JP4454704B2 - Image processing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image processing apparatus that performs image processing on moving image information.
[0002]
[Prior art]
In recent years, with the widespread use of image recording apparatuses, it has become common to perform editing processing such as dividing the recorded moving image information as appropriate and changing the order, or deleting unnecessary portions.
In the process in which such editing processing is performed, an operator selects a scene change from the reproduced moving image information as a segment of the moving image information.
[0003]
For this reason, some camcorders have a function that records the date unconditionally during recording, searches for date transitions during the editing process, and repeats playback every several tens of seconds as a guideline for identifying the breaks. It has been put into practical use.
Electronic cameras that record moving image information in units of image files and display a list of images corresponding to the top frame of each image file have been put into practical use.
[0004]
Therefore, it is possible to specify a desired break by reproducing moving image information in a range narrowed down by date difference or image file without sequentially checking all recorded moving image information. .
[0005]
[Problems to be solved by the invention]
However, when specifying the segmentation of moving image information recorded for a long time on the same day, even if the date difference or the beginning of the image file is indicated, it cannot be used as a delimiter. However, there is a problem that it takes time and effort to confirm the moving image information.
[0006]
  In addition, there is a problem that the operator must detect the moving image information while confirming even the transition of the scene uniquely determined by a predetermined condition regardless of the preference of the operator.
  Therefore, claims 1 to7SUMMARY OF THE INVENTION An object of the present invention is to provide an image processing apparatus that can reliably identify a segment of moving image information without bothering an operator.
[0007]
  Claims8SUMMARY OF THE INVENTION An object of the described invention is to provide an image processing apparatus capable of specifying a segment of moving image information that is flexibly applied to an operator's will.
  And claims9It is an object of the present invention to provide an image processing apparatus that can reliably check the presence or absence of a segmentation of moving image information.
[0008]
[Means for Solving the Problems]
  FIG. 1 shows claim 1,2,3and7It is a principle block diagram of the invention described in.
[0009]
  The image processing apparatus according to claim 1 includes moving image information.OneImage input means 10 for importing an image file from the outside and the image file captured by the image input meansIn the image fileFor the moving image information, extract the position of the moving image information that satisfies a predetermined condition,Allows editing operation based on the position of moving image information before and after the extracted positionA delimiter specifying unit 12 specified as “delimiter of the moving image information” and an information adding unit 14 for adding information indicating the delimiter specified by the delimiter specifying unit 12 to the image file are provided. .
[0010]
  FIG.Regarding the first reference exampleIt is a principle block diagram.thisThe image processing apparatus includes an image input unit 10 for capturing an image file composed of moving image information from the outside, a delimiter specifying unit 12 for specifying a “delimiter of the moving image information” that satisfies a predetermined condition, and the delimiter specifying unit And a file dividing unit 16 that divides the image file into a plurality of independent image files at the divisions specified by 12.
[0011]
  Claim2The image processing apparatus according to claim 1.InIn the image processing apparatus described above, the separation specifying unit 12 extracts color information expressing color or luminance from the moving image information, and the separation is performed on the condition that the color information indicates a predetermined characteristic. It is characterized by specifying.
  Claim3The image processing apparatus according to claim 1.InIn the image processing apparatus described above, the delimiter specifying unit 12 sequentially extracts color information expressing color or luminance from the moving image information to detect a change amount of the color information, and the change amount is a predetermined threshold value. The delimiter is specified on the condition that the value exceeds.
[0012]
  3 claims4and5It is a principle block diagram of the invention described in.
  Claim4The image processing apparatus according to claim 1.InThe image processing apparatus described above further includes sound input means 18 for taking sound information indicating sound or sound from the outside, and the delimiter specifying means 12 has a characteristic in which the sound information taken in via the sound input means 18 is predetermined. Is detected, and the time is set as the delimiter.
[0013]
  Claim5The image processing apparatus according to claim 1.InThe image processing apparatus described above further includes sound input means 18 for capturing sound information indicating sound or sound from the outside, and the delimiter specifying means 12 measures a change amount of the sound information captured via the sound input means 18. The time point when the amount of change exceeds a predetermined threshold value is defined as the break.
[0014]
  4 claims6It is a principle block diagram of the invention described in.
  Claim6The image processing apparatus described in claim1In the image processing apparatus according to the above, the time measuring unit 20 for measuring the date and time is provided, and the delimiter specifying unit 12 sets the time when the date and time counted by the time measuring unit 20 coincides with a predetermined date and time as the delimiter. It is characterized by.
[0015]
  Claim7The image processing apparatus according to claim 1.InIn the image processing apparatus described above, the delimiter specifying unit 12 specifies the delimiter every time a predetermined time elapses.
  FIG. 5 claims8It is a principle block diagram of the invention described in.
  Claim8In the image processing device according to claim 1, in the image processing device according to claim 1, the information adding unit 14 is operated by the delimiter specifying unit 12 based on a selection operation given from the outside.ExtractionThe selection means 22 for selecting any one of the “separation of the moving image information” is added, and information indicating the separation selected by the selection means 22 is added to the image file.
[0016]
  FIG.Regarding the second reference exampleIt is a principle block diagram.thisThe image processing deviceOf the first reference exampleIn the image processing apparatus, the file dividing unit 16 includes a selecting unit 22 that selects one of the “delimiters of the moving image information” specified by the delimiter specifying unit 12 based on a selection operation given from the outside. The image file is divided into a plurality of independent image files at the separation selected by the selection means 22.
[0017]
  FIG.Regarding the third reference exampleIt is a principle block diagram.thisAn image processing apparatus comprises:Of the first reference exampleIn the image processing apparatus, the delimiter specifying unit 12 is a delimiter instructing unit for instructing delimitation of the moving image information by an instruction operation given from the outside in the process in which the image input unit 10 captures moving image information as an image file. 26, and a segment designated by the segment instruction unit 26 is added as a “segment of the moving image information” that satisfies a predetermined condition.
[0018]
  FIG. 8 claims9It is a principle block diagram of the invention described in.
  Claim9The image processing apparatus according to claim 1.InThe image processing apparatus described above is characterized by comprising display means 28 for displaying on a monitor whether or not the moving image information is separated.
[0019]
(Function)
In the image processing apparatus according to the first aspect of the invention, the delimiter specifying unit 12 specifies a delimiter that satisfies a predetermined condition from moving image information captured as an image file via the image input unit 10. The information adding unit 14 adds information indicating the delimiter specified by the delimiter specifying unit 12 to the image file.
[0020]
That is, the operator can set a condition adapted to a desired scene and obtain a segment of moving image information that satisfies the condition.
Therefore, since it is possible to specify the break of the moving image information without sequentially checking the moving image information, it is possible to quickly start the editing process.
In addition, since information indicating the delimiter of the moving image information is added to the image file, it is possible to repeatedly refer to the delimiter during the editing process.
[0023]
  Claim2In the image processing apparatus according to the invention described in (1), the delimiter specifying unit 12 extracts color information representing colors and the like from the moving image information, and specifies delimiters in which the color information indicates predetermined characteristics.
  That is, as long as the characteristics of the color information are set in advance, a scene showing the characteristics can be automatically set as a segment of the moving image information.
[0024]
  Claim3In the image processing apparatus according to the invention described above, the delimiter specifying unit 12 sequentially extracts the color information expressing the color and the like from the moving image information, and detects the change amount of the color information. Further, the delimiter specifying unit 12 sets a portion where the amount of change in the color information exceeds a predetermined threshold as a delimiter of the moving image information.
  That is, since it is possible to recognize the change of the scene by determining whether or not the change amount of the color information exceeds a predetermined threshold value, the change of the scene can be automatically delimited as the moving image information.
[0025]
  Claim4In the image processing apparatus according to the invention described above, the sound input means 18 takes in sound information indicating sound or sound from the outside. The delimiter specifying means 12 determines whether or not the sound information taken in via the sound input means 18 shows a predetermined characteristic. Further, as a result of such determination, the delimiter specifying unit 12 detects a time point when the sound information shows a predetermined characteristic, and sets a scene associated with the time point as a delimiter of the moving image information.
[0026]
  Therefore, when a voice or sound having a predetermined characteristic according to a change in moving image information is inserted, it is possible to easily specify a break of moving image information without processing such as image recognition. it can.
  Claim5In the image processing apparatus according to the invention described above, the sound input means 18 takes in sound information indicating sound or sound from the outside. The delimiter specifying unit 12 measures the amount of change in the sound information captured via the sound input unit 18. The delimiter specifying unit 12 detects a time point when the change amount of the sound information exceeds a predetermined threshold value, and sets a scene associated with the time point as a delimiter of the moving image information.
[0027]
  Therefore, when the sound information changes according to the change of the moving image information, it is possible to easily specify the break of the moving image information without accompanying the processing such as image recognition.
  Claim6In the image processing apparatus according to the invention described in (1), the time measuring means 20 measures the date and time. The delimiter specifying unit 12 detects a time point when the date and time counted by the time measuring unit 20 coincides with a predetermined date and time, and sets a scene associated with the time point as a delimiter of moving image information.
[0028]
Therefore, when the moving image information is generated based on a predetermined time schedule, the transition of the scene can be set as a segment of the moving image information simply by setting the date and time on the time schedule.
By the way, in the conventional example, since the date and time are sequentially recorded unconditionally, it is necessary to specify the scene again at the time of image processing. However, in the present invention, since a desired scene is specified in advance by determining the date and time, it is possible to quickly perform image processing.
[0029]
  Claim7In the image processing apparatus according to the invention described above, the delimiter specifying unit 12 specifies a delimiter of moving image information every time a predetermined time elapses. Accordingly, with respect to image information in which scenes are switched at regular intervals, it is possible to set a transition between scenes as a segment of moving image information without performing processing such as image recognition.
[0030]
  Claim8In the image processing apparatus according to the invention described above, the selection unit 22 selects any one of the “moving image information delimiters” specified by the delimiter specifying unit 12 based on a selection operation given from the outside. The information adding unit 14 adds information indicating the delimiter selected by the selecting unit 22 to the image file. That is, the operator can select a desired partition from the automatically identified partitions.
[0031]
Therefore, in the image processing apparatus according to the invention described in claim 1, since the delimiter is specified only by a predetermined condition, there is a possibility that an unnecessary delimiter may be specified. In the image processing apparatus according to the invention, it is possible to specify only necessary breaks with the intention of the operator being surely reflected.
In addition, since only the information indicating the delimiter reflecting the operator's will is added to the image file, it is not necessary to select a delimiter again during the editing process, and it is possible to reliably reduce the time required for the editing process. Become.
[0035]
Claim9In the image processing apparatus according to the invention described in (1), the display means 28 displays on the monitor whether or not the moving image information is separated.
  Therefore, it is possible to quickly determine an image file in which a break exists, so that editing processing or the like can be performed quickly.
[0036]
DETAILED DESCRIPTION OF THE INVENTION
  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
  In addition, claims 1 to claims7As an embodiment corresponding to the invention described in the above, description will be made using an electronic camera which is one form of an image processing apparatus.8~ Claim9As an embodiment corresponding to the invention described in 1), description will be made using an image reproducing apparatus which is one form of the image processing apparatus.
[0037]
(First embodiment)
  FIG. 9 shows claims 1 and2It is a functional block diagram of embodiment corresponding to invention described in (2). In the figure, the control unit 30 is connected to an imaging unit 34, a disk drive 36, a display processing unit 38, a monitor 40, a touch panel 42, a memory 44, and an image determination unit 46 via a system bus 32. The disk drive 36 is loaded with a magnetic disk 48.
[0038]
  As for the correspondence between the principle block diagram shown in FIG. 1 and the present embodiment, the image input means 10 corresponds to the imaging unit 34, the delimiter specifying means 12 corresponds to the image determination unit 46, and the information adding means 14 It corresponds to the memory 44 and the disk drive 36.
  FIG. 10 shows claims 1 and2It is an operation | movement flowchart of embodiment corresponding to invention described in (1).
[0039]
  Hereinafter, with reference to FIG. 9 and FIG.2The operation of the embodiment corresponding to the invention described in 1 will be described.
  When the main power is turned on, the control unit 30 instructs the imaging unit 34, the display processing unit 38, and the monitor 40 to generate moving image information and display an operation screen.
  When instructed in this way, the imaging unit 34 images a subject and generates moving image information in units of frames. The moving image information generated in this way is given to each unit via the system bus 32.
[0040]
The display processing unit 38 takes in the moving image information generated by the imaging unit 34 via the system bus 32 as finder image information. The display processing unit 38 performs overlay processing on the image information for the finder and predetermined image information for the operation screen such as “record button” and “stop button”, and sends them to the monitor 40 via the system bus 32. give. On the monitor 40, image information provided from the display processing unit 38 via the system bus 32 is displayed as an operation screen.
[0041]
In the state where the operation screen is displayed in this way, the control unit 30 determines whether or not an external operation to the “recording button” is accepted via the touch panel 42 (S1 in FIG. 10). When recognizing that the recording is requested by such determination (YES side in FIG. 10S1), the control unit 30 initializes a frame counter used for counting the number of frames of the moving image information (S2 in FIG. 10).
[0042]
Further, as will be described later, the control unit 30 repeatedly instructs the disk drive 36 and the image determination unit 46 to capture the moving image information generated by the imaging unit 34 until a recording stop is recognized (see FIG. 10S3).
[0043]
Each time the disk drive 36 is instructed in this way, it captures moving image information in frame units via the system bus 32, and sequentially records the captured moving image information on the magnetic disk 48 as the same image file (S4 in FIG. 10). ).
On the other hand, the image determination unit 46 similarly captures moving image information, and samples a color signal from the captured moving image information based on a specific color system (RGB color system, YIQ color system, etc.) (FIG. 10S5). In addition, the image determination unit 46 determines whether or not the ratio (hue) of the sampled color signal is similar to the ratio (hue) registered in advance (S6 in FIG. 10).
[0044]
Only when it is recognized by such a determination that the color of the moving image information exhibits a predetermined characteristic (YES side in FIG. 10 S6), the control unit 30 determines the value of the frame counter in the memory 44 in advance. The stored area is stored (S7 in FIG. 10).
Further, the control unit 30 updates the value of the frame counter (S8 in FIG. 10), and determines whether or not an external operation to the “stop button” is accepted via the touch panel 42 (S9 in FIG. 10).
[0045]
When the stop of the recording is recognized by such determination, the disk drive 36 records the value of the frame counter stored in the memory 44 in the header portion of the image file (S10 in FIG. 10).
As described above, in the present embodiment, it is determined whether or not the color of the moving image information exhibits a predetermined characteristic by comparing the ratio (hue) of the color signal. The identified frame is reliably identified.
[0046]
In other words, it is possible to automatically detect the closed period simply by registering in advance the ratio (hue) of the color signal indicating the color of the theater curtain, thus reducing the trouble of editing processing. .
Also, when the desired scene is shot, the operator can intentionally shoot a predetermined subject so that the moving image information is surely separated, so that the desired frame can be selected efficiently during the editing process. Is possible.
[0047]
In the present embodiment, when the ratio (hue) of the color signals is similar, it is recognized that the color of the moving image information shows a predetermined characteristic. For example, a specific color of the moving image information is used. The signal may be protruding.
In the present embodiment, details of the method of registering the color signal ratio (hue) are not shown. For example, the color signal ratio (color signal ratio (color ratio) selected by the operator by presenting a color sample) (Hue) may be registered by any method.
[0048]
  Furthermore, in this embodiment, the color signal ratio (hue) is used as the color information. However, any data can be used as long as the color and luminance characteristics such as the luminance distribution for each separated color are quantitatively indicated. May be used.
(Second embodiment)
  FIG.First reference exampleIt is a functional block diagram of an embodiment corresponding to.
[0049]
  In the figure, the function is shown in FIG.2Components that are the same as those in the functional block diagram of the embodiment corresponding to the invention described in FIG.
  The configuration of the present embodiment and claim 1 and2The difference from the embodiment corresponding to the embodiment described in the above is that a control unit 50 and a luminance change detection unit 52 are provided instead of the control unit 30 and the image determination unit 46 shown in FIG.
[0050]
  2, the image input unit 10 corresponds to the imaging unit 34, the delimiter specifying unit 12 corresponds to the luminance change detection unit 52, and the file dividing unit 16. Corresponds to the function of dividing the image file of the control unit 50, the disk drive 36, and the memory 44.
  FIG.First reference exampleIt is an operation | movement flowchart of embodiment corresponding to.
[0051]
  Hereinafter, referring to FIG. 11 and FIG.First reference exampleThe operation of the embodiment will be described corresponding to the above.
  The control unit 50 comprises:2In the state where the operation screen is displayed as in the embodiment corresponding to the invention described in (1), it is determined whether or not an external operation to the “record button” has been accepted via the touch panel 42 (S1 in FIG. 12).
[0052]
Further, when the control unit 50 recognizes that the recording is requested by such determination (YES side in FIG. 12S1), it instructs the disk drive 36 to generate the image file (S2 in FIG. 12). When instructed in this way, the disk drive 36 secures an image file area on the magnetic disk 48.
Further, the control unit 50 instructs the disk drive 36 and the luminance change detection unit 52 to capture moving image information generated by the imaging unit 34 (S3 in FIG. 12).
[0053]
When instructed in this way, the disk drive 36 captures moving image information for one frame via the system bus 32 and records the captured moving image information on the magnetic disk 48 as an image file (S4 in FIG. 12).
On the other hand, the luminance change detection unit 52 captures moving image information in the same manner, and extracts and holds the average luminance level from the captured moving image information (S5 in FIG. 12).
[0054]
When the average luminance level is held in this manner, the control unit 50 repeatedly captures moving image information to the disk drive 36 and the luminance change detection unit 52 until recording stop is recognized as will be described later. Command (S6 in FIG. 12).
Each time the disk drive 36 is instructed in this way, it captures moving image information in units of frames and records the captured moving image information as an image file on the magnetic disk 48 (S7 in FIG. 12).
[0055]
On the other hand, the luminance change detection unit 52 extracts the average luminance level from the moving image information captured in the same manner, and obtains the amount of change with respect to the average luminance level extracted (held) in advance (S8 in FIG. 12). Further, the luminance change detection unit 52 determines whether or not the amount of change in the average luminance level obtained in this way exceeds a predetermined threshold value (S9 in FIG. 12).
[0056]
Only when it is recognized that the amount of change in the average luminance level exceeds a predetermined threshold by such determination (YES side in S9 in FIG. 12), the control unit 50 closes the image file and newly creates an image file. The disk drive 36 is commanded to generate (S10 in FIG. 12).
In the disk drive 36, the image file in which the moving image information is recorded is closed, and a new image file area is secured. At this time, the contents of the header part common to all the image files, information indicating the link between the image files, and the like are stored in the memory 44.
[0057]
Also, the luminance change detection unit 52 holds the newly extracted average luminance level (S11 in FIG. 12).
Further, the control unit 50 determines whether or not an external operation to the “stop button” is accepted via the touch panel 42 (S12 in FIG. 12).
When the stop of the recording is recognized by such a determination, the disk drive 36 records information related to the header portion stored in the memory 44 in the header portion of the image file, and the image file is closed (S13 in FIG. 12).
[0058]
As described above, in the present embodiment, the image file is divided when the amount of change in the average luminance level exceeds a predetermined threshold.
That is, when a drama is shot in which the lighting is darkened at the turn of the curtain, it is possible to automatically generate a different image file for each curtain.
Therefore, according to the present embodiment, since the scene is replaced by rewriting information indicating the link between the image files during the editing process, the editing process can be performed at high speed.
[0059]
In this embodiment, the amount of change in average luminance is obtained for each frame. However, the amount of change in units of one frame is small by obtaining the amount of change in average luminance for each predetermined frame unit. Even if it is a case, dark turn or light turn is reliably detected.
In this embodiment, average luminance is used as color information. However, any data can be used as long as color and luminance characteristics such as luminance distribution for each separation color are quantitatively indicated. Also good.
[0060]
(Third embodiment)
  FIG. 13 shows claims 1 and4It is a functional block diagram of embodiment corresponding to invention described in (2).
  In the figure, the function is shown in FIG.2Components that are the same as those in the functional block diagram of the embodiment corresponding to the invention described in FIG.
[0061]
  The configuration of the present embodiment and claim 1 and2The difference from the configuration corresponding to the embodiment described in FIG. 9 is that a control unit 54 and a sound determination unit 56 are provided in place of the control unit 30 and the image determination unit 46 shown in FIG. This is that a microphone 58 connected to the control unit 54 is provided.
  Further, regarding the correspondence relationship between the principle block diagram shown in FIG. 3 and the present embodiment, the image input means 10 corresponds to the imaging unit 34, the delimiter specifying means 12 corresponds to the sound determination unit 56, and the information adding means 14 Corresponding to the memory 44 and the disk drive 36, the sound input means 18 corresponds to the microphone 58.
[0062]
  FIG. 14 shows claims 1 and4It is an operation | movement flowchart of embodiment corresponding to invention described in (1).
  Hereinafter, with reference to FIG. 13 and FIG.4The operation of the embodiment will be described corresponding to the invention described in the above. The control unit 54 includes:2In the state where the operation screen is displayed as in the embodiment corresponding to the invention described in (1), it is determined whether or not an external operation to the “record button” has been accepted via the touch panel 42 (S1 in FIG. 14).
[0063]
  When recognizing that the recording is requested by such a determination (YES side in FIG. 14S1), the control unit 54,2The frame counter is initialized as in the embodiment corresponding to the invention described in (1) (S2 in FIG. 14).
  Further, the control unit 54 repeatedly instructs the disk drive 36 to take in the moving image information generated by the imaging unit 34 until the stop of recording is recognized as will be described later. In the disk drive 36, moving image information is captured in units of frames and recorded on the magnetic disk 48 as the same image file (S3 in FIG. 14).
[0064]
Further, the control unit 54 repeatedly instructs the sound determination unit 56 to take in sound information (indicating voice or sound) input via the microphone 58.
The sound determination unit 56 acquires sound information via the system bus 32, and detects the frequency spectrum by decomposing the acquired sound information into frequency components in the frame period (S4 in FIG. 14). Further, the sound determination unit 56 determines whether or not the frequency spectrum pattern thus detected is similar to the standard pattern registered in advance (S5 in FIG. 14).
[0065]
Only when it is recognized by such a determination that the sound information exhibits a predetermined characteristic (YES side in FIG. 14 S5), the control unit 54 stores the value of the frame counter in a predetermined area in the memory 44. (S6 in FIG. 14).
Further, the control unit 54 updates the value of the frame counter (S7 in FIG. 14), and determines whether or not an external operation to the “stop button” is accepted via the touch panel 42 (S8 in FIG. 14).
[0066]
When the stop of recording is recognized by such determination, the disk drive 36 records the value of the frame counter stored in the memory 44 in the header portion of the image file (S9 in FIG. 14).
[0067]
As described above, in the present embodiment, the moving image information can be divided at a point in time when the sound information shows a predetermined standard pattern.
Therefore, when a lecture that sounds a buzzer at the turn of the performance is filmed, it is possible to automatically divide the video information at the turn of the lecture content as long as the standard pattern of the buzzer is registered in advance. is there.
[0068]
In the present embodiment, the moving image information is divided when the sound information indicates a predetermined standard pattern. However, when the sound information includes a specific frequency or a specific frequency component protrudes. It may be the case.
In the present embodiment, the frequency spectrum pattern is used as data indicating the characteristics of the sound information. However, any data may be used if the characteristics of the sound information such as the volume level are quantitatively indicated. Also good.
[0069]
(Fourth embodiment)
  FIG. 15 shows claims 1 and5It is a functional block diagram of embodiment corresponding to invention described in (2).
  In the figure, the function is shown in FIG.4Components that are the same as those in the functional block diagram of the embodiment corresponding to the invention described in FIG.
[0070]
  The configuration of the present embodiment and claim 1 and4The difference from the configuration corresponding to the embodiment described in the above is that a control unit 60 and a sound change detection unit 62 are provided instead of the control unit 54 and the sound determination unit 56 shown in FIG.
  Further, regarding the correspondence relationship between the principle block diagram shown in FIG. 3 and this embodiment, the image input means 10 corresponds to the imaging unit 34, the delimiter specifying means 12 corresponds to the sound change detection unit 62, and the information addition means 14. Corresponds to the memory 44 and the disk drive 36, and the sound input means 18 corresponds to the microphone 58.
[0071]
  FIG. 16 shows claims 1 and5It is an operation | movement flowchart of embodiment corresponding to invention described in (1).
  Hereinafter, with reference to FIG. 15 and FIG.5The operation of the embodiment will be described corresponding to the invention described in the above.
  The control unit 60 comprises:4In the state where the operation screen is displayed as in the embodiment corresponding to the invention described in (1), it is determined whether or not an external operation to the “record button” has been accepted via the touch panel 42 (S1 in FIG. 16).
[0072]
  When recognizing that the recording is requested by such a determination (YES side in FIG. 16 S1), the control unit 60 includes the claims 1 and4The frame counter is initialized as in the embodiment corresponding to the invention described in (1) (S2 in FIG. 16).
  Further, the control unit 60 instructs the disk drive 36 to capture the moving image information generated by the imaging unit 34. In the disk drive 36, moving image information for one frame is taken in via the system bus 32 and recorded as an image file on the magnetic disk 48 (S3 in FIG. 16).
[0073]
  Furthermore, the control unit 60 instructs the sound change detection unit 62 to capture sound information input via the microphone 58.
  The sound change detection unit 62 is connected to the system bus 32.TheThe sound information is taken in via the sound level, and the volume level is extracted from the taken sound information and held (S4 in FIG. 16).
  When the volume level is held in this manner, the control unit 60 repeatedly instructs the disk drive 36 to capture moving image information until a recording stop is recognized as will be described later, and the sound determination unit. 56 is repeatedly instructed to capture sound information.
[0074]
Each time the disk drive 36 is instructed in this way, it captures moving image information in units of frames and records the captured moving image information on the magnetic disk 48 as the same image file (S5 in FIG. 16).
On the other hand, the sound change detecting unit 62 extracts sound volume by taking in sound information, and obtains a change amount with respect to the previously extracted (held) volume level (S6 in FIG. 16). Further, the sound change detection unit 62 determines whether or not the amount of change in the volume level thus obtained exceeds a predetermined threshold value (S7 in FIG. 16).
[0075]
Only when it is recognized that the amount of change in the sound volume level exceeds a predetermined threshold by such determination (YES side in FIG. 16 S7), the control unit 60 stores the value of the frame counter in the memory 44 in advance. Store in the determined area (S8 in FIG. 16).
In addition, the control unit 60 updates the value of the frame counter (S9 in FIG. 16), and determines whether or not an external operation to the “stop button” is accepted via the touch panel 42 (S10 in FIG. 16).
[0076]
When the stop of recording is recognized by such determination, the disk drive 36 records the value of the frame counter stored in the memory 44 in the header portion of the image file (S11 in FIG. 16).
As described above, in the present embodiment, the moving image information can be segmented when the change amount of the volume level of the sound information exceeds a predetermined threshold.
[0077]
Therefore, when the sound volume level changes suddenly with a change in the scene such as a play sound effect, the moving image information can be automatically separated at the change of the scene.
In the present embodiment, the moving image information delimiter is specified based on the amount of change in the volume level of the sound information. However, the amount of change that should be used as a reference when specifying the delimiter of the moving image information is as follows. Any change amount may be used as long as the change in information characteristics is quantitatively indicated.
[0078]
(Fifth embodiment)
  FIG. 17 shows claims 1 and6It is a functional block diagram of embodiment corresponding to invention described in (2).
  In the figure, the function is shown in FIG.2Components that are the same as those in the functional block diagram of the embodiment corresponding to the invention described in FIG.
[0079]
  The configuration of the present embodiment and claim 1 and29 is different from the embodiment corresponding to the embodiment described in FIG. 9 in that a control unit 64 and a timer 66 are provided instead of the control unit 30 and the image determination unit 46 shown in FIG. 64 is provided with a date and time determination unit 68 connected to 64.
  Further, regarding the correspondence relationship between the principle block diagram shown in FIG. 4 and the present embodiment, the image input means 10 corresponds to the imaging unit 34, the delimiter specifying means 12 corresponds to the date / time determination unit 68, and the information addition means 14 Corresponding to the memory 44 and the disk drive 36, the time measuring means 20 corresponds to the timer 66.
[0080]
  FIG. 18 shows claims 1 and6It is an operation | movement flowchart of embodiment corresponding to invention described in (1).
  Hereinafter, with reference to FIG. 17 and FIG.6The operation of the embodiment will be described corresponding to the invention described in the above.
  The control unit 64 includes:2In the state where the operation screen is displayed as in the embodiment corresponding to the invention described in (1), it is determined whether or not an external operation to the “record button” has been accepted via the touch panel 42 (S1 in FIG. 18).
[0081]
  In addition, when the control unit 64 recognizes that the recording is requested by such determination (YES side in FIG. 18), the control unit 642The frame counter is initialized as in the embodiment corresponding to the invention described in (1) (S2 in FIG. 18).
  Further, the control unit 64 repeatedly instructs the disk drive 36 to capture the moving image information generated by the imaging unit 34 until the recording stop is recognized as will be described later. In the disk drive 36, moving image information is taken in frame units via the system bus 32 and recorded as an image file on the magnetic disk 48 (S3 in FIG. 18).
[0082]
In parallel with the recording of the moving image information performed in this way, the date / time determination unit 68 determines whether the date / time counted by the timer 66 matches the date / time registered in advance (S4 in FIG. 18).
[0083]
Only when the date and time counted by the timer 66 coincides with the date and time registered in advance by such determination (YES side in FIG. 18 S4), the control unit 64 determines the value of the frame counter in the memory 44 in advance. The stored area is stored (S5 in FIG. 18).
Further, the control unit 64 updates the value of the frame counter (S6 in FIG. 18), and determines whether or not an external operation to the “stop button” is accepted via the touch panel 42 (S7 in FIG. 18).
[0084]
When the stop of recording is recognized by such determination, the disk drive 36 records the value of the frame counter stored in the memory 44 in the header portion of the image file (S8 in FIG. 18).
Thus, in this embodiment, moving image information can be divided at a predetermined date and time.
[0085]
  Therefore, when shooting a concert or the like that progresses according to a predetermined time schedule, it is possible to set a transition between scenes as a segment of moving image information simply by setting the date and time based on the time schedule. .
(Sixth embodiment)
  FIG.First reference exampleCorresponded tootherIt is a functional block diagram of an embodiment.
[0086]
  In the figure, the function is shown in FIG.First reference exampleThose that are the same as the functional block diagram of the embodiment corresponding to are given the same reference numerals.
  The configuration of the present embodiment andFirst reference exampleThe difference from the embodiment corresponding to is that a control unit 70 and a timing determination unit 72 are provided instead of the control unit 50 and the luminance change detection unit 52 shown in FIG.
[0087]
2, the image input unit 10 corresponds to the imaging unit 34, the delimiter specifying unit 12 corresponds to the timing determination unit 72, and the file dividing unit 16 corresponds to the principle block diagram illustrated in FIG. This corresponds to the function of dividing the image file of the control unit 70, the disk drive 36, and the memory 44.
[0088]
  FIG.First reference exampleCorresponded tootherIt is an operation | movement flowchart of embodiment.
  Hereinafter, referring to FIG. 19 and FIG.First reference exampleIn response tothisThe operation of the embodiment will be described.
  The control unit 70First reference exampleIn the state where the operation screen is displayed as in the embodiment corresponding to the above, it is determined whether or not an external operation to the “recording button” is accepted via the touch panel 42 (S1 in FIG. 20).
[0089]
Further, when the control unit 70 recognizes that the recording is requested by such determination (YES side in FIG. 20S1), the control unit 70 instructs the disk drive 36 to generate the image file (S2 in FIG. 20). When instructed in this way, the disk drive 36 secures an image file area on the magnetic disk 48.
Further, the control unit 70 repeatedly instructs the disk drive 36 to capture moving image information generated by the imaging unit 34 until the stop of recording is recognized as will be described later. In the disk drive 36, moving image information is taken in frame units and recorded as an image file on the magnetic disk 48 (S3 in FIG. 20).
[0090]
In parallel with the recording of moving image information performed in this way, the timing determination unit 72 determines whether or not a predetermined time has elapsed (S4 in FIG. 20).
The control unit 70 instructs the disk drive 36 to close the image file and generate a new image file at a predetermined timing based on such determination (S5 in FIG. 20).
[0091]
In the disk drive 36, when instructed in this way, the image file in which the preceding moving image information is recorded is closed, and a new image file area is secured. At this time, the contents of the header portion common to all the image files, information indicating the link between the image files, and the like are recorded in the memory 44.
[0092]
The control unit 70 determines whether or not an external operation to the “stop button” is accepted via the touch panel 42 (S6 in FIG. 20).
When the stop of recording is recognized by such determination, the image file is closed in the disk drive 36 (S7 in FIG. 20).
Thus, in the present embodiment, the image file can be divided at predetermined timings.
[0093]
In other words, when a lecture where a lecture is given at regular intervals by multiple speakers is taken, an image file for each speaker can be automatically generated without processing such as image recognition. .
In each of the above-described embodiments, the division of the image file is specified based on the moving image information generated by the imaging unit 34 in the process of forming the image file. It is possible to specify the break of an existing image file by providing a function for importing.
[0094]
  In the embodiment described above, the claims2, 4Or6And claim 1 associated with claim 1 and claims3Or7InFirst reference exampleHowever, the present invention is not limited to such an association, and2Or7The invention described in claim 1 and claim 1First reference exampleIt may be carried out in association with the invention described in any of the above.
[0095]
Further, among the above-described embodiments, in the embodiment corresponding to the invention described in claim 1, the value of the frame counter is recorded in the header portion of the image file to indicate the separation of the image file. Like the cueing signal, a predetermined identification code may be added in association with moving image information.
In the embodiment corresponding to the first aspect of the present invention described above, the frame counter value is recorded as a delimiter of the image file, but the address of the magnetic disk may be recorded.
[0096]
  Further, of the above-described embodiments,First reference exampleIn the embodiment corresponding to the invention described in (1), a new image file is generated every time a scene change is identified, and the image file is divided. After one image file is completed, the image files may be divided all at once.
[0097]
  In this way, when an image file is divided after a single image file is completed, the degree of freedom in editing processing is improved by providing a function that allows selection of a scene to be divided. Is possible.
(Seventh embodiment)
  FIG. 21 claims8~9It is a functional block diagram of embodiment corresponding to invention described in (2).
[0098]
In the figure, a control unit 80 is connected to a disk drive 84, a display processing unit 86, a monitor 88, a touch panel 90 and a memory 92 via a system bus 82. The disk drive 84 is loaded with a magnetic disk 96.
It is assumed that the magnetic disk 96 is preliminarily written with an index made up of the address of each image file and the like together with a plurality of image files composed of moving image information and a header portion.
[0099]
  The header portion of each image file includes claims 1 and2The number of frames in which the color of the moving image information exhibits a predetermined characteristic (hereinafter referred to as “bookmark position”) is the position on the image file indicated by the number of frames. Is recorded).
  Further, regarding the correspondence relationship between the principle block diagrams shown in FIGS. 5 to 8 and this embodiment, the image input means 10 corresponds to the playback function of the disk drive 84, and the information addition means 14 corresponds to the memory 92 and the disk drive 84. Corresponding to the recording function, the file dividing unit 16 corresponds to the function of dividing the image file of the control unit 80, the delimiter specifying unit 12, the selecting unit 22, and the delimiter instructing unit 26 correspond to the display processing unit 86 and the touch panel 90, The display means 28 corresponds to the monitor 88.
[0100]
22 to 28 are diagrams showing display examples of the monitor 88. FIG.
In the figure, a thumbnail display button 100, a bookmark display button 102, a bookmark addition button 104, a bookmark deletion button 106, a file division button 108, a skip button 110, a play button 112, a pause button 114, and the like indicate operation buttons and are rectangular. Surrounded “thumbnail A”, “thumbnail B”, and the like indicate a state in which thumbnail images are displayed.
[0101]
  Note that a thumbnail image surrounded by a double line or highlight indicates that it is a processing target such as playback.
  Hereinafter, with reference to FIGS.8Or claims9The operation of the embodiment corresponding to the invention described in 1 will be described. When the control unit 80 presents to the operator that an external operation is possible, the control unit 80 requests the display processing unit 86 and the monitor 88 to generate and display an operation screen as shown in FIG.
[0102]
When requested in this way, the display processing unit 86 generates image information for operation buttons other than the bookmark addition button 104, bookmark deletion button 106, and file division button 106 among the operation buttons described above, and displays them on the monitor 88. give.
On the monitor 88, the image information for the operation buttons given in this way is displayed as an operation screen (FIG. 22).
[0103]
When the operation buttons are displayed on the monitor 88, the control unit 80 constantly monitors whether or not an external operation has been performed on each operation button via the touch panel 90. If the control unit 80 recognizes that the thumbnail display button 100 has been externally operated as a result of such monitoring, thumbnail images corresponding to the image files shown in FIG. 23 (here, “thumbnail A”) are displayed. ”,“ Thumbnail B ”,“ Thumbnail C ”, and“ Thumbnail D ”) are requested to the disk drive 84, the display processing unit 86, and the monitor 88.
[0104]
When requested, the disk drive 84 reads the above-mentioned index from the magnetic disk 96 and stores it in the memory 92.
When the index is stored in the memory 92 in this way, the control unit 80 extracts the address of the moving image information at the head of each image file and notifies the disk drive 84 of it. The disk drive 84 sequentially reads out moving image information corresponding to the first frame of each image file based on the address notified by the control unit 80, and provides it to the display processing unit 86.
[0105]
In addition, the disk drive 84 reads the moving image information and reads the header portion of each image file. The contents of the read header portion are stored in the memory 92, and when the reproduction is completed, the header portion of each image file in the magnetic disk 96 is overwritten by the disk drive 36.
The control unit 80 refers to the contents of the header part stored in the memory 92 and notifies the display processing unit 86 of the presence / absence of the “bookmark position” for each image file.
[0106]
In the display processing unit 86, when moving image information corresponding to the first frame of each image file is given by the disk drive 84, image information for a thumbnail image is generated.
In the process of generating the image information for the thumbnail image in this way, the thumbnail image (corresponding to “thumbnail A” here) of the image file where the “bookmark position” exists indicates “bookmark”. An image is added. In addition, a thumbnail image displayed in the upper left (here, corresponding to “thumbnail A”) is displayed surrounded by a double line or a highlight as an initial state.
[0107]
When the image information for the thumbnail image is generated in this manner, the display processing unit 86 superimposes the image information for the operation button described above and gives it to the monitor 88.
On the monitor 88, thumbnail images are displayed based on the image information superimposed in this way (FIG. 23).
Therefore, the presence / absence of the “bookmark position” can be reliably displayed for each image file.
[0108]
When the control unit 80 recognizes that the bookmark display button 102 is externally operated in such a display state, the thumbnail image of “bookmark position” as shown in FIG. , “Thumbnail A1”, “Thumbnail A2”, “Thumbnail A3”, and “Thumbnail A4”) are requested to the disk drive 84, the display processing unit 86, and the monitor 88.
[0109]
Prior to such a request, the control unit 80 extracts the “bookmark position” from the header portion of the image file stored in advance in the memory 92 and notifies the disk drive 84 of it.
The disk drive 84 sequentially reads out the moving image information corresponding to the frame indicated by the “bookmark position” notified from the control unit 80, and provides it to the display processing unit 86.
[0110]
The display processing unit 86 generates image information for thumbnail images from the moving image information given in this way. In addition, the display processing unit 86 generates image information for operation buttons including the bookmark addition button 104, the bookmark deletion button 106, and the file division button 106, and supplies the information to the monitor 88 in a superimposed manner with the image information for thumbnail images.
[0111]
On the monitor 88, a thumbnail image of “bookmark position” is displayed based on the image information superimposed in this way (FIG. 24).
FIG. 24 shows that “thumbnail A1” surrounded by a double line or highlight is the processing target. When the skip button 110 is externally operated in such a display state, the control unit 80 recognizes that it has been requested to change the thumbnail image to be processed to “thumbnail A2”. This is notified to the display processing unit 86.
[0112]
When notified in this way, the display processing unit 86 generates image information in which “thumbnail A2” is surrounded by a double line or highlight instead of “thumbnail A1” and is displayed on the monitor 88.
When the control unit 80 recognizes that the playback button 112 has been externally operated in a state where the thumbnail image of “bookmark position” is displayed, the thumbnail image surrounded by a double line or highlight (here, “thumbnail” A value of “bookmark position” corresponding to “A2”) is notified to the disk drive 84, and the disk drive 84 is requested to read moving image information.
[0113]
When requested in this way, the disk drive 84 reads the moving image information in units of frames from the notified “bookmark position”.
The moving image information read out in this way is displayed as “reproduced image” in the area of “thumbnail A2” as shown in FIG. Note that the number of frames of moving image information to be read is set in the frame counter and managed by the control unit 80.
[0114]
When the control unit 80 recognizes that the pause button 114 is externally operated in the state where the reading is performed in this way, the control unit 80 temporarily stops the reading performed by the disk drive 84.
In addition, when the control unit 80 recognizes that the bookmark addition button 104 is externally operated in a state where reproduction is paused, the value of the frame counter is set as “bookmark position” in the content of the header portion stored in the memory 92. Add
[0115]
Therefore, it is possible to add the “bookmark position” while confirming the moving image information from the reproduced image.
When the “bookmark position” is added in this way, the moving image information of the new “bookmark position” may be displayed on the monitor 88 as “thumbnail A2-2” as shown in FIG. .
[0116]
As shown in FIG. 27, when the controller 80 recognizes that the bookmark delete button 106 is externally operated in a state where the skip button 110 is externally operated and “thumbnail A4” is selected as a processing target, The “bookmark position” corresponding to “thumbnail A4” is deleted from the contents of the header part stored in 92.
Therefore, only a desired “bookmark position” can be selected by deleting an unnecessary “bookmark position”.
[0117]
If the “bookmark position” is deleted in this way, the display of “thumbnail A4” may be deleted as shown in FIG.
When the control unit 80 recognizes that the file division button 108 is externally operated while the thumbnail image at “bookmark position” is displayed, the control unit 80 requests the disk drive 84 to divide the image file. Prior to such a request, the control unit 80 appropriately copies the contents of the header part in the memory 92 and changes the contents to correspond to each “bookmark position”. An address corresponding to “bookmark position” is added.
[0118]
When the disk drive 84 is requested to divide the image file, the contents of the header portion corresponding to each “bookmark position” are fetched from the memory 92 and a new image file is added together with moving image information in units delimited by the “bookmark position”. Is recorded on the magnetic disk 96.
That is, the image file is divided at the “bookmark position” displayed as a thumbnail image.
[0119]
As described above, in the present embodiment, the above-described graphic user interface can specify the “bookmark position” that is flexibly applied to the operator's will while maintaining high operability. The image file can be reliably divided.
[0120]
In this embodiment, when the bookmark delete button 106 is externally operated, it is recognized as a request to delete the “bookmark position”. However, for example, when the external operation is performed at the stage of image file division, the division is performed. It may be recognized that a “bookmark position” that is not the target of the designation is designated.
[0121]
【The invention's effect】
  As described above, in the invention according to claim 1, the operator simply sets a condition adapted to a desired scene, and the position of moving image information that satisfies the condition is extracted.Enables editing operations based on the extracted position for moving image information parts before and after the extracted positionSince it is obtained as a segment of moving image information, it is possible to specify a segment of moving image information without sequentially confirming the moving image information, and it is possible to start editing processing and the like quickly.
[0122]
  In addition, since information indicating the delimiter of the moving image information is added to the image file, it is possible to repeatedly refer to the delimiter during the editing process..
[0123]
Claim2In the invention described in (4), as long as the characteristics of the color information are set in advance, a scene showing the characteristics can be automatically set as a segment of the moving image information.
[0124]
  Claim3In the invention described in the above, since it is possible to recognize the change of the scene by determining whether or not the change amount of the color information exceeds a predetermined threshold value, the change of the scene can be automatically set as a segment of the moving image information. it can.
  Claim4In the invention described in the above, when voice or sound having a predetermined characteristic according to a change in moving image information is inserted, the moving image information is easily separated without accompanying a process such as image recognition. Can be identified.
[0125]
  Claim5In the invention described in (4), when the sound information changes in accordance with the change of the moving image information, it is possible to easily specify the break of the moving image information without accompanying a process such as image recognition.
  Claim6In the invention described in (2), when moving image information is generated based on a predetermined time schedule, a scene change is defined as a segment of moving image information simply by setting the date and time on the time schedule. It is possible.
[0126]
  Claim7In the invention described in the above, with respect to image information in which scenes are switched at regular intervals, it is possible to make a transition between scenes as moving image information delimiters without performing processing such as image recognition.
  Claim8In the invention described inFrom the separator information automatically extracted,Only the necessary breaks can be specified with the intention of the operator being surely reflected. In addition, since only the information indicating the delimiter reflecting the operator's will is added to the image file, it is not necessary to select a delimiter again during the editing process, and it is possible to reliably reduce the time required for the editing process. Become.
[0127]
Therefore, the claims8In the invention described in claim 1,InCompared to the described invention, the degree of freedom in specifying the segmentation of moving image information is reliably improved.
[0128]
  Claim9In the invention described in (1), it is possible to quickly discriminate an image file in which a break exists, and therefore it is possible to quickly perform an editing process or the like.
[Brief description of the drawings]
BRIEF DESCRIPTION OF THE DRAWINGS2,3and7It is a principle block diagram of the invention described in.
[Figure 2]Regarding the first reference exampleIt is a principle block diagram.
FIG. 3 Claim4and5It is a principle block diagram of the invention described in.
FIG. 46It is a principle block diagram of the invention described in.
FIG. 58It is a principle block diagram of the invention described in.
[Fig. 6]Regarding the second reference exampleIt is a principle block diagram.
[Fig. 7]Regarding the third reference exampleIt is a principle block diagram.
FIG. 89It is a principle block diagram of the invention described in.
FIG. 9 and claims 1 and2It is a functional block diagram of embodiment corresponding to invention described in (2).
10 and 10.2It is an operation | movement flowchart of embodiment corresponding to invention described in (1).
FIG. 11First reference exampleIt is a functional block diagram of an embodiment corresponding to.
FIG.First reference exampleIt is an operation | movement flowchart of embodiment corresponding to.
FIG. 13 and claims 1 and4It is a functional block diagram of embodiment corresponding to invention described in (2).
FIG. 14 and claims 1 and4It is an operation | movement flowchart of embodiment corresponding to invention described in (1).
FIG. 15 and claims 1 and5It is a functional block diagram of embodiment corresponding to invention described in (2).
FIG. 16 and claims 1 and5It is an operation | movement flowchart of embodiment corresponding to invention described in (1).
FIG. 17 and claims 1 and6It is a functional block diagram of embodiment corresponding to invention described in (2).
FIG. 18 and claims 1 and6It is an operation | movement flowchart of embodiment corresponding to invention described in (1).
FIG. 19First reference exampleCorresponded tootherIt is a functional block diagram of an embodiment.
FIG. 20First reference exampleCorresponded tootherIt is an operation | movement flowchart of embodiment.
FIG. 21.8~9It is a functional block diagram of embodiment corresponding to invention of description.
FIG. 22 is a diagram (1) illustrating a display example of a monitor.
FIG. 23 is a diagram (2) illustrating a display example of the monitor.
FIG. 24 is a diagram (3) illustrating a display example of a monitor;
FIG. 25 is a diagram (4) illustrating a display example of the monitor;
FIG. 26 is a diagram (5) illustrating a display example of the monitor;
FIG. 27 is a diagram (6) illustrating a display example of the monitor;
FIG. 28 is a diagram (7) illustrating a display example of the monitor;

Claims (9)

Image input means for externally importing one image file consisting of moving image information;
For the moving image information in the image file captured by the image input means, the position of the moving image information satisfying a predetermined condition is extracted, and the moving image information before and after the extracted position is extracted . Delimiter specifying means for specifying as a “delimiter of the moving image information” that enables an editing operation based on the position for the part ;
An image processing apparatus comprising: information adding means for adding information indicating the position specified by the delimiter specifying means to the image file. The image processing apparatus according to claim 1.
The delimiter specifying means is:
An image processing apparatus, wherein color information expressing color or brightness is extracted from the moving image information, and the separation is specified on the condition that the color information shows a predetermined characteristic. The image processing apparatus according to claim 1.
The delimiter specifying means is:
Sequentially extracting color information expressing color or brightness from the moving image information to detect a change amount of the color information, and specifying the break on the condition that the change amount exceeds a predetermined threshold value. An image processing apparatus. The image processing apparatus according to claim 1.
Provided with sound input means for capturing sound information indicating sound or sound from the outside
The delimiter specifying means is:
An image processing apparatus, wherein a time point at which sound information taken in via the sound input means exhibits a predetermined characteristic is detected, and the time point is set as the break. The image processing apparatus according to claim 1.
Provided with sound input means for capturing sound information indicating sound or sound from the outside
The delimiter specifying means is:
An image processing apparatus characterized in that a change amount of sound information taken in via the sound input means is measured, and a point in time when the change amount exceeds a predetermined threshold is set as the delimiter. The image processing apparatus according to claim 1.
It has a timekeeping means to keep time
The delimiter specifying means is:
The image processing apparatus characterized in that a point in time when the date and time counted by the timing unit coincides with a predetermined date and time is defined as the separator. The image processing apparatus according to claim 1.
The delimiter specifying means is:
An image processing apparatus characterized in that the delimiter is specified every time a predetermined time elapses. The image processing apparatus according to claim 1.
The information adding means includes
Based on a selection operation given from the outside, comprising: a selecting means for selecting any of the “moving image information breaks” extracted by the break specifying means,
An image processing apparatus characterized in that information indicating a delimiter selected by the selection means is added to the image file. The image processing apparatus according to claim 1, further comprising display means for displaying on a monitor whether or not the moving image information is separated.

Images