JP3733945B2 - Digital image processing apparatus, digital image processing method, and digital image processing program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a digital image processing apparatus that prints a still image obtained from a moving image on recording paper, a digital image processing method and a digital image processing program applied to the digital image processing apparatus and the like.
[0002]
[Prior art]
  In recent years, digital cameras (digital still cameras) have come to be widely used due to progress in technological development of image sensors such as CCDs. For this reason, various digital image processing apparatuses for printing digital images taken with a digital camera on recording paper have been developed. On the other hand, conventional digital cameras can only shoot still images, but recently, those capable of shooting moving images have been developed. For this reason, it is possible to prevent an optimal shutter chance from being missed by shooting in the moving image mode, and it is possible to effectively prevent a necessary scene from being missed even by an inexperienced person with a shooting technique.
[0003]
[Problems to be solved by the invention]
  However, the conventional digital image processing apparatus has a problem in that it cannot convert any frame into a still image and print it on a recording paper for a moving image shot with a digital camera because the file format of the image is different. . That is, a moving image file format such as MPEG is adopted for the moving image, and the image data of each frame is in a compressed state in which only a difference from the reference image data exists. You can't do that. For this reason, there has been a demand for an easy-to-handle digital image processing apparatus that can convert an arbitrary frame of a compressed moving image into a still image and record it on a recording sheet.
[0004]
  Note that the moving image may be composed of continuous still images in which all the data is captured without compressing the image data of each frame. When an easy digital image processing apparatus exists, convenience for printing a still image is enhanced.
[0005]
  The present invention has been made in view of such circumstances, and is an easy-to-handle digital image processing apparatus capable of printing a still image obtained from a moving image on a recording sheet, and the easy-to-handle digital image processing apparatus. An object of the present invention is to provide a digital image processing method for realizing the above and a digital image processing program for executing the processing method.
[0006]
[Means for Solving the Problems]
  In order to achieve the above object, the invention of claim 1 is a digital image processing apparatus that prints a still image obtained from a moving image on a recording paper, and reads the moving image that is compressed and recorded in the moving image storage means. A moving image reading means, an image converting means for converting a moving image read by the moving image reading means into a still image, and a still image obtained by the image converting meansStill image storage means for storing every predetermined number of frames corresponding to the number of frames of moving images stored in the moving image storage means, and a plurality of still images stored in the still image storage means In a state of arranging in chronological order every number of framesDisplay on monitorIn addition, a still image based on one specified still image among the still images displayed on the monitor among still images stored in the still image storage means and not displayed every predetermined number of frames. On the monitorA predetermined still image to be printed is selected from the display control means and the still image displayed on the monitorIf there are still images to be printed among the still images displayed every predetermined number of frames, the still image to be printed is selected from the displayed still images and the predetermined image is selected. Still images to be printed among the still images displayed every number of frames When there is no image, a still image to be printed is selected from among the still images based on the specified one still image.The image selecting means and a printing means for printing on the recording paper a still image corresponding to the still image selected by the image selecting means and converted by the image converting means. .
[0007]
  According to this configuration, a still image obtained by converting a file format from a moving image recorded in a compressed state is obtained.In a state where they are arranged in a time-series direction every predetermined number of framesDisplayed on the monitorAt the same time, a still image based on the specified one still image among the still images displayed on the monitor as still images that are not displayed every predetermined number of frames is displayed on the monitor.Therefore, it should be printed by viewing the monitorThe optimal scene or its neighboring scenes.A still image can be easily selected. For this reason, a digital image processing apparatus that is easy to handle is realized.The time-series direction here may be a direction from the early side to the late side or a direction from the late side to the early side. Further, still images obtained from moving images are stored in the still image storage means for every number of frames set corresponding to the number of frames of the moving images, and the still images stored in the still image storage means It is displayed on the monitor every frame. For this reason, it is possible to increase the speed of the image processing operation and to realize a digital image processing apparatus that is convenient and easy to handle.
[0008]
  The invention according to claim 2 relates to the invention according to claim 1, wherein the display control means isEach still image is displayed with image data thinned outIt is characterized by that.
[0009]
  According to this configuration,Each still image is thinned out and the amount of data is reduced, so image processing operations for displaying still images on a monitor can be accelerated.The
[0010]
  The invention of claim 3 relates to claim 2, whereinPrintMeansA moving image corresponding to the still image selected by the image selecting means and obtained by converting the moving image stored in the moving image storage means by the image converting means is printed on a recording sheet.It is characterized by that.
[0011]
  According to this configuration,Since a still image obtained by converting the moving image read from the moving image storage means by the image conversion means is printed on the recording paper, a clear still image that is not thinned out of the image data is printed.The
[0012]
  Further, the invention of claim 4 is claimed in claimAny one of 1 to 3Related toA first print mode in which all still images of a plurality of frames displayed on the monitor are printed, and a second print in which only one still image related to the plurality of frames displayed on the monitor is printed. A print mode selection unit that selects any one of the print modes, wherein the image selection unit includes a plurality of still images obtained by the image conversion unit when the second print mode is selected. Image search means for searching for one still image fromIt is characterized by that.
[0013]
  According to this configuration,When the first print mode is selected, all of the still images displayed on the monitor are printed on the recording paper, and when the second print mode is selected, one of the still images displayed on the monitor to be printed. A still image is printed on recording paper. As a result, the range of still images to be printed has been expanded, resulting in a highly convenient digital image processing device.Is done.
[0014]
  Further, the invention of claim 5 is claimed in claim4In the above, the imageSearchmeansIs a designated one still image among a plurality of still images displayed every predetermined number of frames on the monitor. Search display control means for enlarging a still image having a predetermined number of consecutive frames including the still image displayed on the monitor every predetermined number of frames and displaying it on the monitor, and control of the search display control means The still image of a predetermined number of frames enlarged and displayed by the operation is sequentially enlarged within the range of a plurality of still images displayed every predetermined number of frames on the monitor by the control operation of the display control means, and is displayed by frame advance. Frame-by-frame display control meansIt is characterized by that.
[0015]
  According to this configuration,A still image of a predetermined number of frames including the specified one still image is enlarged and displayed, so that the still image can be easily viewed. On the other hand, since it is sequentially displayed, it should be printed even if there are many still images. 1 still image can be searched reliablyThe For this reason, InterestA digital image processing apparatus with excellent convenience and easy handling is realized.
[0016]
  Further, the invention of claim 6 is a claim.5Related toThe image search means further enlarges and displays one still image of a predetermined number of still images enlarged and displayed by the control operation of the search display control means on the monitor, and the image conversion Enlarged frame advance display control means for sequentially enlarging the still image obtained by the means in a time-series direction and displaying the frame advance in predetermined frames.It is characterized by having.
[0017]
  According to this configuration,Since one still image is further enlarged and displayed, the still image displayed on the monitor can be more easily viewed. On the other hand, the still image obtained by the image conversion means is sequentially enlarged in the time-series direction so that a predetermined frame unit ( For example, since it is displayed in units of one frame), a still image of a scene closer to the required optimum scene is surely searched. Therefore, a digital image processing apparatus that is easy to handle and excellent in convenience is realized.TheNote that the time-series direction here may be a direction from the early side to the late side or a direction from the late side to the early side.
[0018]
  The invention of claim 7A digital image processing apparatus that prints a still image obtained from a moving image on a recording paper, obtained from a moving image reading unit that reads the moving image recorded in the moving image storage unit, and the moving image read by the moving image reading unit Still image storage means for storing still images at every number of frames set corresponding to the number of frames of moving images stored in the moving image storage means, and still images of a plurality of frames stored in the still image storage means A still image that is displayed on the monitor in a state of being arranged in a time-series direction every predetermined number of frames, and is a still image that is not displayed every predetermined number of frames among the still images stored in the still image storage means. Display control means for displaying on the monitor a still image based on one designated still image among the still images displayed on the monitor, and printing from the still image displayed on the monitor. A predetermined still image is selected, and when there are still images to be printed among the still images displayed every predetermined number of frames on the monitor, printing should be performed from the displayed still images. When a still image is selected and there is no still image to be printed among the still images displayed every predetermined number of frames, the still image to be printed from among the still images based on the specified one still image Image selecting means for selecting an image, and a print corresponding to the still image selected by the image selecting means and printing the still image obtained from the moving image on a recording sheetAnd a means.
[0019]
  According to this configuration,A still image obtained from a moving image is displayed on the monitor in a time-series direction with a predetermined number of frames, and a still image displayed on the monitor with a still image not displayed every predetermined number of frames. Since a still image based on the designated one still image is displayed on the monitor, the optimum scene to be printed or a still image of a nearby scene can be easily selected by viewing the monitor.The For this reason, TakeA digital image processing apparatus that is easy to handle is realized.The time-series direction here may be a direction from the early side to the late side or a direction from the late side to the early side. Further, still images obtained from moving images are stored in the still image storage means for every number of frames set corresponding to the number of frames of the moving images, and the still images stored in the still image storage means Displayed on the monitor every frameThe For this reason,Speed up image processing operations,A digital image processing apparatus that is convenient and easy to handle is realized.
[0020]
  The invention of claim 8A digital image processing apparatus for printing a still image obtained from a moving image on a recording sheet, a still image storing means for storing a moving image taken from outside as a still image of a plurality of frames, and the still image storing means A monitor for displaying a stored still image, and a plurality of still images stored in the still image storage means are displayed on the monitor in a state of being arranged in a time-series direction every predetermined number of frames. A still image based on one specified still image among the still images displayed on the monitor among still images stored in the still image storage means and not displayed every predetermined number of frames. Display control means for displaying on the monitor; and a predetermined still image to be printed is selected from the still images displayed on the monitor, and a predetermined number of frames are displayed on the monitor. If there are still images to be printed among the displayed still images, the still images to be printed are selected from the displayed still images, and the still images displayed every predetermined number of frames are selected. If there is no still image to be printed, an image selection means for selecting a still image to be printed from among the still images based on the specified one still image, and a display selected on the monitor selected by the image selection means Data output that outputs still image data corresponding to a still image as print dataAnd a means.
[0021]
  According to this configuration,A still image obtained from a moving image is displayed on the monitor in a time-series direction with a predetermined number of frames, and a still image displayed on the monitor with a still image not displayed every predetermined number of frames. Since a still image based on one specified still image is displayed on the monitor, the optimum scene to be printed or a still image of a nearby scene can be easily selected by viewing the monitor.Become. This makes it easy to handleDeA digital image processing apparatus is realized. The time-series direction here may be a direction from the early side to the late side or a direction from the late side to the early side.The moving image is stored in the still image storage unit as a still image of a plurality of frames, and the still image stored in the still image storage unit is displayed on the monitor every predetermined number of frames. For this reason, it is possible to increase the speed of the image processing operation and to realize a digital image processing apparatus that is convenient and easy to handle.
[0022]
  Further, the invention of claim 9 is a claim.8Related toA moving image is compressed, and includes an image converting means for converting the compressed moving image into a plurality of frames of still images, and the still image storage means is a plurality of frames of still images converted by the image converting means. Memorize a specified number of still imagesIt is characterized by that.
[0023]
  According to this configuration,A predetermined plurality of still images among a plurality of still images obtained by converting a file format from a compressed moving image is stored in the still image storage means. For this reason, it is not necessary to use a still image storage means having a larger storage capacity than necessary.The
[0024]
  Further, the invention of claim 10 is a claim.8 or9 related toA moving image is stored in the external moving image storage means, and includes a moving image reading means for reading the moving image stored in the external moving image storage meansIt is characterized by that.
[0025]
  According to this configuration,The moving image stored in the external video storage means is read and converted into a still image of multiple frames.The For this reason,Can capture moving images stored in the external video storage means reliablyThe
[0026]
  Further, the invention of claim 11 is a claim.Any of 8-10Related toA printer for printing still images on recording paper based on print data output from the data output means is provided.It is characterized by that.
[0027]
  According to this configuration,A still image is printed on the recording paper based on the print data output from the data output means. This ensures that the still image selected on the monitor is printed on the recording paper.can do.
[0028]
  The invention of claim 12A digital image processing method for printing a still image obtained from a moving image on a recording paper, wherein the moving image reading unit compresses and records the moving image recorded in the moving image storage unit, and the moving image reading unit The step of converting the moving image read by the step of converting into a still image by the image converting unit, and the number of frames of the moving image stored in the moving image storage unit by converting the still image obtained by the image converting unit by the control operation of the control unit A step of storing the corresponding frame number in the still image storage means and a plurality of still images stored in the still image storage means in a time series direction every predetermined number of frames by the display control means. Still images that are displayed on the monitor in an aligned state and are not displayed every predetermined number of frames among the still images stored in the still image storage means A step of displaying a still image based on one designated still image among the still images displayed on the monitor by the display control means; and a predetermined still image to be printed from the still image displayed on the monitor. A step of selecting by the image selecting means, and when there are still images to be printed among the still images displayed every predetermined number of frames on the monitor, the still images to be printed from the displayed still images When an image is selected and there is no still image to be printed among the still images displayed every predetermined number of frames, the still image to be printed from among the still images based on the specified one still image And a still image corresponding to the still image selected by the image selecting means, the image converting means And a step of printing on a recording paper by the print unit the converted still imageIt is characterized by that.
[0029]
  thisMethodAccording toA moving image in a compressed state is read from the moving image storage means, and a still image obtained by converting the file format from the read moving image is monitored in a state of being arranged in a time-series direction every predetermined number of frames. A still image based on one specified still image among the still images displayed on the monitor as still images that are not displayed every predetermined number of frames is displayed on the monitor. This makes it possible to easily select the optimum scene to be printed or a still image of the neighboring scene. The time-series direction here may be a direction from the early side to the late side or a direction from the late side to the early side. Further, still images obtained from moving images are stored in the still image storage means for every number of frames set corresponding to the number of frames of the moving images, and the still images stored in the still image storage means It is displayed on the monitor every frame. As a result, the image processing operation can be performed at high speed, which is excellent in convenience and easy to handle.The
[0030]
  Further, the invention of claim 13 is a claim.12Pertaining toMethodIn the aboveIn the step of displaying still images by the display control means, each still image is displayed with its image data thinned out.It is characterized by that.
[0031]
  thisMethodAccording toEach still image is thinned out and the amount of data is reduced, so image processing operations for displaying still images on a monitor can be accelerated.The
[0032]
  Further, the invention of claim 14 is a claim.13Pertaining toMethodIn the aboveBy printing means In the step of printing the still image, the moving image corresponding to the still image selected by the image selection means and obtained by converting the moving image stored in the moving image storage means is obtained by the image conversion means. Printing still imagesIt is characterized by that.
[0033]
  thisMethodAccording to the videoBy converting the moving image read from the storage means by the image conversion meansThe obtained still imageBecause it is printed on recording paper, a clear still image that is not thinned out is printed.Is done.
[0034]
  The invention of claim 15A digital image processing method for printing a still image obtained from a moving image on a recording paper, wherein the moving image stored in the moving image storage means is read by the moving image reading means, and the moving image reading means reads the moving image Storing the still image obtained from the moving image in the still image storage unit by the number of frames set corresponding to the number of frames of the moving image stored in the moving image storage unit by the control operation of the control unit; A plurality of still images stored in the still image storage means are displayed on the monitor in a state of being arranged in a time series direction every predetermined number of frames by the display control means, and the still images stored in the still image storage means are displayed. A still image based on one specified still image among the still images displayed on the monitor among the still images displayed at the predetermined number of frames is not displayed. A step of displaying on the monitor by the control means, and a step of selecting a predetermined still image to be printed from the still images displayed on the monitor by the image selection means, and the still images displayed on the monitor every predetermined number of frames. When there is a still image to be printed among the images, the still image to be printed is selected from the displayed still images, and the still image displayed at every predetermined number of frames is printed. If there is no power still image, a step of selecting a still image to be printed from among the still images based on the specified one still image, and a still image corresponding to the still image selected by the image selection means. A step of printing a still image obtained from the moving image on a recording paper by a printing meansIt is characterized by having.
[0035]
  thisMethodAccording toA moving image is read from the moving image storage means, and a still image obtained from the read moving image is displayed on the monitor in a time series direction every predetermined number of frames, and every predetermined number of frames. Is a still image that is not displayed and is displayed on the monitor based on the specified one still image among the still images displayed on the monitor. The still image can be easily selected. The time-series direction here may be a direction from the early side to the late side or a direction from the late side to the early side. Further, still images obtained from moving images are stored in the still image storage means every number of frames set corresponding to the number of frames of the moving images, and still images stored in the still image storage means are stored in predetermined frames. Every few numbers are displayed on the monitor. As a result, the image processing operation can be performed at high speed, which is excellent in convenience and easy to handle.The
[0036]
  The invention of claim 16 prints a still image obtained from a moving image on a recording sheet.forDigital image processingMethodBecauseA step of storing a moving image captured from the outside as a still image of a plurality of frames in a still image storage means, and a plurality of still images stored in the still image storage means by the display control means every predetermined number of frames. The still images displayed on the monitor as still images that are displayed in the sequence direction and displayed on the monitor and are not displayed every predetermined number of frames among the still images stored in the still image storage means. A step of displaying a still image based on one designated still image on the monitor by the display control means, and a step of selecting a predetermined still image to be printed from the still images displayed on the monitor by the image selection means. If there are still images to be printed among the still images displayed every predetermined number of frames on the monitor, the displayed still images are displayed. With selecting a still image to be printed from among the purine of the displayed still image in the predetermined number of frames every If there is no still image to be printed, a step of selecting a still image to be printed from among the still images based on the specified one still image, and a still image displayed on the monitor selected by the image selection means Step of outputting still image data corresponding to an image as print data by a data output meansIt is characterized by having.
[0037]
  thisMethodAccording to the above, still images obtained from moving images areDisplayed on the monitor in a state of being arranged in a time-series direction every predetermined number of frames, and the monitor as a still image not displayed every predetermined number of frames among the still images stored in the still image storage means Still image based on one specified still image among the still images displayed inSince it is displayed on the monitor, it should be printed by viewing the monitor.It becomes possible to easily select a still image of the optimum scene or a neighboring scene. The time-series direction here may be a direction from the early side to the late side or a direction from the late side to the early side. Further, still images obtained from moving images are stored in the still image storage means every number of frames set corresponding to the number of frames of the moving images, and still images stored in the still image storage means are stored in predetermined frames. Every few numbers are displayed on the monitor. As a result, the image processing operation can be performed at high speed, which is excellent in convenience and easy to handle.The
[0038]
  The invention of claim 17A digital image processing program for printing a still image obtained from a moving image on a recording sheet, wherein the computer is caused to execute each step in the digital image processing method according to any one of claims 12 to 16.It is characterized by that.
[0039]
  According to this digital image processing program, since a still image obtained from a moving image is displayed on a monitor, a still image to be printed can be easily selected by visually checking the monitor..
[0040]
DETAILED DESCRIPTION OF THE INVENTION
  FIG. 1 is a diagram showing a schematic configuration of a digital image processing apparatus to which a digital image processing method according to an embodiment of the present invention is applied. In this figure, a digital image processing apparatus 10 is a so-called digital photo processor that converts a predetermined frame of a moving image taken by a digital camera into a still image and prints it on a recording paper. A photosensitive material supply unit 14 in which two magazines 141 and 142 having belt-shaped photosensitive materials P1 and P2 such as photographic paper having different sizes wound thereon are mounted on the upper surface of FIG. The image processing unit 16 disposed on the left side, the development processing unit 18 disposed on the right side in the drawing, the drying processing unit 20 disposed on the upper surface of the housing 12, and the interior of the housing 12 The control unit 22 disposed in the vicinity of the image processing unit 16 and the operation unit 24 disposed outside the housing 12 are provided. The image processing unit 16, the development processing unit 18, and the drying processing unit 20 constitute a printer 26 that prints a still image on a photosensitive material.
[0041]
  The photosensitive material supply unit 14 is configured so that the strip-shaped photosensitive materials P1 and P2 can be selectively pulled out from the two magazines 141 and 142, and the photosensitive material P1 and the photosensitive material P1 pulled out from one of the magazines 141 and 142 are configured. P2 is transported downstream along the first transport path 143, and is cut to a predetermined length by a cutter 144 disposed at the end of the first transport path 143.
[0042]
  The image processing unit 16 exposes the cutting material P3 cut to a predetermined length by the cutter 144, and is output from three laser generation units that output laser beams of the three primary colors of RGB and the laser generation unit. A light modulation element that modulates the laser light, a polygon mirror that guides the modulated laser light to a predetermined position on the cutting material P3, and the like are provided. The image processing unit 16 includes a second transport path 161 that transports the pre-exposure cutting material P3 to the exposure position and transports the exposed cutting material P3 to the development processing unit 18.
[0043]
  The development processing unit 18 includes a plurality of processing tanks 181, 182, 183, and 184 that individually store a developing solution, a fixing solution, a bleaching solution, and a stabilizing solution, and has been conveyed by the second conveying path 161. The exposed cut material P3 passes through the processing tanks 181 to 184 for development processing. The development processing unit 18 includes a third transport path 185, and transports the developed cut material P <b> 3 to the drying processing unit 20.
[0044]
  The drying processing unit 20 performs, for example, hot-air drying of the development-processed cut material P3 conveyed by the third conveyance path 185. The cut material P3 dried by the drying unit 20 is sequentially discharged onto the trays 201 arranged in the vertical direction.
[0045]
  The control unit 22 controls the overall operation of the apparatus such as image data processing and laser generation unit processing. The operation unit 24 is connected to the control unit 22 and displays a screen 241 for setting various processing conditions such as image processing conditions of the image processing unit 16 and a keyboard for inputting and setting processing conditions. The input unit 242 such as a mouse or the like, and the reading unit 245 (FIG. 2) for reading the image data recorded on the external recording medium mounted on the mounting unit 243 and the image data on the external recording medium mounted on the mounting unit 243 And a recording medium driving unit 244 having a writing unit 246 (FIG. 2) for writing.
[0046]
  FIG. 2 is a control block diagram for explaining the image data processing operation in the control unit 22. In this figure, the control unit 22 includes a CPU that executes arithmetic processing, a ROM that stores processing programs and various data, and a RAM that temporarily stores processing data.
[0047]
  In addition to the monitor 241, the input unit 242, and the recording medium driving unit 244, the control unit 22 stores an internal moving image that stores a moving image in a compressed state read by the reading unit 245 of the recording medium driving unit 244. A moving image memory 221 as a means, a still image memory 222 for storing a still image obtained by converting and decompressing a file format of a moving image read from the moving image memory 221, and stored in the still image memory 222 An image display memory 223 for storing still images to be displayed on the monitor 241 among the still images, a print data memory 224 for storing still images to be printed on recording paper, and the like are connected. Each of these memories 221 to 224 is composed of an electrically rewritable memory such as an EEPROM. The recording medium driving unit 244 also reads a reading unit 245 that reads image data (moving image data) recorded on the external storage medium, and a writing unit 246 that writes image processed image data (still image data) to the external storage medium. It has.
[0048]
  The control unit 22 includes a moving image reading control unit 22a, a display interval determination unit 22b, a file format conversion unit 22c, a display control unit 22d, an image selection control unit 22e, a print mode selection control unit 22f, a print control unit 22g, a recording Each function realization part of the mode selection control part 22h and the data writing control part 22i is provided. The image selection control unit 22e includes a function realization unit as an image search control unit 22j. The image search control unit 22j includes a search display control unit 22k, a frame advance display control unit 22m, and an enlarged display control unit 22n. And each function realization part as enlarged frame advance display control part 22p is provided. In addition, the print control unit 22g includes a function realization unit as the print data output control unit 22q.
[0049]
  When a recording medium that is an external moving image storage unit is mounted on the recording medium mounting unit 243 of the recording medium driving unit 244, the moving image reading control unit 22a displays a moving image (moving image data) recorded on the recording medium. The reading unit 245 is made to read. The moving image read by the reading unit 245 is recorded in the moving image memory 221. The moving image reading control unit 22a also executes a reading operation control of the moving image recorded in the moving image memory 221.
[0050]
  The display interval determination unit 22b determines the number of thinned out still images to be stored in the still image memory 222 in accordance with the playback time of moving images (the number of frames of moving images) read by the reading unit 245. In the present embodiment, the number of still images to be stored in the still image memory 222 is set in advance (for example, set to 100 frames). Therefore, the number of frames to be stored in the still image memory 222 and the frames of the moving image are set. The number of thinned out still images is obtained from the number. For this reason, when the playback time of the moving image (the number of frames of the moving image) is long, the frame decimation number increases, and when it is short, the frame decimation number decreases.
[0051]
  In this way, halfway frames are thinned out so that still images are stored every predetermined number of frames. When still images corresponding to the total number of frames of moving images are stored, a large-capacity memory is used. This is because image processing time for displaying on the monitor 241 and the like become longer. Note that even if a frame in the middle is thinned out, the original image of each frame is continuous, so even if the necessary optimum scene does not exist, there is no problem in practical use because a scene near the optimum scene always exists. In other words, even if the number of frames to be thinned out increases, if there is no sense of incongruity between the necessary optimum scene and the neighboring scene, the neighboring scene can be made the optimum scene.
[0052]
  The file format conversion unit 22c constitutes an image conversion unit that decompresses a compressed moving image and converts it into a still image. The moving image read by the reading unit 245 and stored in the moving image memory 221 is converted into MPEG. A still image of a plurality of frames is obtained by converting from a moving image file format such as JPEG to a still image file format such as JPEG. The still images of a plurality of frames converted into the still image file format are stored in the still image memory 222 in a state including time information (time series information).
[0053]
  In the present embodiment, all the frames of the moving image are decoded and converted into still images by the file format conversion unit 22c. However, as described above, the still image memory 222 has predetermined intervals at predetermined intervals. A still image in which a number of frames are thinned out is stored. The still image memory 222 stores a still image in which predetermined image data is thinned out for each frame. That is, predetermined still image data is thinned out by the control unit 22 for each still image stored in the still image memory 222 among the still images obtained by decoding all the frames of the moving image. By performing the thinning-out processing of the image data in this way, coupled with the thinning-out of frames, the reduction in the capacity of the still image memory 222 is promoted and the speeding up of the image processing operation is promoted.
[0054]
  The display control unit 22d displays the still images of a plurality of frames obtained by converting into the still image file format by the file format conversion unit 22c on the monitor 241 in a state of being arranged in the time series direction. In this embodiment, the display control unit 22d does not display all the still images stored in the still image memory 222, but displays only a predetermined number of still images (for example, 25 frames). I try to let them. For this reason, the display control unit 22d determines the frame from the number of still image frames (for example, 100 frames) stored in the still image memory 222 and the number of frames (for example, 25 frames) displayed on the monitor 241 during the display control operation. The number of thinned out images is obtained, and still images are read from the still image memory 222 every predetermined number of frames based on the obtained number of thinned out images and displayed on the monitor 241. The display control unit 22d constitutes display control means together with the monitor 241 and the like.
[0055]
  The image selection control unit 22e is configured to select one still image to be printed from among a plurality of still images (for example, 25 frames) displayed side by side in the time series direction on the monitor 241. That is, a still image to be printed is selected by designating one still image displayed on the monitor 241 with the input unit 242 such as a keyboard or a mouse. The image selection control unit 22e constitutes an image selection unit together with the input unit 242.
[0056]
  The print mode selection control unit 22f is a first print mode in which all still images of a plurality of frames (for example, 25 frames) displayed on the monitor 241 by the control operation of the display control unit 22d are printed for each still image, Also, one of the second print modes for printing only one still image related to the still images of a plurality of frames (for example, 25 frames) displayed on the monitor 241 by the control operation of the display control unit 22d is selected. To do.
[0057]
  In the second print mode, when only one still image of a plurality of frames (for example, 25 frames) displayed on the monitor 241 is printed by the control operation of the display control unit 22d, One still image retrieved based on one still image among a plurality of still images (for example, 25 frames) displayed on the monitor 241 by the control operation of the control unit 22d, and the display control unit 22d Depending on the control operation, still images that are not displayed on the monitor 241 (that is, among still images stored in the still image memory 222 (for example, 100 frames of still images) are displayed on the monitor 241 (for example, , 25 frames) are selected for printing a still image).
[0058]
  In the present embodiment, any mode is selected by operating the input unit 242. For this reason, the print mode selection control unit 22f constitutes a print mode selection unit together with the input unit 242 and the like.
[0059]
  The print control unit 22g reads still image data corresponding to the still image selected by the image selection control unit 22e and to be printed on the recording paper stored in the print data memory 224. The data is output to the image processing unit 16 as print data, and the still image is cut based on the still image data input by operating the image processing unit 16, the development processing unit 18, and the drying processing unit 20 (FIG. 1). ) Is printed. The print control unit 22g constitutes a printing unit together with the image processing unit 16, the development processing unit 18 and the drying processing unit 20 constituting the printer 26.
[0060]
  The recording mode selection control unit 22h includes a first recording mode for printing a still image selected by the input unit 242 and the image selection control unit 22e on the cut material P3 (FIG. 1), and the input unit 242 and image selection control. Any one of the second recording modes in which a still image selected by the unit 22e or the like and to be printed on the cutting material P3 is written to an external storage medium mounted on the mounting unit 243 of the recording medium driving unit 244. Is to select. In the present embodiment, any mode is selected by operating the input unit 242. Therefore, the recording mode selection control unit 22h constitutes a recording mode selection unit together with the input unit 242 and the like.
[0061]
  When the second recording mode is selected by the input unit 242, the recording mode selection control unit 22h, or the like, the data writing control unit 22i originally outputs a still image to be printed on the cutting material P3 of the recording medium driving unit 244. The writing unit 246 is operated to write to the external storage medium attached to the attachment unit 243 of the recording medium driving unit 244. The data writing control unit 22i constitutes a data writing unit together with the writing unit 246 of the recording medium driving unit 244 and the like.
[0062]
  When the second print mode is selected by the control operation of the print mode selection control unit 22f, the image search control unit 22j has a plurality of frames (for example, 25 frames displayed on the monitor 241 by the control operation of the display control unit 22d). The still image stored in the still image memory 222 among the still images of a plurality of frames obtained by converting one still image of the still images of the frame) as a key image and being converted by the file format conversion unit 22c. One still image is retrieved from (for example, 100 frames of still images).
[0063]
  That is, when the optimum scene or its neighboring scene exists in the still images of a plurality of frames (for example, 25 frames) displayed on the monitor 241 by the control operation of the display control unit 22d, one of the plurality of frames is selected. If a still image is selected and there is no optimal scene or a scene near it, the still image displayed on the monitor 241 of the still images (for example, 100 still images) stored in the still image memory 222 is excluded. Will be selected from the list. In the present embodiment, a predetermined still image is searched by operating the input unit 242. For this reason, the image search control unit 22j constitutes an image search means together with the input unit 242 and the like.
[0064]
  When the second print mode is selected by the control operation of the print mode selection control unit 22f, the search display control unit 22k has a plurality of frames (for example, 25 frames displayed on the monitor 241 by the control operation of the display control unit 22d). ) By designating one of the still images, a plurality of frames (for example, the designated number of frames) that are a predetermined number of frames following the time-series direction of the one still image including the designated one still image. 6 frames including one still image) are enlarged to a size larger than the still image displayed on the monitor 241 and displayed on the monitor 241 by the control operation of the display control unit 22d.
[0065]
  As described above, the still image displayed on the monitor 241 by the control operation of the display control unit 22d is displayed on the monitor 241 in an enlarged manner by the control operation of the search display control unit 22k. The inconvenience that a still image cannot be selected is solved. In the present embodiment, one still image is designated by operating the input unit 242. Therefore, the search / display control unit 22k constitutes a search / display control unit together with the input unit 242 and the like.
[0066]
  The frame advance display control unit 22m displays the still images of a plurality of frames (for example, 6 frames) enlarged and displayed on the monitor 241 by the control operation of the search display control unit 22k on the monitor 241 by the control operation of the display control unit 22d. Within a range of still images of a plurality of frames (for example, 25 frames), the images are sequentially enlarged along the time-series direction, and frame-by-frame advance display is performed. This frame advance display is executed by clicking the frame advance button (scroll button) CM (FIGS. 6 and 7) displayed on the screen by operating the mouse constituting the input unit 242 in this embodiment. Therefore, the frame advance display control unit 22m constitutes a frame advance display control unit together with the input unit 242 and the like.
[0067]
  The enlarged display control unit 22n designates one of the still images of a plurality of frames (for example, 6 frames) enlarged and displayed on the monitor 241 by the control operation of the search display control unit 22k and the frame advance display control unit 22m. By doing so, the designated one still image is further enlarged and displayed on the monitor 241. In this way, by further enlarging and displaying one still image on the monitor 241 by the control operation of the enlargement display control unit 22n, it is enlarged and displayed on the monitor 241 by the control operations of the search display control unit 22k and the frame advance display control unit 22m. The problem that the still image is still small and the desired one still image cannot be selected is solved. In the present embodiment, one still image is designated by operating the input unit 242. Therefore, the enlarged display control unit 22n constitutes an enlarged display control unit together with the input unit 242 and the like.
[0068]
  The enlarged frame advance display control unit 22p converts one still image enlarged and displayed on the monitor 241 by the control operation of the enlarged display control unit 22n by the file format conversion unit 22c, and converts the still image of a plurality of frames obtained by the conversion. Among them, the still image stored in the still image memory 222 is read out in the time-series direction and sequentially enlarged to display the frame by frame. This enlarged frame advance display is executed by operating the mouse constituting the input unit 242 and clicking the frame advance button (scroll button) CM (FIGS. 6 and 7) displayed on the screen in this embodiment. . For this reason, the enlarged frame advance display control unit 22p constitutes an enlarged frame advance display control means together with the input unit 242 and the like.
[0069]
  The print data output control unit 22q reads the corresponding still image data stored in the print data memory 224 that is the still image selected by the image selection control unit 22e, and uses the read still image data as print data. This is output to the image processing unit 16 constituting the printer 26.
[0070]
  3 and 4 are flowcharts for explaining the control operation of the digital image processing apparatus 10 configured as described above. First, an external storage medium (external moving image storage means) in which a moving image shot by a digital camera is recorded in a moving image file format such as MPEG is mounted on the mounting unit 243 of the recording medium driving unit 244 and the input unit 242 is connected. When the start key set on the keyboard that is configured is pressed, the drive of the recording medium driving unit 244 is started, and the moving image recorded on the external storage medium is read by the control operation of the moving image reading control unit 22a. The image file format is recorded in the moving image memory 221 (step S1).
[0071]
  Next, the moving image read control unit 22a performs a reproduction process on the moving image captured in the moving image memory 221 (step S3), and the still image thinned out to be stored in the still image memory 222 is calculated from the time required for the reproduction process (moving image time). The number (display interval) is determined by the display interval determination unit 22b (step S5).
[0072]
  Next, the moving image captured in the moving image memory 221 is converted from the moving image file format to the still image file format by the file format conversion unit 22c (step S7). The still image obtained by converting to the still image file format (still image having the same number of frames as the number of frames of moving images) is once captured in a recording medium such as a RAM and then determined in step S5. The frames are thinned by the thinning number and recorded in the still image memory 222 (step S9). The still image recorded in the still image memory 222 is obtained by reducing the amount of data by performing predetermined image data thinning processing for each still image.
[0073]
  Next, a predetermined number of still images of a plurality of frames (for example, 100 frames) recorded in the still image memory 222 by the display control unit 22d become a predetermined number of frames (for example, 25 frames) set in advance. Are read out and displayed, and the read still image is displayed on the monitor 241 in a state of being arranged in the time series direction (step S11). The read still image is once captured in the image display memory 223 and displayed on the monitor 241. FIG. 5 is a diagram showing an example of this display screen, in which still images are displayed in time series from the frame number “001” at the uppermost left end to the frame number “025” at the lowermost right end.
[0074]
  Next, a first print mode for printing all of the still images of a plurality of frames displayed on the monitor 241 and a second print of only one still image related to the still images of the plurality of frames displayed on the monitor 241. Which print mode is selected is determined by the determination function unit of the control unit 22 (step S13). The selection of the print mode is executed by the print mode selection control unit 22f according to the operation of the input unit 242 by the operator at the stage where a predetermined number of still images are displayed on the monitor 241.
[0075]
  Here, when the first print mode is selected, all the still images of a predetermined number of frames displayed on the monitor 241 are cut by the print control unit 22g operating the image processing unit 16, the development processing unit 18, and the like. The printing process is sequentially performed on the material P3 (step S15), and the series of control operations is finished when the printing process of the last frame is finished. This print processing control operation is executed as follows.
[0076]
  In other words, a moving image captured by a digital camera is read from the moving image memory 221, and the read moving image is converted from a moving image file format to a still image file format by the file format conversion unit 22c. The still image (still image data) corresponding to the still image to be printed among the still images of a plurality of frames obtained by converting to the still image file format is directly used as print data without thinning out the image data. The still image is sequentially captured in the print data memory 224, and the still image is sequentially printed on the cut material P3 based on the still image data captured in the print data memory 224.
[0077]
  When the second print mode is selected, the same still image captured in step S11 from among a plurality of still images (for example, 100 frames) stored in the still image memory 222 is enlarged. For display, the image data is interpolated in comparison with the display in step S11 so that the thinning amount of the image data is reduced and stored in a storage medium such as a RAM (step S17). Next, whether or not one still image related to the still image to be printed has been designated is determined by the determination function unit of the control unit 22 (step S19).
[0078]
  The designation of one still image is executed by the operation of the input unit 242 by the operator. If the determination is negative in step S19, the process waits until the determination is affirmed. If the determination is affirmative, the designated frame (here, the frame with the frame number “001” being the first frame is specified). A still image having a predetermined number of frames (for example, 6 frames) including the frame in the time series direction is first displayed on the monitor 241 by the search display control unit 22k of the image search control unit 22j constituting the image selection control unit 22e. The image is displayed with an enlarged size (step S21). The still image to be displayed in an enlarged manner is once taken into the image display memory 223, and then read out from the image display memory 223 and displayed on the monitor 241.
[0079]
  FIG. 6 is a diagram showing an example of this display screen, in which still images are displayed in chronological order from the upper left frame number “001” to the lower right frame number “006”. . In FIG. 6, a frame advance button CM for executing frame advance is displayed at the lower left of the screen, and a print button PM for designating the number of prints is displayed at the lower center of the screen.
[0080]
  Next, it is determined by the determination function unit of the control unit 22 whether or not a frame advance instruction has been performed (step S23). This frame advance instruction is executed when the operator operates the frame advance button CM displayed on the screen shown in FIG. The frame advance button CM is configured to select either the forward direction (indicated by the sign “+”) or the reverse direction (indicated by the sign “−”), and clicks the sign “+”. Thus, frame advance is possible in the forward direction side, and frame advance is possible in the reverse direction side by clicking the sign “−”.
[0081]
  If the determination in step S23 is affirmative, the image is within the range of still images of a plurality of frames displayed on the monitor 241 by the control operation of the display control unit 22d (for example, within the range of 25 frames shown in FIG. 5). The frames are sequentially enlarged and displayed in the selected direction by the number of frames designated by the frame feed display control unit 22m of the image search control unit 22j constituting the selection control unit 22e (step S25). When this frame advance display operation ends, the process returns to step S23.
[0082]
  The frame advance display processing operation in step S25 is executed as follows. That is, among the still images written in the image display memory 223 in accordance with the operation of the frame advance button CM, the still image at the leading end in the feed direction is erased, while the same number of newly erased frames are newly displayed. The still image to be read is read from the still image memory 222 and written to the image display memory 223, whereby the recorded content of the image display memory 223 is updated, and the still image is read from the updated image display memory 223 and monitored. 241 is displayed.
[0083]
  On the other hand, if the determination in step S23 is negative, the determination function unit of the control unit 22 determines whether or not a detailed screen display instruction for one still screen has been issued (step S27). In step S23, for example, a predetermined key of the keyboard constituting the input unit 242 is operated, so that the determination is denied and the process proceeds to the next step. Further, the detailed screen display instruction for one still screen in step S27 is, for example, by moving the frame image FL shown in FIG. 6 (designating the frame with frame number “002” in FIG. 6) by operating the input unit 242. After that, it is executed by operating a predetermined key on the keyboard.
[0084]
  If the determination in step S27 is negative, the print scene is determined by designating one of the still images displayed on the monitor 241 (for example, 6 frames). Step S29). In step S27, for example, a predetermined key of the keyboard constituting the input unit 242 is operated, so that the determination is denied and the process proceeds to the next step. Also, the designation of one still screen in step S29 is executed, for example, by clicking on the still screen.
[0085]
  Next, the first recording mode in which the still image of the determined print scene is printed on the cutting material P3 (FIG. 1) and the still image to be printed on the cutting material P3 are mounted on the mounting unit 243 of the recording medium driving unit 244. Which recording mode of the second recording mode to be written to the external storage medium is selected is determined by the determination function unit of the control unit 22 (step S31). The selection of the recording mode is executed by the recording mode selection control unit 22h according to the operation of the input unit 242 by the operator.
[0086]
  Here, when the first recording mode is selected, the still image of the determined print scene is printed on the cut material P3 by operating the image processing unit 16, the development processing unit 18 and the like by the print control unit 22g ( Step S33), a series of control operations ends. Note that the number of prints is set by, for example, clicking the print button PM by the operator during the print process. Further, this print processing control operation is executed as follows.
[0087]
  In other words, a moving image captured by a digital camera is read from the moving image memory 221, and the read moving image is converted from a moving image file format to a still image file format by the file format conversion unit 22c. Then, the still image corresponding to the still image of the print scene determined in step S29 among the plurality of still images obtained by converting into the still image file format is directly stored in the RAM or the like without thinning out the image data. The still image captured on the recording medium is printed on the cutting material P3.
[0088]
  When the first recording mode is selected, a moving image is read from the moving image memory 221 and converted into a still image file format by the file format conversion unit 22c, and determined in step S29 among the converted still images. The still image corresponding to the still image of the printed scene is directly captured as print data into the print data memory 224 without thinning out the image data (step S35), and the captured still image is read and recorded. It is written as print data, which is still image data, in an external storage medium mounted on the mounting unit 243 of the drive unit 244 (step S37). Thereby, a series of control operations are completed.
[0089]
  On the other hand, if the determination in step S27 is affirmative, all still images of a plurality of still images (for example, 100 frames) stored in the still image memory 222 are displayed in step S17 for enlarged display. The image data is read in a state where the amount of thinning out of the image data is reduced by interpolating the image data, and stored in a storage medium such as a RAM (step S39). Thereafter, the still image of the frame specified in step S27 is further enlarged than the size displayed in step S21 by the enlarged display control unit 22n of the image search control unit 22j constituting the image selection control unit 22e, and is monitored as a detailed screen. 24 is displayed (step S41). The still image to be displayed in an enlarged manner is once taken into the image display memory 223, and then read out from the image display memory 223 and displayed on the monitor 241.
[0090]
  FIG. 7 is a diagram showing an example of this display screen, in which only the still image of frame number “002” designated in FIG. 6 is enlarged and displayed. In FIG. 7, as in the case shown in FIG. 6, a frame advance button CM for executing frame advance is displayed at the lower left of the screen, and a print button PM for designating the number of prints is displayed at the lower center of the screen. Has been.
[0091]
  Next, it is determined by the determination function unit of the control unit 22 whether or not a frame advance instruction has been performed (step S43). This frame advance instruction is executed when the operator operates the frame advance button CM displayed on the screen shown in FIG. The frame advance button CM is configured to select either the forward direction (indicated by the sign “+”) or the reverse direction (indicated by the sign “−”), and clicks the sign “+”. Thus, frame advance is possible in the forward direction side, and frame advance is possible in the reverse direction side by clicking the sign “−”.
[0092]
  If the determination in step S43 is affirmative, it is designated within the range of the still image captured in step S39 by the enlarged frame advance display control unit 22p of the image search control unit 22j constituting the image selection control unit 22e. The number of frames is sequentially enlarged in the selected direction and frame-by-frame is displayed and displayed (step S45). When the frame advance display operation in units of one frame is finished, the predetermined frame number (for example, six frames) is the same as that displayed in step S21, including the frame finally specified in step S45. A still image having the same size as that displayed in S21 is displayed on the monitor 241 by the search display control unit 22k of the image search control unit 22j constituting the image selection control unit 22e (step S47). The still image to be displayed is once taken into the image display memory 223 and then read out from the image display memory 223 and displayed on the monitor 241.
[0093]
  The frame advance display processing operation in step S45 is performed as follows. That is, among the still images written in the image display memory 223 in accordance with the operation of the frame advance button CM, the still image at the leading end in the feed direction is erased, while the still image of the newly displayed frame is displayed in step S39. The content recorded in the image display memory 223 is updated by being read from the storage medium such as the RAM read in and written in the image display memory 223, and a still image is read from the updated image display memory 223 to be monitored. 241 is displayed. The frame advance in step S45 may be performed in units of a plurality of frames. In short, it is only necessary that frame advance display is performed in units of a predetermined frame of one or more frames.
[0094]
  If the determination in step S43 is negative, the process proceeds to step S47, including the frame displayed in step S41, and the same number of predetermined frames (for example, 6 frames) as displayed in step S21. In addition, a still image having the same size as that displayed in step S21 is displayed on the monitor 241 by the search display control unit 22k of the image search control unit 22j constituting the image selection control unit 22e. In step S43, for example, a predetermined key of the keyboard constituting the input unit 242 is operated, so that the determination is denied and the process proceeds to the next step.
[0095]
  After a predetermined number of still images are displayed in step S47, the process proceeds to step S29 where a print scene is determined. In this case, the print scene designated in step S41 or step S45 is determined.
[0096]
  The present invention displays, on the monitor, a still image obtained by converting the file format from the moving image stored in the external recording medium by the file format conversion unit, as in the above embodiment. A still image to be printed is selected from the still images, and a still image corresponding to (related to) the selected still image and converted by the file format conversion unit is printed on the recording paper. The user can easily select a still image to be printed by visually recognizing the monitor on which the still image is displayed, and can surely print the selected still image. Therefore, an easy-to-handle digital image processing apparatus is realized, and a digital image processing method and a digital image processing program can be obtained.
[0097]
  In addition, this invention is not limited to what was comprised like the said embodiment, For example, the various deformation | transformation aspects described below can be employ | adopted as needed.
[0098]
  (1) In the above embodiment, the number of frames recorded in the still image memory 222 is set to a constant value (for example, 100 frames) regardless of the number of frames of the moving image, but is not limited to this. For example, the number of frames is increased or decreased according to the number of moving image frames (the number of still images to be recorded increases when the number of moving image frames is large, and the number of still images to be recorded when the number of moving image frames is small). Can also be reduced.)
[0099]
  (2) In the above embodiment, the still image is displayed on the monitor 241 with the image data thinned out. However, the present invention is not limited to this. For example, when the number of still images displayed on the monitor 241 is small, the image data can be displayed without being thinned out.
[0100]
  In addition, when a still image is displayed on the monitor with the image data thinned out, the still image with predetermined image data thinned out for each frame is stored in the still image memory 222. However, it is not limited to this. For example, image data is stored in the still image memory 222 without being thinned, and the still image is displayed in the display control unit 22d, the search display control unit 22k, the frame advance display control unit 22m, the enlarged display control unit 22n, and the enlarged frame control unit. The image data may be thinned when displayed on the monitor 241 by the feed display control unit 22p.
[0101]
  That is, when the still image is displayed on the monitor 241, the image data may be thinned out when the still image is captured from the still image memory 222 into the image display memory 223. In this case, when the still image is displayed on the monitor 241 by the control operation of the display control unit 22d, the search display control unit 22k, the frame advance display control unit 22m, the enlarged display control unit 22n, and the enlarged frame advance display control unit 22p, image data is displayed. The thinning amount may be changed according to the display size.
[0102]
  (3) In the above embodiment, when the second print mode is selected, the still image memory 222 stores a plurality of still images obtained by conversion by the file format conversion unit 22c. Although one still image is searched from among the still images, the present invention is not limited to this. For example, one still image may be directly searched from among still images obtained by conversion by the file format conversion unit 22c.
[0103]
  (4) In the above embodiment, the first recording mode for printing a still image on the cutting material P3 and the still image to be printed on the cutting material P3 are stored on the external storage medium mounted on the mounting unit 243 of the recording medium driving unit 244. Any one of the second recording modes to be written is selected, but the present invention is not limited to this. For example, the first recording mode may be automatically selected unless otherwise specified, and the second recording mode may be selected only when specified.
[0104]
  (5) In the above embodiment, the image processing unit 16, the development processing unit 18, and the drying processing unit 20 constitute the printer 26 that prints (prints) a still image on a photosensitive material. However, the present invention is not limited to this. Absent. For example, it is possible to employ a printer that prints (prints) a still image on various types of recording paper such as an inkjet method or an ink ribbon method. In this case, plain paper is used as a paper for printing a still image, not a photosensitive material. Accordingly, in the present invention, a sheet of photosensitive material or plain paper for printing a still image is generically called a recording sheet.
[0105]
  (6) In the above embodiment, the digital image processing apparatus 10 constitutes a digital photo processor that prints a still image on a photosensitive material, but is not limited to this. The digital image processing apparatus 10 according to the present invention includes, for example, a general-purpose system or a dedicated system configured by combining a personal computer, a monitor, and a printer such as an ink jet method or an ink ribbon method for printing on plain paper. It may be configured.
[0106]
  Further, by providing an output terminal for taking out the print data output from the print data output control unit 22q to the personal computer, the digital image processing apparatus 10 can be provided. In this case, print data output from the output terminal of a personal computer as the digital image processing apparatus 10 may be sent to the printer. In this case, the digital image processing method and the digital image processing program according to the present invention do not include a step of printing a still image on recording paper.
[0107]
  (7) In the above-described embodiment, the moving image captured from the outside is read by the reading unit 245 from the image stored in the external storage unit, but is not limited thereto. For example, a moving image may be captured from the outside via a communication line such as the Internet or wireless communication means. In this case, the reading unit 245 of the recording medium driving unit 244 is not necessary.
[0108]
  (8) In the above embodiment, the search display control unit 22k designates one still image among a plurality of still images (for example, 25 frames) displayed on the monitor 241 by the display control unit 22d. A still image having a predetermined number of frames (for example, 6 frames) in the time series direction of the one still image including the designated one still image is enlarged and displayed on the monitor 241, and a detailed screen display instruction is given. One of the still images is further magnified and displayed by the magnified display control unit 22n. However, the present invention is not limited to this.
[0109]
  For example, one of the still images of a plurality of frames (for example, 25 frames) displayed on the monitor 241 is designated by the control operation of the display control unit 22d without performing the enlarged display by the search display control unit 22k. Thus, the designated one still image can be enlarged and displayed by the enlarged display control unit 22n. In this case, the magnified still image may be frame-displayed by a predetermined frame unit (one to a plurality of frame units) in the time series direction by the enlarged frame-feed display control unit 22p. This frame advance display may be performed within a range of a plurality of frames (for example, 25 frames) displayed on the monitor 241 or a plurality of frames (for example, stored in the still image memory 222). , 100 frames) may be performed within a still image range.
[0110]
  Further, the display control unit 22d does not display a plurality of still images (for example, 25 frames) and the search display control unit 22k does not display a still image, and a predetermined display control unit such as the enlarged display control unit 22n A plurality of frames of still images obtained by the file format conversion unit 22c may be displayed on the monitor 241 in units of frames. The display of one frame unit can be executed by a predetermined key operation of the input unit 242, for example.
[0111]
  In this case, the size of the still image displayed on the monitor 241 is, for example, the one displayed by the display control unit 22d in the above embodiment, the one displayed by the search display control unit 22k, or the enlarged display control unit 22n. It may be displayed. When still images are displayed in units of frames as described above, the still images displayed on the monitor 241 are displayed in predetermined frame units (in a time series direction) by a predetermined frame advance display control unit such as the enlarged frame advance display control unit 22p. The frame advance may be displayed in units of one to a plurality of frames. The frame advance display may be performed within a range of a plurality of frames (for example, 100 frames) stored in the still image memory 222, for example. Moreover, it is also possible to display at random by a predetermined key operation of the input unit 242 regardless of the time series.
[0112]
  As described above, even when the still image of a plurality of frames obtained by the file format conversion unit 22c is displayed on the monitor 241 in units of one frame, the optimal scene to be printed or the vicinity thereof by viewing the monitor 241 Since a still image of a scene can be easily selected, a digital image processing apparatus that can be easily handled can be realized, and a digital image processing method and digital image processing applied to the digital image processing apparatus can be realized. You can get a program.
[0113]
  Even when the still image of a plurality of frames obtained by the file format conversion unit 22c is displayed on the monitor 241 in units of frames, the selected still image is displayed on the monitor 241 by thinning out the image data. When printing, a still image obtained by converting the corresponding moving image stored in the moving image memory 221 by the file format conversion unit 22c may be printed.
[0114]
  (9) In the above embodiment, a moving image file format such as MPEG is adopted for the moving image, and the image data of each frame is described as being compressed with only a difference from the reference image data. This is not a limitation. For example, the moving image in the present invention may be composed of continuous still images in a state where all the image data is captured without being compressed. As described above, when the moving image is composed of a plurality of continuous still images, for example, the required still image of the frame is not transferred via the file format conversion unit 22c, which is an image conversion unit. You can get it directly from.
[0115]
  (10) In the above embodiment, the digital image processing apparatus 10 is described as converting a moving image captured by a digital camera into a still image and printing it on a recording sheet, but the present invention is not limited to this. For example, a moving image obtained via a communication line such as the Internet or a moving image taken from an external device other than a digital camera may be converted into a still image and printed on recording paper. The same applies to the digital image processing method and the digital image processing program according to the present invention.
[0116]
  (11) In the above embodiment, when a still image is displayed on the monitor 241, a still image thinned out by image data is displayed, and when a still image is printed on recording paper, still images that are not thinned out by image data are displayed. Although an image is printed, it is not limited to this. For example, even when a still image is printed on recording paper, a still image in a state where image data displayed on the monitor 241 is thinned out is printed, or image data is thinned out more than a still image displayed on the monitor 241. It is also possible to print a still image with a reduced amount.
[0117]
  (12) The present invention relates to a digital image processing apparatus, a digital image processing method, and a digital image processing program. In addition, the present invention may be a computer-readable recording medium on which a digital image processing program is recorded. . 39. A computer-readable recording medium on which a digital image processing program for printing a still image obtained from a moving image on a recording sheet is recorded, wherein the digital image according to any one of claims 27 to 38 is recorded by a computer. A computer-readable recording medium on which a digital image processing program for executing the processing method is recorded can be provided.
[0118]
【The invention's effect】
  As described above, in the present invention, a still image obtained by converting a file format from a moving image compressed and recorded in a moving image storage unit by an image conversion unit is used.The still image storage unit stores the frames for the number of frames set corresponding to the number of moving image frames stored in the moving image storage unit, and a plurality of still images stored in the still image storage unit are stored in a predetermined frame. In a state of arranging in chronological order every few numbersWhile displaying on the monitor,Still images based on one specified still image among the still images displayed on the monitor as still images not displayed every predetermined number of frames among the still images stored in the still image storage means are displayed on the monitor.A predetermined still image to be printed is selected from the still images displayed on the monitor, and the still image corresponding to the selected still image and converted by the image converting means is printed on the recording paper. It is a thing.
[0119]
  In addition, the present invention provides still images obtained from moving images.The still image storage unit stores the frames for the number of frames set corresponding to the number of moving image frames stored in the moving image storage unit, and a plurality of still images stored in the still image storage unit are stored in a predetermined frame. In a state of arranging in chronological order every few numbersWhile displaying on the monitor,Still images based on one specified still image among the still images displayed on the monitor as still images not displayed every predetermined number of frames among the still images stored in the still image storage means are displayed on the monitor.A predetermined still image to be printed is selected from the still images displayed on the monitor, and the still image corresponding to the selected still image is printed on the recording paper. It is.
[0120]
  The present invention also stores a moving image captured from the outside as a still image of a plurality of frames in a still image storage means, and a plurality of still images stored in the still image storage meansAre arranged in a time-series direction every predetermined number of frames.Display on monitorIn addition, a still image based on one specified still image among the still images displayed on the monitor as still images not displayed every predetermined number of frames among the still images stored in the still image storage means is monitored. displayThen, a predetermined still image to be printed is selected from the predetermined number of still images displayed on the monitor by the image selection means, and still image data corresponding to the still image displayed on the monitor selected by the image selection means Are output by the data output means as print data.
[0121]
  Therefore, a digital image processing apparatus that can be easily handled is realized, and a digital image processing method and a digital image processing program that realizes a digital image processing apparatus that is easy to handle can be obtained.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a schematic configuration of a digital image processing apparatus according to an embodiment of the present invention.
2 is a block diagram for explaining a processing operation of a control unit in the digital image processing apparatus shown in FIG. 1; FIG.
3 is a flowchart for explaining a processing operation of the digital image processing apparatus shown in FIG. 1;
4 is a flowchart for explaining a processing operation of the digital image processing apparatus shown in FIG. 1;
FIG. 5 is a diagram showing a screen displayed on the monitor of the digital image processing apparatus shown in FIG. 1;
6 is a diagram showing a screen displayed on the monitor of the digital image processing apparatus shown in FIG. 1. FIG.
7 is a diagram showing a screen displayed on the monitor of the digital image processing apparatus shown in FIG. 1; FIG.
[Explanation of symbols]
10 Digital image processing device
22 Control unit
26 Printer
221 Movie memory (movie storage means)
222 Still image memory (still image storage means)
241 monitor
242 Input section
245 Reading unit
246 writing unit
22a Moving image reading control unit (moving image reading control means)
22c File format conversion unit (image conversion means)
22d Display control unit (display control means)
22e Image selection control unit (image selection control means)
22g Print control unit (print control means)
22h Recording mode selection control unit (recording mode selection control means)
22i Print mode selection control unit (print mode selection control means)
22k search display control unit (search display control means)
22m frame advance display control unit (frame advance display control means)
22n enlarged display control unit (enlarged display control means)
22p Enlarged frame advance display control unit (enlarged frame advance display control means)
22q print data output control unit (data output means)
P3 cutting material (recording paper)

Claims (17)

A digital image processing apparatus that prints a still image obtained from a moving image on a recording sheet, a moving image reading unit that reads a moving image that is compressed and recorded in the moving image storage unit, and a moving image that is read by the moving image reading unit Image conversion means for converting the image into a still image, and a still image obtained by the image conversion means, and a still image that is stored every frame number set corresponding to the number of moving image frames stored in the moving image storage means The image storage means and a plurality of frames of still images stored in the still image storage means are displayed on the monitor in a state of being arranged in a time-series direction every predetermined number of frames , and stored in the still image storage means Among the still images that are not displayed every predetermined number of frames, a still image based on one specified still image among the still images displayed on the monitor is displayed on the monitor. Display control means for, which selects a predetermined still image to be printed from the displayed still image on the monitor, a still image is to be printed within the displayed still image in the predetermined number of frames every If there is a still image to be printed from the displayed still images, and if there is no still image to be printed among the still images displayed every predetermined number of frames, the designation is made. An image selection means for selecting a still image to be printed from among the still images based on the one still image, and a still image corresponding to the still image selected by the image selection means, and converted by the image conversion means A digital image processing apparatus comprising: a printing unit that prints the still image on a recording sheet. Wherein the display control unit, a digital image processing apparatus according to claim 1, wherein a is for displaying in a state of thinned image data for each still image. The printing means is a moving image corresponding to the still image selected by the image selecting means, and obtained by converting the moving image stored in the moving image storage means by the image converting means. 3. The digital image processing apparatus according to claim 2 , wherein the digital image processing apparatus prints on recording paper. A first print mode for printing all still images of a plurality of still images displayed on the monitor and a first print mode for printing only one still image related to the plurality of still images displayed on the monitor. Print mode selection means for selecting any one of the two print modes, wherein the image selection means is configured to select a plurality of still images obtained by the image conversion means when the second print mode is selected. digital image processing apparatus according to any one of claims 1 to 3, characterized in that it comprises an image retrieval means for retrieving a still image of the inner shell 1. The image search means is configured to display, on the monitor, a predetermined number of consecutive still images including one specified still image among a plurality of still images displayed at a predetermined number of frames on the monitor. in the retrieval and display control means for displaying on the monitor than the displayed still image is enlarged to a large size, the display control unit still images a predetermined number of frames is enlarged and displayed by the control operation of the retrieval and display control means according to claim 4, wherein the control operation, characterized in that a frame feed display control means for sequentially enlarged and frame advance displayed within a static image of a plurality of frames displayed on the predetermined number of frames every said monitor Digital image processing device. The image search means further enlarges and displays one still image of a predetermined number of still images enlarged and displayed by the control operation of the search display control means on the monitor, and the image 6. The digital image processing apparatus according to claim 5, further comprising enlarged frame advance display control means for sequentially enlarging the still images obtained by the conversion means in a time series direction and displaying the frame advance in predetermined frames. A digital image processing apparatus for printing a still image obtained from a moving image on a recording paper, obtained from a moving image reading unit for reading a moving image recorded in the moving image storage unit, and a moving image read by the moving image reading unit Still image storage means for storing still images every frame number set corresponding to the number of frames of moving images stored in the moving image storage means, and still images of a plurality of frames stored in the still image storage means A still image that is displayed on the monitor in a state of being arranged in a time-series direction every predetermined number of frames, and is a still image that is not displayed every predetermined number of frames among the still images stored in the still image storage means. display control means and print all from the displayed still image on the monitor of the still image based on the first still image specified displayed on the monitor of the display still image on the monitor Is intended to select a predetermined still image, when the still image to be printed within the displayed still image to a predetermined number of frames every said monitor is present, to be printed from among the displayed still image When a still image is selected and there is no still image to be printed among the still images displayed every predetermined number of frames, the still image to be printed from among the still images based on the specified one still image An image selecting means for selecting an image, and a printing means for printing a still image corresponding to the still image selected by the image selecting means and obtained from the moving image on a recording sheet. A digital image processing apparatus. A digital image processing apparatus for printing a still image obtained from a moving image on a recording paper, and storing a moving image captured from the outside as a still image of a plurality of frames, and the still image storing unit a monitor for displaying the still image stored, and displays on the monitor in a state in which arranged in time series direction a still image of a plurality of frames in a predetermined number of frames every stored in the still image memory means A still image based on one specified still image among the still images displayed on the monitor among still images stored in the still image storage means and not displayed every predetermined number of frames. display control means for displaying on the monitor, which selects a predetermined still image to be printed from the displayed quiescent image on the monitor, a predetermined number of frames every said monitor When there are still images to be printed among the displayed still images, the still images to be printed are selected from the displayed still images, and the still images displayed every predetermined number of frames are selected. If there is no still image to be printed, an image selection means for selecting a still image to be printed from among the still images based on the one specified still image, and a display selected on the monitor selected by the image selection means. A digital image processing apparatus comprising: data output means for outputting still image data corresponding to a still image as print data. The moving image is compressed, and includes image conversion means for converting the compressed moving image into a still image of a plurality of frames, and the still image storage means has a plurality of frames converted by the image conversion means. 9. The digital image processing apparatus according to claim 8 , wherein a still image of a predetermined plurality of frames among the still images is stored. The moving image is a one that is stored in the external video memory means, according to claim 8, wherein further comprising a video reading means for reading a moving image stored in the external video memory means Digital image processing device. Digital image processing apparatus according to what Re one of claims 8 to 10, further comprising a printer for printing the still image on a recording sheet based on print data output from said data output means. A digital image processing method for printing a still image obtained from a moving image on a recording paper, wherein the moving image reading unit compresses and records the moving image recorded in the moving image storage unit, and the moving image reading unit The step of converting the moving image read by the step of converting into a still image by the image converting unit, and the number of frames of the moving image stored in the moving image storage unit by converting the still image obtained by the image converting unit by the control operation of the control unit A step of storing the corresponding frame number in the still image storage means and a plurality of still images stored in the still image storage means in a time series direction every predetermined number of frames by the display control means. and displays on a monitor in a state where side-by-side, wherein the said predetermined number of frames every one of the still images stored in the still image memory means does not display a still image And displaying on the monitor by the display control means a still image based on the first still image specified from among the displayed still image on the monitor, a predetermined still image to be printed from the displayed still image on the monitor A step of selecting by the image selecting means , and when there are still images to be printed among the still images displayed every predetermined number of frames on the monitor, the still images to be printed from the displayed still images When an image is selected and there is no still image to be printed among the still images displayed every predetermined number of frames, the still image to be printed from among the still images based on the specified one still image selecting a, the image conversion means a still image corresponding to the still image selected by the image selection means Digital image processing method characterized by comprising a step of printing on a recording paper by the print unit the converted still image. 13. The digital image processing method according to claim 12 , wherein in the step of displaying still images by the display control means, each still image is displayed in a state where image data is thinned out. In the step of printing a still image by the printing unit, the moving image corresponding to the still image selected by the image selecting unit and stored in the moving image storage unit is converted by the image converting unit. 14. The digital image processing method according to claim 13, wherein the still image obtained in step (1) is printed. A digital image processing method for printing a still image obtained from a moving image on a recording sheet, comprising the steps of reading the moving image reading means the moving image stored in the moving picture storage unit, read by the video reading means Storing the still image obtained from the moving image in the still image storage unit by the number of frames set corresponding to the number of frames of the moving image stored in the moving image storage unit by the control operation of the control unit; A plurality of still images stored in the still image storage means are displayed on the monitor in a state of being arranged in a time series direction every predetermined number of frames by the display control means , and the still images stored in the still image storage means are displayed. A still image based on one specified still image among the still images displayed on the monitor among the still images displayed at the predetermined number of frames is not displayed. And displaying on the monitor by the control means, a predetermined still image to be printed from the displayed still image on the monitor is a step of selecting the image selection means is displayed on a predetermined number of frames every the monitor stationary When there is a still image to be printed among the images, the still image to be printed is selected from the displayed still images, and the still image displayed at every predetermined number of frames is printed. If there is no power still image, a step of selecting a still image to be printed from among the still images based on the specified one still image, and a still image corresponding to the still image selected by the image selection means. And a step of printing a still image obtained from the moving image on a recording paper by a printing means. Tal image processing method. A digital image processing method for printing a still image obtained from a moving image on a recording paper, the step of storing a moving image captured from outside as a still image of a plurality of frames in a still image storage means; A plurality of frames of still images stored in the means are displayed on the monitor in a time-series direction by a predetermined number of frames by the display control means, and among the still images stored in the still image storage means Displaying, on the monitor, a still image based on one specified still image among the still images displayed on the monitor among still images not displayed every predetermined number of frames, on the monitor. displaying a predetermined still image to be printed from the displayed quiescent image is a step of selecting the image selection means, the predetermined number of frames every said monitor If there is a still image to be printed among the displayed still images, a still image to be printed is selected from the displayed still images, and among the still images displayed every predetermined number of frames If there is no still image to be printed, a step of selecting a still image to be printed from among the still images based on the specified one still image, and a screen selected by the image selection means are displayed on the monitor. A digital image processing method comprising: a step of outputting still image data corresponding to the still image as print data by a data output means. A digital image processing program for printing the still image obtained from a moving image on a recording sheet, a digital to execute the steps of the digital image processing method according to any one of 請 Motomeko 12 to 16 in a computer Image processing program.

Images