display time T. If it is determined that the number of quick review image data associated with “NC + 1” is equal to or shorter than the quick review display time T, the process proceeds to step S1321; otherwise, the process proceeds to step S1320. In step S1320, the quick review image data associated with “NC + 1” is deleted by an amount longer than the quick review display time T. At that time, the quick review image data associated with “NC + 1” stored in the image memory 30 are deleted in order from the oldest. Then, the process proceeds to step S1321, and image processing for live view display is performed and other image data is stored in the image display memory 24, and displayed on the image display unit 28 in step S1322 (live view display) as in step S1315 described above. Then, the process returns to step S1301 in FIG.

  As a result, as shown in FIG. 21, during the video recording, the quick review image data for the time T is created every predetermined time t1, so that the entire captured video is confirmed when the quick review is displayed after the video recording. Is possible. Since the quick review image data is continuously stored according to the quick review display time T, a moving image can be displayed during the quick review display.

  Further, according to the fifth embodiment, since the image data at the start of moving image shooting and at the end of moving image shooting can be displayed as a quick review, it is possible to check the image at the start of moving image shooting and the image at the end of moving image shooting. .

  Further, according to the fifth embodiment, since the quick review image data is stored in the storage medium, the stored quick review image data can be used when confirming the captured moving image. This eliminates the need to create a new quick review image from the captured video.

  Next, a moving image quick review display operation of the imaging apparatus according to the fifth embodiment of the present invention will be described with reference to FIG.

  FIG. 22 is a flowchart showing a quick review operation when a plurality of quick review image data are simultaneously displayed on the image display unit 28 and a moving image is displayed in the imaging apparatus according to the fifth embodiment of the present invention. Note that a program for executing this processing is stored in the ROM 502 and executed under the control of the CPU 501. Therefore, the operation subject of each step in the following description is the CPU 501.

  First, in step S1401, the display area of quick review image data for each count value is calculated from the displayable area of the image display unit 28 and the count value NC of the quick review image data number counter 77. In step S1402, moving image quick review image data corresponding to the first frame of all count values of the quick review image data number counter 77 in the moving image quick review image data stored in the image memory 30 is displayed. Is read. In step S1403, based on the display area of the quick review image data calculated in step S1401, quick review display image data that simultaneously displays the first frame of all count values read in step S1402 is displayed on the image processing circuit 20. Create with. In step S1404, the quick review display image data of the first frame created in step S1403 is displayed on the image display unit 28 via the memory control circuit 22 and the D / A converter 26.

  Here, the display state when the count value NC of the quick review image data number counter 77 is “9” is as shown in FIG.

  Next, proceeding to step S1405, the timer 58 starts timing. Then, the process proceeds to step S1406, where it is determined whether or not the time measured by the timer 58 has reached the quick review display time T. If it is determined that the time measured by the timer 58 has reached the quick review display time T, the moving image quick review operation ends.

  On the other hand, if it is determined in step S1406 that the quick review display time T has not been reached, the process proceeds to step S1407, and the moving image quick review image data corresponding to the next frame in all count values of the quick review image data number counter 77 is obtained. read out. In step S1408, the image processing circuit 20 generates quick review display image data for simultaneously displaying the next frame of all count values read in step S1407 based on the quick review image data display area calculated in step S1401. To do. In step S1409, the quick review display image data created in step S1408 is displayed on the image display unit 28 via the memory control circuit 22 and the D / A converter 26, and the process returns to step S1406.

  As described above, according to the fifth embodiment, the moving image data at the start of shooting, every predetermined time during shooting, and at the end of shooting is stored in the image memory 30, and the image is used as the moving image data for quick review after moving image shooting. It can be displayed on the display unit 28. As a result, the photographer can check the entire captured moving image.

(Other embodiments)
Although the embodiments of the present invention have been described in detail above, the present invention may be applied to a system constituted by a plurality of devices or may be applied to an apparatus constituted by one device.

  In the present invention, a software program that implements the functions of the above-described embodiments is supplied directly or remotely to a system or apparatus, and the computer of the system or apparatus reads and executes the supplied program. Can also be achieved. In that case, as long as it has the function of a program, the form does not need to be a program.

  Accordingly, since the functions of the present invention are implemented by computer, the program code installed in the computer also implements the present invention. That is, the claims of the present invention include the computer program itself for realizing the functional processing of the present invention. In this case, the program may be in any form as long as it has a program function, such as an object code, a program executed by an interpreter, or script data supplied to the OS.

  Various recording media for supplying the program can be used. For example, floppy (registered trademark) disk, hard disk, optical disk, magneto-optical disk, MO, CD-ROM, CD-R, CD-RW, magnetic tape, nonvolatile memory card, ROM, DVD (DVD-ROM, DVD- R).

  As another program supply method, the program can be supplied by connecting to a home page on the Internet using a browser of a client computer and downloading the program from the home page to a recording medium such as a hard disk. In this case, the computer program itself of the present invention or a compressed file including an automatic installation function may be downloaded. It can also be realized by dividing the program code constituting the program of the present invention into a plurality of files and downloading each file from a different homepage. That is, a WWW server that allows a plurality of users to download a program file for realizing the functional processing of the present invention on a computer is also included in the claims of the present invention.

  Further, the program of the present invention may be encrypted, stored in a storage medium such as a CD-ROM, and distributed to users. In that case, a user who has cleared a predetermined condition is allowed to download key information to be decrypted from a homepage via the Internet, and using the key information, the encrypted program can be executed on a computer in a format that can be executed. To be installed.

  Further, the present invention can be realized in a form other than the form in which the functions of the above-described embodiments are realized by the computer executing the read program. For example, based on the instructions of the program, an OS or the like running on the computer performs part or all of the actual processing, and the functions of the above-described embodiments can also be realized by the processing.

  Furthermore, the program read from the recording medium may be written in a memory provided in a function expansion board inserted into the computer or a function expansion unit connected to the computer. In this case, thereafter, based on the instructions of the program, the CPU or the like provided in the function expansion board or function expansion unit performs part or all of the actual processing, and the functions of the above-described embodiments are realized by the processing. .

It is a block diagram which shows the structure of the imaging device which concerns on embodiment of this invention. It is a figure which shows an example of the setting display screen for performing the setting regarding a quick review in the imaging device which concerns on embodiment of this invention. , , It is a flowchart which shows operation | movement and a process sequence of the imaging device which concerns on Embodiment 1 of this invention. FIG. 5 is a diagram for explaining the creation timing of quick review image data according to the first embodiment. 3 is a flowchart illustrating a quick review operation in the imaging apparatus according to the first embodiment. FIG. 3 is a timing diagram illustrating a quick review timing in the imaging apparatus according to the first embodiment. 6 is a flowchart showing a quick review operation when a plurality of quick review image data are displayed simultaneously in the imaging apparatus according to the first embodiment. It is a figure which shows an example of the display content of the image display part in the case of displaying simultaneously several image data for quick reviews. It is a figure which shows the quick review operation | movement timing in the case of displaying simultaneously several image data for quick reviews on an image display part. 7 is a flowchart illustrating an operation of creating and storing quick review image data when a main subject is photographed larger than a predetermined size during moving image photographing in the imaging apparatus according to the second embodiment of the present invention. , 10 is a flowchart illustrating an operation of creating quick review image data and storing it in an image memory when zooming during moving image shooting in an imaging apparatus according to Embodiment 3 of the present invention. It is a figure which shows the extraction timing of the quick review image which concerns on Embodiment 3 of this invention. , 14 is a flowchart illustrating an operation of creating quick review image data and storing it in an image memory when the luminance changes by a predetermined value or more during moving image shooting in the imaging apparatus according to Embodiment 4 of the present invention. , , It is a flowchart which shows operation | movement in the case of memorize | storing the image | video which is image | photographed in the image display memory in the image display memory in the imaging device which concerns on Embodiment 5 of this invention. In an imaging device concerning Embodiment 5 of the present invention, it is a figure showing moving image data for quick review from the start of photography to the end. 14 is a flowchart illustrating a quick review operation in a case where a plurality of quick review image data are simultaneously displayed on the image display unit and a moving image is displayed in the imaging apparatus according to the fifth embodiment of the present invention.

Claims (3)

Imaging means;
Means for receiving a recording start instruction and a recording end instruction by the user;
The moving image signal obtained by the imaging means is recorded on a recording medium, starts recording the moving image signal in response to the recording start instruction, and responds to the recording end instruction. Recording means for terminating the recording of the signal;
The moving image signal obtained by the image pickup device is recorded after the recording device starts recording the moving image signal in response to the recording start instruction until the recording ends in response to the recording end instruction . among them, as well as specify the successive frames of the second period from the beginning of the frame after the start recording from the beginning of the frame, an image signal of consecutive frames of the each first period the second period the Processing means for storing in a memory during recording of the moving image signal by the recording means;
An output means for reading out the image signal stored in the memory and outputting it to the display unit after the recording of the moving image signal;
An imaging device comprising:   The imaging apparatus according to claim 1, wherein the recording unit reads the image signal stored in the memory and records the image signal on the recording medium after the recording of the moving image signal is completed. An imaging means, a means for receiving a recording start instruction and a recording end instruction by a user, and a means for recording a moving image signal obtained by the imaging means on a recording medium, in response to the recording start instruction An image pickup apparatus control method for controlling an image pickup apparatus having recording means for starting recording of the moving image signal and ending recording of the moving image signal in response to an instruction to end the recording,
The moving image signal obtained by the image pickup device is recorded after the recording device starts recording the moving image signal in response to the recording start instruction until the recording ends in response to the recording end instruction . among them, as well as specify the successive frames of the second period from the beginning of the frame after the start recording from the beginning of the frame, an image signal of consecutive frames of the each first period the second period the A process of storing in a memory during recording of the moving image signal by a recording means ;
An output step of reading the image signal stored in the memory and outputting it to the display unit after the recording of the moving image signal;
A method for controlling an imaging apparatus, comprising:

Images