JP4147935B2 - Imaging apparatus, image reproducing apparatus, and program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an imaging apparatus, an image reproduction apparatus, and a program that handle continuous shot images and moving images composed of a plurality of temporally continuous images.
[0002]
[Prior art]
In recent years, not only video tape recorders with an integrated camera but also digital still cameras, for example, those that can shoot moving images are generally used although there are time limits such as 30 seconds.
[0003]
However, in video shooting, there are many cases where some of a plurality of temporally continuous images become unstable due to camera shake or disturbance in tracking of the auto white balance function. End up.
[0004]
Common methods for correcting camera shake include an optical method and an electronic method. Optical camera shake correction consists of a vibration sensor that detects camera shake and a camera shake correction mechanism that decenters the lens optical axis in accordance with the output of the vibration sensor. It is only used for reflex type silver halide cameras. (For example, refer to Patent Document 1.)
Electronic camera shake correction includes a vibration sensor that detects camera shake and an image sensor such as a CCD that has an imaging surface larger than the image area that is originally required, and reads image data from the image sensor according to the output of the vibration sensor. The area to be output is variably controlled as needed, and is mainly used in video tape recorders with an integrated camera. (For example, see Patent Document 2.)
The auto white balance function is a very convenient function that automatically adjusts the color according to the color temperature of the light source. On the other hand, for continuous images such as movies, the adjustment threshold is exceeded due to subtle changes in the light source. It is quite possible that the hue changes drastically and results in an unsightly image.
[0005]
[Patent Document 1]
Japanese Patent Laid-Open No. 06-202184
[0006]
[Patent Document 2]
Japanese Patent Laid-Open No. 06-261245
[0007]
[Problems to be solved by the invention]
As described above, regarding the camera shake correction, it is necessary to incorporate a complicated mechanism including a vibration sensor regardless of whether it is an optical type or an electronic type. It was difficult to adopt.
[0008]
In addition, sudden changes may occur in the middle of movie recording, such as when something just crosses the lens, including sudden changes in hue due to the auto white balance function, resulting in unsightly images. Can be many.
[0009]
The present invention has been made in view of the above-described circumstances, and an object of the present invention is to provide an image pickup capable of avoiding inconvenient image mixing as much as possible in the course of recording / reproducing continuous images. An apparatus, an image reproducing apparatus, and a program are provided.
[0010]
[Means for Solving the Problems]
  According to the first aspect of the present invention, in the imaging apparatus that captures and records temporally continuous images, the difference between the target image and the immediately preceding image temporally adjacent to the image is detected. A first detection means, a second detection means for detecting a difference between the target image and an image immediately adjacent to the image in time, and a difference detected by the first detection means First determining means for determining whether or not the difference is larger than a predetermined value, second determining means for determining whether or not the difference detected by the second detecting means is larger than a predetermined value, and the first Recording control means for prohibiting recording of the target image when the difference is determined to be greater than a predetermined value by the determination means and the difference is determined to be greater than the predetermined value by the second determination means. EquippedThe recording control unit records any one of the immediately preceding image, the immediately following image, and a new image created from the immediately preceding image and the immediately following image, instead of the target image for which recording is prohibited.It is characterized by that.
[0011]
  With such a configuration, since an inconvenient image is detected from the difference between the previous and next images and recording of the image is prohibited, the inconvenient image is excluded from the images at the time of reproduction, and only images that are not unsightly are displayed. You can display videos composed ofFurthermore, since an adjacent image or an image created therefrom is inserted and recorded instead of an image for which recording is prohibited, no time lag occurs and no sense of incongruity does not occur. Can record imagesThe
[0012]
  The invention according to claim 2In an imaging apparatus that captures and records temporally continuous images, first detection means for detecting a difference between a target image and an immediately preceding image temporally adjacent to the image, and the target A second detection means for detecting a difference between the image to be immediately adjacent to the image and whether the difference detected by the first detection means is greater than a predetermined value The first determination means for determining the difference, the second determination means for determining whether the difference detected by the second detection means is greater than a predetermined value, and the difference determined by the first determination means Recording control means for prohibiting recording of the target image when the second determination means determines that the difference is greater than a predetermined value, and the recording control means comprises: , To prohibit the recording of the above target image To, records the information indicating that prohibitedIt is characterized by doing.
[0013]
  With this configuration,In order to detect an inconvenient image from the difference between the previous and subsequent images and prohibit recording of the image, the inconvenient image is excluded from the image during playback, and a movie composed only of images that are not unsightly is displayed. Furthermore, by reading information indicating the prohibition at the time of later reproduction, for example, by inserting and reproducing adjacent images or images created from them, no time lag occurs, In addition, it is possible to cope with reproduction of an image with a very natural flow without causing a sense of incongruity.
[0014]
  The invention according to claim 3 is the invention according to claim 1 or 2, whereinA third detecting means for detecting a difference between the immediately preceding image and the immediately following image; and a third determining means for determining whether or not the difference detected by the third detecting means is smaller than a predetermined value. And the recording control means determines that the difference is greater than a predetermined value by the first determination means, and determines that the difference is greater than a predetermined value by the second determination means, and the third determination means. When it is determined that the difference is smaller than a predetermined value, the recording of the target image is prohibited.
[0015]
  In such a configuration, in addition to the operation of the invention according to claim 1 or 2,Since the difference between the images before and after the target image is small and only when it is determined that the target image can be reliably determined, it is prohibited to record an image with no defects by mistake. Can be prevented.
[0018]
  Claim 4The described invention is a first detection unit that detects a difference between a target image and a previous image temporally adjacent to the image in an imaging device that captures temporally continuous images; A second detection means for detecting a difference between the target image and an image immediately adjacent to the image in time; and whether the difference detected by the first detection means is greater than a predetermined value. First determination means for determining whether or not, and second determination means for determining whether or not the difference detected by the second detection means is greater than a predetermined value, are photographed continuously in time. If the difference is determined to be greater than a predetermined value by the display means for displaying an image on the monitor and the first determination means, and the difference is determined to be greater than the predetermined value by the second determination means, Instead of the above image, Images, and any new image created from the image immediately before and immediately after the image is characterized by comprising a display control means for displaying by the display means.
[0019]
With such a configuration, an image with a very natural flow can be displayed without an unnatural image being mixed in an image displayed on a monitor during photographing.
[0020]
  Claim 5In the imaging device that captures and records images that are temporally continuous, the first detection that detects a difference between the target image and the immediately preceding image temporally adjacent to the image is provided. Means, a second detection means for detecting a difference between the target image and an image immediately adjacent to the image in time, and a difference detected by the first detection means is a predetermined value. A first discriminating unit that discriminates whether or not the difference is greater than a predetermined value; a first discriminating unit that discriminates whether or not the difference detected by the second detecting unit is greater than a predetermined value; If the difference is determined to be greater than the predetermined value and the second determination means determines that the difference is greater than the predetermined value, information indicating that the reproduction of the target image is prohibited is the target image. Recording control means for recording together with Characterized in that was.
[0021]
With such a configuration, information such as a flag indicating that the image is prohibited from being reproduced by detecting an inconvenient image from the difference between the previous and subsequent images is added and recorded. By reading information such as a flag indicating that the image is prohibited, and displaying the reproduction of the image, it is possible not only to display a moving image composed only of images that are not unsightly, but also to display the previous image. If the playback time is extended or the previous and next images or images created from them are inserted and played instead of the images that are prohibited from playing, there will be no time lag and no sense of incongruity. It is possible to cope with reproduction of an image with a very natural flow.
[0022]
  Claim 6The described invention is an image reproduction apparatus that reproduces temporally continuous images, and a first detection unit that detects a difference between a target image and an immediately preceding image temporally adjacent to the image. The second detection means for detecting a difference between the target image and an image immediately adjacent to the image in time, and the difference detected by the first detection means is greater than a predetermined value The first discriminating means for discriminating whether the difference detected by the second detecting means, the second discriminating means for discriminating whether or not the difference detected by the second detecting means is greater than a predetermined value, and the difference by the first discriminating means. And a reproduction control means for prohibiting reproduction of the target image when it is determined that the difference is larger than the predetermined value by the second determining means.The reproduction control means adjusts the reproduction time of the immediately preceding image or the immediately following image in accordance with the prohibition of reproduction of the target image for which reproduction is prohibited.It is characterized by that.
[0023]
  With such a configuration, inconvenient images are detected from the difference between the previous and subsequent images and the reproduction of the images is prohibited. Therefore, the inconvenient images are excluded from the images, and are configured only with images that are not unsightly. Can display videos etc.Furthermore, by executing reproduction using an adjacent image instead of the target image, it is possible to reproduce an image with a very natural flow without causing a time lag and uncomfortable feeling. CanThe
[0024]
  Claim 7The invention described is the above claim.6In the described invention, a third detecting means for detecting a difference between the immediately preceding image and the immediately following image, and a third for determining whether or not the difference detected by the third detecting means is smaller than a predetermined value. And the reproduction control means determines that the difference is greater than a predetermined value by the first determination means, and determines that the difference is greater than a predetermined value by the second determination means, and When it is determined by the third determining means that the difference is smaller than a predetermined value,the aboveThe reproduction of the target image is prohibited.
[0025]
  With such a configuration, the aboveClaim 6In addition to the functions of the described invention, the target imageofSince the difference between the previous and next images is small and the determination is made only when it is determined that the target image can be reliably determined, it is possible to prevent the reproduction of the image having no defect by mistake.
[0026]
  Claim 8The described inventionA program executed by a computer incorporated in an imaging apparatus that records temporally continuous images, and detects a difference between a target image and a previous image temporally adjacent to the image. A first detection step, a second detection step for detecting a difference between the target image and an image immediately adjacent to the image in time, and a difference detected in the first detection step A first determination step for determining whether or not the difference detected by the second detection step is greater than a predetermined value, a second determination step for determining whether or not the difference detected by the second detection step is greater than a predetermined value, and the first If the difference is determined to be greater than a predetermined value in the determination step and the difference is determined to be greater than the predetermined value in the second determination step, the recording of the target image is prohibited and the recording is performed. Ban And instead of the image, characterized in that to perform the immediately preceding image, after image, and a recording control step of recording one of the new image created from the image immediately before and immediately after the image on the computer.
[0027]
  like thisIn the program content, inconvenient images are detected from the difference between the previous and next images and the recording of the images is prohibited. In addition, it is possible to display a moving image, etc., and further, an adjacent image or an image created therefrom is inserted and recorded in place of an image for which recording is prohibited. An image with a very natural flow can be recorded without a sense of incongruity.
[0028]
  Claim 9The described invention is a program executed by a computer built in an imaging device that records temporally continuous images, and includes a target image and an immediately preceding image temporally adjacent to the image. A first detection step for detecting a difference; a second detection step for detecting a difference between the target image and an image immediately adjacent to the image in time; and the first detection step. A first determination step for determining whether or not the difference detected in step 2 is greater than a predetermined value, and a second determination step for determining whether or not the difference detected in the second detection step is greater than a predetermined value. If the difference is determined to be greater than the predetermined value in the first determination step and the difference is determined to be greater than the predetermined value in the second determination step, the recording of the target image is prohibited.At the same time, when this image recording is prohibited, information indicating the prohibition is recorded.The recording control step is executed by a computer.
[0029]
  With such program content, an inconvenient image is detected from the difference between the previous and next images and recording of the image is prohibited. Therefore, the inconvenient image is excluded from the image during reproduction, and the image is not unsightly. You can display videos that consist only ofFurthermore, by reading the information indicating the prohibition at the time of later playback, for example, by inserting and playing back adjacent images or images created from them, there is no time lag and a sense of incongruity occurs. So that you can play a very natural image withoutThe
[0030]
  Claim 10The described invention is a program executed by a computer built in an imaging device that records temporally continuous images, and includes a target image and an immediately preceding image temporally adjacent to the image. A first detection step for detecting a difference; a second detection step for detecting a difference between the target image and an image immediately adjacent to the image in time; and the first detection step. A first determination step for determining whether or not the difference detected in step 2 is greater than a predetermined value, and a second determination step for determining whether or not the difference detected in the second detection step is greater than a predetermined value. A difference between the display step of displaying images taken continuously in time and the monitor in the first determination step is greater than a predetermined value, and the difference is greater than the predetermined value in the second determination step. If big Display control for displaying, in the display step, any of the immediately preceding image, the immediately following image, and a new image created from the immediately preceding image and the immediately following image, instead of the target image. And causing the computer to execute the steps.
[0031]
With such program content, an image with a very natural flow can be displayed without an unnatural image mixed in an image displayed on the monitor at the time of shooting.
[0032]
  Claim 11The described invention is a program executed by a computer built in an imaging device that records temporally continuous images, and includes a target image and an immediately preceding image temporally adjacent to the image. A first detection step for detecting a difference; a second detection step for detecting a difference between the target image and an image immediately adjacent to the image in time; and the first detection step. A first determination step for determining whether or not the difference detected in step 2 is greater than a predetermined value, and a second determination step for determining whether or not the difference detected in the second detection step is greater than a predetermined value. If the difference is determined to be greater than the predetermined value in the first determination step and the difference is determined to be greater than the predetermined value in the second determination step, the reproduction of the target image is prohibited. Information on Characterized in that to execute a recording control step of recording along with the image of interest on the computer.
[0033]
With such program contents, information such as a flag indicating that the image is prohibited from being reproduced by detecting an inconvenient image from the difference between the previous and subsequent images is added and recorded. By reading information such as a flag indicating that the image is prohibited from being reproduced and displaying the reproduction of the image, it is possible not only to display a moving image or the like composed only of images that are not unsightly, but also to immediately preceding the image. If the playback time is extended, or the previous and next images or images created from them are inserted in place of the images that are prohibited from playback, playback will not cause a time lag and will cause a sense of incongruity. It is possible to cope with reproduction of an image with a very natural flow.
[0034]
  Claim 12The described invention is a program executed by a computer built in an image reproduction device that reproduces temporally continuous images, the target image, and the immediately preceding image temporally adjacent to the image. A first detection step for detecting a difference between the image, a second detection step for detecting a difference between the target image and an image immediately adjacent to the image in time, and the first detection A first determination step for determining whether or not the difference detected in the step is greater than a predetermined value, and a second determination for determining whether or not the difference detected in the second detection step is greater than a predetermined value When the difference between the step and the first determination step is determined to be greater than the predetermined value, and the difference is determined to be greater than the predetermined value at the second determination step, reproduction of the target image is prohibited. DoIn addition, the playback time of the immediately preceding image or the immediately following image is adjusted according to the prohibition of playback of this image.The reproduction control step is executed by a computer.
[0035]
  With such a program content, inconvenient images are detected from the difference between the previous and subsequent images and the reproduction of the images is prohibited. Therefore, the inconvenient images are excluded from the images, and only the images that are not unsightly are configured. Video can be displayedFurthermore, by executing reproduction using an adjacent image instead of the target image, it is possible to reproduce an image with a very natural flow without causing a time lag and uncomfortable feeling. it can.
[0036]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment in which the present invention is applied to a digital camera capable of shooting both still images and moving images will be described with reference to the drawings.
[0037]
(Configuration of the embodiment)
FIG. 1 shows the circuit configuration, and 10 is a digital camera. The digital camera 10 can be set by switching between a photographing mode and a reproduction mode as a basic mode. In a monitoring state in the photographing mode, the focus position and the aperture position are moved by driving the motor (M) 11. A CCD 13 which is an image pickup device arranged behind the photographing optical axis of the lens optical system 12 is scanned and driven by a timing generator (TG) 14 and a vertical driver 15, and photoelectric conversion corresponding to an optical image formed at regular intervals. Output one frame of output.
[0038]
The photoelectric conversion output is appropriately gain-adjusted for each primary color component of RGB in the state of an analog value signal, sampled and held by a sample hold circuit (S / H) 16, and digital data by an A / D converter 17. And output to the color process circuit 18.
[0039]
The color process circuit 18 performs color process processing including pixel interpolation processing and γ correction processing on the digital data of the image sent from the A / D converter 17, and the digital luminance signal Y and color difference signals Cb, Cr. Is output to a DMA (Direct Memory Access) controller 19.
[0040]
The DMA controller 19 once uses the luminance signal Y and the color difference signals Cb and Cr output from the color process circuit 18 by using the composite synchronization signal, the memory write enable signal, and the clock signal from the color process circuit 18 once. Are transferred to a buffer 21 and DMA-transferred to a DRAM 21 used as a buffer memory via a DRAM interface (I / F) 20.
[0041]
The control unit 22 is composed of a CPU, a ROM storing an operation program, a RAM as a work memory, and the like in order to control the operation of the entire digital camera 10, and DMA the luminance and color difference signals to the DRAM 21. After the transfer is completed, the luminance and color difference signals are read from the DRAM 21 via the DRAM interface 20 and written to the VRAM 24 via the VRAM controller 23.
[0042]
The digital video encoder 25 periodically reads the luminance and color difference signals from the VRAM 24 via the VRAM controller 23, generates a video signal based on these data, and outputs the video signal to the display unit 26.
[0043]
The display unit 26 is composed of, for example, a backlit color liquid crystal display panel and its drive circuit, and is fixedly disposed on the back side of the digital camera 10 main body, and in the shooting mode, a monitor display unit (electronic finder). By performing the display based on the video signal from the digital video encoder 25, an image based on the image information captured from the VRAM controller 23 by the image pickup by the CCD 13 at that time is displayed. .
[0044]
In this manner, when the image at that time is displayed in real time on the display unit 26 as a monitor image, when the shutter keys among the plurality of keys constituting the key input unit 27 are operated at the timing at which still image shooting is desired. Generate a trigger signal.
[0045]
In response to this trigger signal, the control unit 22 immediately stops the path from the CCD 13 to the DRAM 21 after the DMA transfer of the luminance and color difference signals for one frame captured from the CCD 13 to the DRAM 21 at that time. Transition to saved state.
[0046]
In this record storage state, the control unit 22 outputs the luminance and color difference signals for one frame written in the DRAM 21 through the DRAM interface 20 for each of Y, Cb, and Cr components of 8 pixels × 8 pixels. Are read in units called basic blocks of the data and written in a JPEG (Joint Photographic Coding Experts Group) circuit 28, which is an ADCT (Adaptive Discrete Cosine Transform), an entropy coding system. Data compression is performed by processing such as conversion.
[0047]
The obtained code data is read out from the JPEG circuit 28 as a data file of one frame and written in a flash memory 29 which is a non-volatile memory enclosed in a memory card that is detachably mounted as a recording medium of the digital camera 10. Include.
[0048]
Then, along with the compression processing of the luminance and color difference signals for one frame and the completion of writing all the compressed data to the memory card 29, the control unit 22 activates the path from the CCD 13 to the DRAM 21 again.
[0049]
In addition to the shutter key described above, the key input unit 27 is a recording / remode switching key for switching between a recording (REC) mode and a playback (PLAY) mode, which are basic modes, and further records a still image in the recording mode. A recording mode switching key for switching between recording and moving images, a “menu” key for displaying various menu items, a cross key for instructing up / down / left / right directions for selecting images and various modes, specifying menu selection items, A “set” key for instructing and setting the contents selected at that time, a display key for turning on / off the display on the display unit 26, and the like. Is sent to.
[0050]
However, when shooting a moving image instead of a still image, a memory card 29 of a still image data file in which the above-described still image data is compressed by the JPEG circuit 28 while the shutter key of the key input unit 27 continues to be operated. When the shutter key operation ends or when a predetermined time limit, for example, 30 seconds elapses, the series of still image data files are collectively recorded in the motion JPEG format. Reconfigure as a data file.
[0051]
In the playback mode, the control unit 22 selectively reads out the image data recorded in the memory card 29, and the image data compressed in a procedure completely opposite to the procedure in the JPEG circuit 28 in the shooting mode is compressed. The decompressed image data is held in the DRAM 21 via the DRAM interface 20, and then the content held in the DRAM 21 is stored in the VRAM 24 via the VRAM controller 23, and the image data is periodically read out from the VRAM 24. A video signal is generated and reproduced by the display unit 26.
[0052]
When the selected image data is not a still image but a moving image, the playback of the individual still image data constituting the selected moving image file is executed continuously in time, and the playback of all the still image data is finished. At that time, the image is reproduced and displayed using only the still image data located at the head until the next reproduction instruction is given.
[0053]
(First operation of the embodiment)
The operation during recording in the above embodiment will be described.
FIG. 2 shows the processing contents mainly based on the operation program executed by the control unit 22 in a state where the recording mode is selected as the basic mode and the recording of the moving image is switched.
At the beginning of the processing, it waits for an instruction to start moving image shooting by operating the shutter key (step A01).
[0054]
When it is determined that the shutter key has been operated, the luminance and color difference signals for one frame captured from the CCD 13 at that time in response to the instruction to start shooting are transferred to the DRAM 21 serving as a buffer memory as current image data to be described later. Waiting for the DMA transfer (step A02), it is then determined whether or not the image data transferred to the DRAM 21 is the third and subsequent image data after starting moving image shooting (step A03).
[0055]
In this embodiment, using three pieces of image data continuous in time, the image data acquired last time (referred to as “previous image data” in the drawings and in the following text) located in the center is determined. The image data captured immediately before (referred to as “image data of the last time” in the figure and the following text) and the image data captured immediately thereafter (referred to as “current image data” in the figure and the text below). This is because it is determined whether or not the photographing condition of the image data is normal by using and comparing.
[0056]
Accordingly, the DRAM 21 is configured to hold at least the three image data of the previous image data, the previous image data, and the current image data.
[0057]
When it is determined in step A03 that the image data is the third and subsequent images, the previous image data held in the DRAM 21 is compared with the previous image data (step A04), and the white balance and contrast (brightness) are determined. It is determined whether or not the difference is remarkably large depending on whether or not the value difference exceeds a preset value (step A05).
[0058]
If it is determined that the difference between the previous image data and the previous image data is extremely large, the previous image data held in the DRAM 21 is compared with the current image data (step A06), and the same as described above. It is determined whether or not the difference is significantly large depending on whether or not the difference in white balance and contrast values exceeds a preset value (step A07).
[0059]
If it is determined that the difference between the previous image data and the current image data is also extremely large, the previous image data held in the DRAM 21 is compared with the current image data (step A08), and the same as described above. It is determined whether or not the difference is remarkably small depending on whether or not the difference between the values of white balance and contrast exceeds a preset value (step A09).
[0060]
If it is determined that the difference between the previous image data and the current image data is extremely small, is the white balance of only the previous image data out of order, or is the brightness reduced due to something crossing the lens? Assuming that the contrast value is lowered due to the occurrence of camera shake, recording of the previous image data is prohibited, and the flash memory 29 is used instead of the previous image data so that the frame display time of the previous image is doubled. (Step A11).
[0061]
If it is determined in step A03 that the current image data is not the third and subsequent images and there is still no temporally continuous three pieces of image data, and therefore comparison cannot be made, or in step A05. When it is determined that the difference between the previous image data and the previous image data is within a predetermined range, or when the difference between the previous image data and the current image data is determined within a predetermined range at step A07, Alternatively, when it is determined in step A09 that the difference between the previous image data and the current image data exceeds a predetermined range, it is possible to determine whether there is any problem in the previous image data or whether there is a problem. As a result, the previous image data is recorded in the flash memory 29 (step A10).
[0062]
However, when it is determined in step A03 that the current image data is not the third and subsequent images, if the current image data is the first image, the previous image is recorded in step A10. Therefore, it is necessary to skip step A10 and transition to step A12.
After the process of step A10 or A11, it is determined whether or not to end the shooting depending on whether or not the operation of the shutter key of the key input unit 27 is released (step A12).
[0063]
If the photographing is not finished here, it is further determined whether or not the photographing time has reached a preset time limit, for example, 30 seconds (step A13). If not, the photographing should be continued. The process returns to step A02.
[0064]
If it is determined in step A12 that the operation of the shutter key of the key input unit 27 is released and the shooting is ended, and if it is determined in step A13 that the shooting time has reached a preset time limit, At that time, the shooting operation is stopped, and as described above, a series of still image data files recorded in the flash memory 29 are collectively set as motion JPEG data files, and then again to prepare for the next movie shooting. Returning to the process from step A01.
[0065]
If it is determined in step A07 that the difference between the previous image data and the current image data is also significantly large, steps A08 and A09 may be skipped and the process may proceed to step A11.
FIG. 4 shows a part (1-1) to (1-5) of temporally continuous captured images obtained by moving image capturing as described above, and the contents recorded in the flash memory 29 (2-1). ) To (2-5).
[0066]
In this case, in the series of images (1-1) to (1-5) obtained by photographing, only one of the images of (1-2) is remarkably different in white balance from the other series of images. Yes.
[0067]
Therefore, it is determined in step A05 that the image of (1-2) is significantly different from the image of (1-1), and then in step A07, the image of (1-2) is changed to the image of (1-3). If it is determined in step A09 that the difference between the image (1-1) and the image (1-3) sandwiching the image (1-2) is extremely small, Only the image of (1-2) is determined to be significantly different from the others.
[0068]
Therefore, as the corresponding image (2-2), the image (2-1) which is the recording image (1-1) is recorded.
[0069]
In this way, an inconvenient image is detected from the difference between the previous and next images, and recording of the image in the flash memory 29 is prohibited. For this reason, when the moving image data recorded in the flash memory 29 is read and reproduced, the above-mentioned inconvenient images are excluded from the series of images, and a moving image or the like composed only of images that are not unsightly is displayed. Can do.
[0070]
In addition, as a result of comparing the images before and after the target image, the difference is small, and only when it is determined that the target image can be reliably determined, it is performed. Can be surely prevented from prohibiting the recording.
[0071]
In the recording operation, the case where the previous image data is recorded instead of the previous image data that is prohibited from being recorded has been described, but the present invention is not limited to this. The present image data located immediately after the previous image data may be used instead, or the intermediate image data is created using the previous image data and the current image data and used instead. It is good.
[0072]
As described above, since the temporally adjacent image data or the image data created from them is inserted and recorded in place of the image data for which recording is prohibited, there is no time lag and a sense of incongruity. It is possible to record moving image data having a very natural flow.
[0073]
Further, when prohibiting the recording of the target image, instead of recording other temporally adjacent image data as described above, information such as a flag indicating that the prohibition has been performed immediately before is performed. It may be recorded in addition to image data.
[0074]
In this way, by reading information such as a flag indicating the prohibition at the time of later reproduction, for example, the reproduction time of image data to which information such as a flag is added is doubled, an adjacent image or Reproduces images with a very natural flow without causing time lag and uncomfortable feeling, while reducing the processing load during recording, such as inserting and playing images created from them instead. Can be dealt with.
[0075]
In addition, without recording the target image, information such as a flag indicating that the image is prohibited from being reproduced when the target image is recorded may be recorded.
[0076]
In this way, information such as a flag indicating that the image is prohibited from being reproduced at the time of subsequent reproduction is read, and reproduction of image data to which information such as a flag is added is prohibited, so that an unobtrusive image is obtained. It is possible to display a moving image composed only of In this case, not only prohibiting playback, but also extending the playback time of the immediately preceding image, or inserting the previous or next image or an image created from them in place of the prohibited playback image for playback. Thus, it is possible to cope with reproduction of an image having a very natural flow without causing a time lag and without causing a sense of incongruity.
[0077]
Further, instead of recording other image data or recording information such as a flag in place of the image data for which recording is prohibited, the recording of the target image may be simply prohibited.
[0078]
In the above embodiment, the processing of the image data recorded in the flash memory 29 at the time of moving image shooting is described. However, the same processing may be performed for the content displayed on the monitor 26 in the recording mode. .
[0079]
  Specifically, until the start of moving image shooting is instructed in step A01 of FIG.On the display unit 26In order to display the finder image (through image) on the monitor, the processing of steps A02 to A11 may be executed on the images sequentially taken from the CCD 13 (however, step A10 may be “reproduce previous image”, Step A11 is “adjustment of image frame switching time and playback”).
[0080]
Furthermore, moving image display may be performed in parallel with moving image recording, with step A10 being “recording / reproducing the previous image” and step A11 being “recording / reproducing by adjusting the switching time of image frames”.
In such a case, even if the image captured by the CCD 13 is disturbed due to a temporary change in white balance, camera shake, or the like, an unnatural image is not mixed in the image displayed on the monitor, and the flow is extremely natural. Images can be displayed.
[0081]
(Second operation of the embodiment)
The operation at the time of reproduction in the above embodiment will be described.
FIG. 3 shows processing contents based on an operation program executed mainly by the control unit 22 in a state where the playback mode is selected as the basic mode and a moving image file is selected.
In this case, since the memory card enclosing the flash memory 29 is detachably attached to the digital camera 10, it is recorded in the flash memory 29 by photographing with the digital camera 10 as described above with reference to FIG. It is assumed that there is a possibility that a moving image file recorded by shooting with another device is also mixed.
[0082]
At the beginning of the process, the process waits until a moving image file is selected by the operation of the cross key and the operation of the “set” key and the start of reproduction is instructed (step B01).
[0083]
If it is determined that the “SET” key has been operated, the one located at the head of the plurality of still image data constituting the moving image file selected at that time in response to the instruction to start shooting is selected. The data is read and decompressed by the JPEG circuit 28, and waits for the current image data to be stored later in the DRAM 21 via the DRAM interface 20 (step B02). Next, the image data transferred to the DRAM 21 reproduces the moving image. It is determined whether the image data is the third and subsequent images after the start (step B03).
[0084]
In this embodiment, the last read image data (referred to as “previous image data” in the figure and the following text) located at the center is used as a judgment target using three pieces of temporally continuous image data. Comparison is made using image data read immediately before (referred to as “previous image data” in the figure and the following text) and image data read immediately thereafter (referred to as “current image data” in the figure and the text below). By doing so, it is for determining whether or not the photographing condition of the image data is normal.
[0085]
Accordingly, the DRAM 21 is configured to hold at least the three image data of the previous image data, the previous image data, and the current image data.
[0086]
If it is determined in step B03 that the image data is the third and subsequent images, the previous image data held in the DRAM 21 is compared with the previous image data (step B04), and white balance and contrast values (luminance) are compared. It is determined whether or not the difference is remarkably large depending on whether or not the difference in () exceeds a preset value (step B05).
[0087]
If it is determined that the difference between the previous image data and the previous image data is extremely large, the previous image data held in the DRAM 21 is compared with the current image data (step B06), and the same as described above. It is determined whether or not the difference is remarkably large depending on whether or not the difference in white balance and contrast values exceeds a preset value (step B07).
[0088]
If it is determined that the difference between the previous image data and the current image data is also significantly large, the previous image data held in the DRAM 21 is compared with the current image data (step B08), and the same as described above. It is determined whether or not the difference is extremely small depending on whether or not the difference between the white balance and contrast values exceeds a preset value (step B09).
[0089]
If it is determined that the difference between the previous image data and the current image data is remarkably small, is the white balance of only the previous image data out of order, or is the brightness reduced due to something crossing the lens? Since the previous image data is prohibited to be reproduced and the previous image data is reproduced in place of the previous image data, specifically, the frame display time of the previous image data is 2 sheets, assuming that the contrast value has decreased due to the occurrence of camera shake. The image data of the previous time is again developed and recorded in the VRAM 24 so as to become minutes, and displayed on the display unit 26.
[0090]
Further, when it is determined in step B03 that the current image data is not the third and subsequent images and there is still no temporally continuous three image data, and thus comparison cannot be made, or in step B05. When it is determined that the difference between the previous image data and the previous image data is within a predetermined range, or when the difference between the previous image data and the current image data is determined within a predetermined range at step B07, Alternatively, when it is determined in step B09 that the difference between the previous image data and the current image data exceeds a predetermined range, it is possible to determine whether there is any problem in the previous image data or whether there is a problem. The previous image data is developed and stored in the VRAM 24 and displayed on the display unit 26 (step B10).
[0091]
However, when it is determined in step B03 that the current image data is not the third and subsequent images, if the current image data is the first image, the previous image is reproduced in step B10. Therefore, it is necessary to skip step B10 and make a transition to step B12.
After the process of step B10 or B11, it is determined whether or not the reproduction is to be ended depending on whether or not there is still image data constituting the moving image data read from the flash memory 29 (step B12).
[0092]
If the reproduction is not terminated here, it is determined whether or not a key operation at the key input unit 27 for further stopping the reproduction, for example, a “set” key operation is performed again (step B13). If not, the process returns to step B02 to continue the reproduction.
[0093]
Further, when it is determined that the still image data constituting the moving image data to be read out in the step B12 is lost and the reproduction is finished, and when it is determined that the key input for stopping the reproduction is made in the step B13, At that time, the reproduction operation is stopped, and the process returns to step B01 again to prepare for the next reproduction.
[0094]
If it is determined in step B07 that the difference between the previous image data and the current image data is also significantly large, steps B08 and B09 may be skipped and the process may proceed to step B11.
As in the case of the recording, a specific reproduction display example of the embodiment is shown using the image of FIG. In this case, FIG. 4 shows a part (1-1) to (1-5) of temporally continuous moving images read out by moving image reproduction as described above, and display contents on the display unit 26 corresponding thereto. (2-1) to (2-5) are exemplified.
[0095]
In this case, in the series of images (1-1) to (1-5) read out by reproduction, only one of the images of (1-2) is significantly different in white balance from the other series of images. ing.
[0096]
Therefore, it is determined in step B05 that the image of (1-2) is significantly different from the image of (1-1). Next, in step B07, the image of (1-2) is changed to the image of (1-3). If it is determined in step B09 that the difference between the image of (1-1) and the image of (1-3) sandwiching the image of (1-2) is extremely small, Only the image of (1-2) is determined to be significantly different from the others.
[0097]
Therefore, as the corresponding image (2-2), the image data (2-1) which is the reproduction image (1-1) is expanded and stored in the VRAM 24 again.
[0098]
As described above, for each still image constituting the moving image read from the flash memory 29 as a medium, an inconvenient image is detected from the difference between the previous and next images, and the reproduction of the image is prohibited. For this reason, the inconvenient images are excluded from the reproduced images, and a moving image composed only of images that are not unsightly can be displayed.
[0099]
In addition, as a result of comparing the images before and after the target image, the difference is small, and only when it is determined that the target image can be reliably determined, it is performed. It is possible to reliably prevent the reproduction of the video from being prohibited.
[0100]
In the above-described playback operation, a case has been described where playback is set so that the frame display time of the previous image is doubled instead of the previous target image data for which playback is prohibited. The present invention is not limited to this. For example, the current image data located immediately after the previous image data to be processed may be used instead.
[0101]
As described above, since image data that is temporally adjacent to each other is inserted and played back instead of the image data that is prohibited from being played back, there is no time lag between recording and playback, and there is a sense of incongruity. Therefore, it is possible to reproduce moving image data having a very natural flow.
[0102]
Further, instead of reproducing the image data for which reproduction is prohibited, the reproduction of the target image may be simply prohibited without reproducing the other image data.
[0103]
In the above embodiment, the case where the present invention is applied to a digital camera that can shoot both still images and moving images is described. However, the present invention is not limited to this, and a camera function that can also shoot moving images is provided. Needless to say, the present invention can also be applied to mobile phone terminals and PDAs (Personal Digital Assistants).
[0104]
In addition, the second operation of the above embodiment can be applied to an image reproducing apparatus that does not have a photographing function, such as a video player, a DVD player, or a personal computer.
In addition, the present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the scope of the invention.
[0105]
Furthermore, the above embodiments include inventions at various stages, and various inventions can be extracted by appropriately combining a plurality of disclosed constituent elements. For example, even if some constituent elements are deleted from all the constituent elements shown in the embodiment, at least one of the problems described in the column of the problem to be solved by the invention can be solved, and is described in the column of the effect of the invention. When at least one of the effects is obtained, a configuration in which this configuration requirement is deleted can be extracted as an invention.
[0106]
【The invention's effect】
  According to the first aspect of the present invention, since an inconvenient image is detected from the difference between the previous and subsequent images and recording of the image is prohibited, the inconvenient image is excluded from the image during reproduction, and is not unsightly. It is possible to display a movie composed only of images.Furthermore, since an adjacent image or an image created therefrom is inserted and recorded instead of an image for which recording is prohibited, no time lag occurs and no sense of incongruity does not occur. Images can be recorded.
[0107]
  According to invention of Claim 2,In order to detect an inconvenient image from the difference between the previous and subsequent images and prohibit recording of the image, the inconvenient image is excluded from the image during playback, and a movie composed only of images that are not unsightly is displayed. Furthermore, by reading information indicating the prohibition at the time of later reproduction, for example, by inserting and reproducing adjacent images or images created from them, no time lag occurs, In addition, it is possible to cope with reproduction of an image with a very natural flow without causing a sense of incongruity.
[0108]
  According to the invention described in claim 3, in addition to the effect of the invention described in claim 1 or 2,Since the difference between the images before and after the target image is small and only when it is determined that the target image can be reliably determined, it is prohibited to record an image with no defects by mistake. Can be prevented.
[0110]
  Claim 4According to the described invention, an image with a very natural flow can be displayed without an unnatural image being mixed in an image displayed on a monitor at the time of photographing.
[0111]
  Claim 5According to the described invention, in order to detect and record an inconvenient image from the difference between the previous and next images and add information such as a flag indicating that the image is prohibited from being reproduced, the above reproduction is performed at the time of later reproduction. By reading information such as a flag indicating that the image is prohibited and displaying the reproduction of the image, it is possible not only to display a movie composed only of images that are not unsightly, but also to reproduce the previous image. If you extend the time, or insert and play back and forth images or images created from them instead of prohibited images, there will be no time lag and no sense of incongruity. It becomes possible to cope with reproduction of an image with a very natural flow.
[0112]
  Claim 6According to the described invention, since an inconvenient image is detected from the difference between the previous and subsequent images and the reproduction of the image is prohibited, the inconvenient image is excluded from the image, and the moving image is composed only of images that are not unsightly. Etc. can be displayedFurthermore, by executing reproduction using an adjacent image instead of the target image, it is possible to reproduce an image with a very natural flow without causing a time lag and uncomfortable feeling. it can.
[0113]
  Claim 7According to the described invention, the aboveClaim 6In addition to the effects of the described inventionImageSince the difference between the previous and next images is small and the determination is made only when it is determined that the target image can be reliably determined, it is possible to prevent the reproduction of the image having no defect by mistake.
[0114]
  Claim 8According to the described invention,In order to detect an inconvenient image from the difference between the previous and subsequent images and prohibit recording of the image, the inconvenient image is excluded from the image during playback, and a movie composed only of images that are not unsightly is displayed. Furthermore, since the recording is performed by inserting an adjacent image or an image created therefrom instead of an image for which recording is prohibited, there is no time lag and no sense of incongruity. A natural flow image can be recorded.
[0115]
  Claim 9According to the described invention, since an inconvenient image is detected from the difference between the previous and next images and recording of the image is prohibited, the inconvenient image is excluded from the images at the time of reproduction. It is possible to display configured videos etc.Furthermore, by reading the information indicating the prohibition at the time of later playback, for example, by inserting and playing back adjacent images or images created from them, there is no time lag and a sense of incongruity occurs. It is possible to cope with the reproduction of an extremely natural flow image.
[0116]
  Claim 10According to the described invention, an image with a very natural flow can be displayed without an unnatural image being mixed in an image displayed on a monitor at the time of photographing.
[0117]
  Claim 11According to the described invention, in order to detect and record an inconvenient image from the difference between the previous and next images and add information such as a flag indicating that the image is prohibited from being reproduced, the above reproduction is performed at the time of later reproduction. By reading information such as a flag indicating that the image is prohibited and displaying the reproduction of the image, it is possible not only to display a movie composed only of images that are not unsightly, but also to reproduce the previous image. If you extend the time, or insert and play back and forth images or images created from them instead of prohibited images, there will be no time lag and no sense of incongruity. It becomes possible to cope with reproduction of an image with a very natural flow.
[0118]
  Claim 12According to the described invention, since an inconvenient image is detected from the difference between the previous and subsequent images and the reproduction of the image is prohibited, the inconvenient image is excluded from the image, and the moving image is composed only of images that are not unsightly. Etc. can be displayedFurthermore, by executing reproduction using an adjacent image instead of the target image, it is possible to reproduce an image with a very natural flow without causing a time lag and uncomfortable feeling. it can.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a circuit configuration of a digital camera according to an embodiment of the present invention.
FIG. 2 is a flowchart showing processing contents in a moving image shooting mode according to the embodiment;
FIG. 3 is a flowchart showing processing contents in a moving image playback mode according to the embodiment;
FIG. 4 is a view illustrating correspondence between original image data and image data output as a result of processing in the moving image shooting mode and the moving image reproduction mode according to the embodiment;
[Explanation of symbols]
10 ... Digital camera,
11 ... Motor (M),
12 ... Lens optical system,
13 ... CCD,
14 ... Timing generator (TG),
15 ... Vertical driver,
16: Sample hold circuit (S / H),
17 ... A / D converter,
18 ... Color process circuit,
19 ... DMA controller,
20 ... DRAM interface (I / F),
21 ... DRAM,
22 ... control unit,
23 ... VRAM controller,
24 ... VRAM,
25. Digital video encoder,
26 ... display part,
27 ... Key input part,
28 ... JPEG circuit,
29 ... Memory card.

Claims (12)

In an imaging device that captures and records temporally continuous images,
First detection means for detecting a difference between a target image and a previous image temporally adjacent to the image;
Second detection means for detecting a difference between the target image and an image immediately adjacent to the image in time;
First discrimination means for discriminating whether or not the difference detected by the first detection means is greater than a predetermined value;
Second determination means for determining whether or not the difference detected by the second detection means is greater than a predetermined value;
Recording control for prohibiting recording of the target image when the first determining means determines that the difference is greater than a predetermined value and the second determining means determines that the difference is greater than a predetermined value Means ,
The recording control unit records any one of the immediately preceding image, the immediately following image, and a new image created from the immediately preceding image and the immediately following image, instead of the target image for which recording is prohibited <br> An imaging device characterized by the above. In an imaging device that captures and records temporally continuous images,
First detection means for detecting a difference between a target image and a previous image temporally adjacent to the image;
Second detection means for detecting a difference between the target image and an image immediately adjacent to the image in time;
First discrimination means for discriminating whether or not the difference detected by the first detection means is greater than a predetermined value;
Second determination means for determining whether or not the difference detected by the second detection means is greater than a predetermined value;
Recording control for prohibiting recording of the target image when the first determining means determines that the difference is greater than a predetermined value and the second determining means determines that the difference is greater than a predetermined value Means and
Comprising
The recording control means records information indicating the prohibition when the recording of the target image is prohibited.
An imaging apparatus characterized by that. Third detecting means for detecting a difference between the immediately preceding image and the immediately following image;
And a third determining means for determining whether or not the difference detected by the third detecting means is smaller than a predetermined value,
The recording control means determines that the difference is greater than a predetermined value by the first determination means, determines that the difference is greater than a predetermined value by the second determination means, and determines the difference by the third determination means. 3. The imaging apparatus according to claim 1, wherein recording of the target image is prohibited when it is determined that is smaller than a predetermined value. In an imaging device that captures temporally continuous images,
First detection means for detecting a difference between a target image and a previous image temporally adjacent to the image;
Second detection means for detecting a difference between the target image and an image immediately adjacent to the image in time;
First discrimination means for discriminating whether or not the difference detected by the first detection means is greater than a predetermined value;
Second determination means for determining whether or not the difference detected by the second detection means is greater than a predetermined value;
Display means for displaying on the monitor images continuously taken in time;
When the first determining means determines that the difference is greater than a predetermined value and the second determining means determines that the difference is greater than a predetermined value, the immediately preceding image is used instead of the target image. An image pickup apparatus comprising: a display control unit configured to display any one of an image, an immediately following image, and a new image created from the immediately preceding image and the immediately following image on the display unit. In an imaging device that captures and records temporally continuous images,
First detection means for detecting a difference between a target image and a previous image temporally adjacent to the image;
Second detection means for detecting a difference between the target image and an image immediately adjacent to the image in time;
First discrimination means for discriminating whether or not the difference detected by the first detection means is greater than a predetermined value;
Second determination means for determining whether or not the difference detected by the second detection means is greater than a predetermined value;
Information indicating that reproduction of the target image is prohibited when the difference is determined to be greater than a predetermined value by the first determination unit and the difference is determined to be greater than a predetermined value by the second determination unit. An image pickup apparatus comprising: a recording control unit that records the image together with the target image. In an image reproduction device that reproduces temporally continuous images,
First detection means for detecting a difference between a target image and a previous image temporally adjacent to the image;
Second detection means for detecting a difference between the target image and an image immediately adjacent to the image in time;
First discrimination means for discriminating whether or not the difference detected by the first detection means is greater than a predetermined value;
Second determination means for determining whether or not the difference detected by the second detection means is greater than a predetermined value;
Reproduction control for prohibiting reproduction of the target image when it is determined that the difference is larger than a predetermined value by the first determining means and the difference is determined to be larger than a predetermined value by the second determining means. Means ,
The image playback apparatus according to claim 1, wherein the playback control means adjusts the playback time of the immediately preceding image or the immediately following image in accordance with the prohibition of playback of the target image whose playback is prohibited . Third detecting means for detecting a difference between the immediately preceding image and the immediately following image;
A third determination means for determining whether or not the difference detected by the third detection means is smaller than a predetermined value;
The reproduction control means determines that the difference is greater than a predetermined value by the first determination means, determines that the difference is greater than a predetermined value by the second determination means, and determines the difference by the third determination means. There when it is determined that less than the predetermined value, the image reproducing apparatus according to claim 6, wherein the prohibiting reproduction of an image to be the target. A program executed by a computer incorporated in an imaging apparatus that records temporally continuous images,
A first detection step for detecting a difference between the target image and the immediately preceding image temporally adjacent to the image;
A second detection step for detecting a difference between the target image and an image immediately adjacent to the image in time;
A first determination step of determining whether or not the difference detected in the first detection step is greater than a predetermined value;
A second determination step of determining whether or not the difference detected in the second detection step is greater than a predetermined value;
The difference in the first determining step is determined to be larger than the predetermined value, and when the difference in the second determining step is determined to be greater than a predetermined value, as well as prohibiting the recording of the image to be the target, In place of this recording-prohibited image, the computer is caused to execute a recording control step for recording any of the immediately preceding image, the immediately following image, and the immediately preceding image and a new image created from the immediately following image. A featured program. A program executed by a computer incorporated in an imaging apparatus that records temporally continuous images,
A first detection step for detecting a difference between the target image and the immediately preceding image temporally adjacent to the image;
A second detection step for detecting a difference between the target image and an image immediately adjacent to the image in time;
A first determination step of determining whether or not the difference detected in the first detection step is greater than a predetermined value;
A second determination step of determining whether or not the difference detected in the second detection step is greater than a predetermined value;
When it is determined that the difference is larger than a predetermined value in the first determination step and the difference is determined to be larger than a predetermined value in the second determination step, the recording of the target image is prohibited, When this image recording is prohibited, a recording control step for recording information indicating the prohibition;
A program that causes a computer to execute. A program executed by a computer incorporated in an imaging apparatus that records temporally continuous images,
A first detection step for detecting a difference between the target image and the immediately preceding image temporally adjacent to the image;
A second detection step for detecting a difference between the target image and an image immediately adjacent to the image in time;
A first determination step of determining whether or not the difference detected in the first detection step is greater than a predetermined value;
A second determination step of determining whether or not the difference detected in the second detection step is greater than a predetermined value;
A display step for monitoring and displaying images taken continuously in time;
When it is determined that the difference is larger than a predetermined value in the first determination step and the difference is determined to be larger than a predetermined value in the second determination step, the immediately preceding image is used instead of the target image. A program that causes a computer to execute a display control step of displaying any one of an image, an immediately following image, and a previous image and a new image created from the immediately following image in the display step. A program executed by a computer incorporated in an imaging apparatus that records temporally continuous images,
A first detection step for detecting a difference between the target image and the immediately preceding image temporally adjacent to the image;
A second detection step for detecting a difference between the target image and an image immediately adjacent to the image in time;
A first determination step of determining whether or not the difference detected in the first detection step is greater than a predetermined value;
A second determination step of determining whether or not the difference detected in the second detection step is greater than a predetermined value;
Information that prohibits reproduction of the target image when it is determined that the difference is larger than a predetermined value in the first determination step and the difference is determined to be larger than a predetermined value in the second determination step. A program for causing a computer to execute a recording control step of recording the image together with the target image. A program executed by a computer incorporated in an image playback device that plays back images that are continuous in time,
A first detection step for detecting a difference between the target image and the immediately preceding image temporally adjacent to the image;
A second detection step for detecting a difference between the target image and an image immediately adjacent to the image in time;
A first determination step of determining whether or not the difference detected in the first detection step is greater than a predetermined value;
A second determination step of determining whether or not the difference detected in the second detection step is greater than a predetermined value;
When it is determined that the difference is greater than a predetermined value in the first determination step and the difference is determined to be greater than a predetermined value in the second determination step, reproduction of the target image is prohibited , A program that causes a computer to execute a reproduction control step of adjusting the reproduction time of the immediately preceding image or the immediately following image in accordance with the prohibition of reproduction of the image .

Images