WO2016092647A1 - Moving image editing device, moving image editing method and program - Google Patents

Moving image editing device, moving image editing method and program Download PDF

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Publication number
WO2016092647A1
WO2016092647A1 PCT/JP2014/082666 JP2014082666W WO2016092647A1 WO 2016092647 A1 WO2016092647 A1 WO 2016092647A1 JP 2014082666 W JP2014082666 W JP 2014082666W WO 2016092647 A1 WO2016092647 A1 WO 2016092647A1
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moving image
image data
editing
converted
color
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PCT/JP2014/082666
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French (fr)
Japanese (ja)
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吉克 伊達
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株式会社Nhkエンタープライズ
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Publication of WO2016092647A1 publication Critical patent/WO2016092647A1/en

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N21/00Selective content distribution, e.g. interactive television or video on demand [VOD]
    • H04N21/40Client devices specifically adapted for the reception of or interaction with content, e.g. set-top-box [STB]; Operations thereof
    • H04N21/43Processing of content or additional data, e.g. demultiplexing additional data from a digital video stream; Elementary client operations, e.g. monitoring of home network or synchronising decoder's clock; Client middleware
    • H04N21/431Generation of visual interfaces for content selection or interaction; Content or additional data rendering
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N21/00Selective content distribution, e.g. interactive television or video on demand [VOD]
    • H04N21/80Generation or processing of content or additional data by content creator independently of the distribution process; Content per se
    • H04N21/85Assembly of content; Generation of multimedia applications
    • H04N21/854Content authoring

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  • the present invention relates to a moving image editing apparatus, a moving image editing method, and a program, and in particular, a converted moving image converted by a conversion device that converts editing target moving image data having a first resolution into converted moving image data having a resolution lower than the first resolution.
  • the present invention relates to a moving image editing apparatus, a moving image editing method, and a program for editing editing target moving image data.
  • a moving image file captured with 4K2K pixels can express the captured scene more precisely than a moving image file captured with HD pixels, but the file size is large, and the editing process is very large. There is a problem that it takes time.
  • Patent Document 1 As a technology to reduce the processing load of video editing, video editing work is performed using the created thumbnails, and then the video that is reflected in the original video captured by the editing work content An editing apparatus has been proposed (Patent Document 1).
  • the editing operation is not a moving image frame with a large amount of high-resolution and high-quality data, but a data amount whose size is reduced by resolution conversion (pixel number conversion) based on the frame. This is done using fewer thumbnails. Therefore, the processing load for editing can be reduced.
  • the moving image file captured in the 4K2K size has a higher definition and the reproducibility of the color of the captured scene than the moving image file captured in the HD size.
  • the file size of a moving image file captured in 4K2K size is reduced by the technique of Patent Document 1, the data amount is reduced and the adjustment range is narrowed, so that the color of the captured scene is reproduced. The degree of freedom for this is lost.
  • the present invention provides a moving image editing apparatus, a moving image editing method, and a program capable of reducing the editing time of a moving image file captured in 4K2K size and maintaining the degree of freedom for reproducing the color of the captured scene. Objective.
  • a time information correlating means for associating the editing target video data with usage time information indicating a time zone to be used among all playback times in the converted video data
  • a moving image editing apparatus comprising: color information association means for associating color information related to colors by color grading performed only in a time zone indicated by the usage time information with the editing target moving image data.
  • the moving image editing apparatus converts the editing target moving image data having the first resolution (for example, 4K2K size) into converted moving image data having a resolution (for example, HD size) lower than the first resolution. Editing moving image data is edited using the converted moving image data converted by the converting device.
  • the moving image editing apparatus includes time information association means and color information association means.
  • the time information association means associates the usage time information indicating the time zone (scale) to be used, among the total reproduction times in the converted video data, with the editing target video data.
  • the color information associating means associates color information relating to colors by color grading performed only in the time zone indicated by the usage time information in the editing target moving image data with the editing target moving image data.
  • the converted moving image data with a low resolution for example, HD size
  • a low resolution for example, HD size
  • a time zone scale
  • color grading can be performed only in the selected time zone in the editing target moving image data (for example, 4K2K size). Therefore, by making it possible to perform color grading on the video data to be edited, the degree of freedom for reproducing the color of the captured scene can be maintained, and color grading can be performed only in the selected time zone. As a result, the time required for color grading can be reduced as compared with the case where color grading is performed on the entire moving image data to be edited.
  • the video editing device further includes database construction means.
  • the database construction means constructs a moving image database in which identification information for identifying the editing target moving image data is associated with the editing target moving image data, and the same identification information as the identification information associated with the editing target moving image data in the moving image database Is associated with the converted moving image data converted from the editing target moving image data.
  • the editing target moving image data and the converted moving image data converted from the editing target moving image data can be managed with the same identification information. Therefore, for example, it is possible to prevent the usage time information of certain converted moving image data from being associated with editing target moving image data different from the editing target moving image data that is the conversion source of the converted moving image data. The accuracy of editing work can be improved.
  • the identification information is a file name given by the video camera or the like that generated the editing target moving image data
  • the same file name may be assigned to different editing target moving image data.
  • it is converted from one editing target moving image data and the editing target moving image data by including a randomly determined character string in the identification information. Converted video data can be specified. Therefore, the accuracy of editing work using the moving image database can be further improved.
  • a moving image editing method including a step of associating color information related to colors by color grading performed only in a time zone indicated by the usage time information among the moving image data with a color information association step associated with the editing target moving image data.
  • the present invention it is possible to provide a moving image editing apparatus, a moving image editing method, and a program capable of reducing the editing time of a moving image file captured in 4K2K size and maintaining the degree of freedom for reproducing the color of the captured scene. .
  • FIG. 1 is a diagram showing an outline of a moving image editing system 1 including a moving image editing apparatus 10 according to an embodiment of the present invention.
  • FIG. 2 is a diagram for explaining editing of editing target moving image data by the moving image editing system 1 shown in FIG.
  • FIG. 3 is a diagram illustrating a functional configuration of the moving image editing apparatus 10 according to the present embodiment.
  • FIG. 4 is a diagram for explaining a pipeline by the moving image editing system 1 shown in FIG.
  • FIG. 1 is a diagram showing an outline of a moving image editing system 1 including a moving image editing apparatus 10 according to an embodiment of the present invention.
  • FIG. 2 is a diagram for explaining editing of editing target moving image data by the moving image editing system 1 shown in FIG.
  • the moving image editing system 1 includes a moving image editing device 10, a conversion device 20, and an offline editing device 30, and edit target moving image data having a first resolution (for example, 4K2K size).
  • the editing target moving image data is edited using the converted moving image data converted by the conversion device 20 that converts the converted moving image data to a lower resolution (for example, HD size) than the first resolution.
  • the moving image editing apparatus 10 receives 4K2K-size editing target moving image data from the outside (for example, a video camera or a medium for storing a moving image file captured by the video camera) and the file name (in the example shown in FIG. AAA ”). Then, the moving image editing apparatus 10 constructs the moving image database 100 by associating the acquired editing target moving image data with identification information for identifying the editing target moving image data. In the present embodiment, the moving image editing apparatus 10 adds a character string (“random character string 1” in the example shown in FIG. 2) randomly extracted to the file name of the captured editing target moving image data. To generate.
  • a character string (“random character string 1” in the example shown in FIG. 2) randomly extracted to the file name of the captured editing target moving image data.
  • the conversion device 20 converts the 4K2K size editing target moving image data captured by the moving image editing device 10 into HD (High Definition) moving image data. Then, the moving image editing device 10 associates the converted moving image data converted by the conversion device 20 with the same identification information as the editing target moving image data of the conversion source in the moving image database 100.
  • the off-line editing device 30 applies to the converted moving image data converted by the converting device 20 based on the user's operation, the moving image data after being edited by the moving image editing system 1 (hereinafter also referred to as “edited moving image data”). )) To select the time zone (scale) to be used. Further, the offline editing device 30 uses the usage time information indicating the selected time zone (in the example shown in FIG. 2, the IN information and OUT indicated by the elapsed time from the start of reproduction) in the identification information of the converted moving image data that has been edited. Information) in association with each other. Then, the moving image editing apparatus 10 associates the usage time information output from the offline editing apparatus 30 with the identification information associated with the usage time information in the moving image database 100.
  • the conversion device 20 applies to the editing target moving image data (hereinafter, also referred to as “edited scale moving image data”) edited to the scale of the time zone indicated by the usage time information out of the total reproduction time of the editing target moving image data. Then, color grading is performed based on the user's operation, and edited moving image data is generated.
  • “color grading” is to adjust the saturation, brightness, hue, contrast, etc. of the image in the moving image data to be edited.
  • the present invention is not limited to this. You may apply the filter effect which adds a special effect.
  • the conversion device 20 outputs the color information related to the color by the color grading performed on the editing target moving image data in association with the identification information of the editing target moving image data subjected to the color grading.
  • the moving image editing apparatus 10 associates the color information output from the conversion apparatus 20 with the identification information associated with the color information in the moving image database 100.
  • the moving image editing apparatus 10 associates the edited moving image data generated by the conversion device 20 with the identification information of the editing target moving image data that is the editing source of the edited moving image data.
  • the conversion device 20 may generate color information including the date and time when color grading was performed.
  • the moving image editing apparatus 10 may associate a plurality of pieces of color information with one piece of identification information in the moving image database 100. Thereby, for example, when color grading is frequently performed, the result of color grading performed at a certain date and time can be easily reproduced.
  • one computer that controls the moving image editing system 1 is caused to function as the moving image editing device 10, the conversion device 20, and the offline editing device 30 by a program.
  • the present invention is not limited to this, and the moving image editing system 1 may be configured by a computer that controls the moving image editing device 10, a computer that controls the conversion device 20, and a computer that controls the offline editing device 30.
  • FIG. 3 is a diagram illustrating a functional configuration of the moving image editing apparatus 10 according to the present embodiment.
  • the moving image editing apparatus 10 includes an ingest unit 11, a database construction unit 12, a time information association unit 13, and a color information association unit 14.
  • the ingest unit 11 captures 4K2K size editing target moving image data in association with the file name from the outside (for example, a video camera or a medium for storing a moving image file captured by the video camera).
  • the database construction unit 12 constructs the moving image database 100 in which the editing target moving image data captured by the ingest unit 11 is associated with identification information for identifying the editing target moving image data. Specifically, the database construction unit 12 generates the identification information by adding the character string determined at random to the file name of the editing target moving image data captured by the ingest unit 11. Further, the database construction unit 12 associates the converted moving image data converted from the editing target moving image data by the converting device 20 with the same identification information as the identification information associated with the editing target moving image data in the moving image database 100.
  • the time information association means 13 receives usage time information indicating the time zone (scale) to be used among all the playback times in the converted video data output from the offline editing device 30. Then, the time information association unit 13 uses the identification information associated with the usage time information in the video database 100 (the converted video data edited in the offline editing device 30) as the usage time information received from the offline editing device 30. That is, the identification information of the editing target moving image data that is the conversion source of the converted moving image data).
  • the color information association means 14 accepts color information related to colors by color grading performed only in the time zone indicated by the usage time information in the editing target moving image data output from the conversion device 20. Specifically, the color information associating unit 14 performs color grading performed on the edited scale moving image data edited to the time scale indicated by the usage time information out of the total reproduction time of the editing target moving image data. Accept color information about.
  • the time information association unit 13 uses the identification information associated with the usage time information in the video database 100 (the converted video data edited in the offline editing device 30) as the usage time information received from the offline editing device 30. That is, the identification information of the editing target moving image data that is the conversion source of the converted moving image data).
  • the color information association unit 14 converts the color information received from the conversion device 20 into the identification information associated with the color information in the moving image database 100 (the editing target moving image data subjected to color grading in the conversion device 20). (Identification information).
  • the moving image database 100 includes editing target moving image data (4K2K size) captured by the ingesting unit 11 in the identification information generated by the database building unit 12, converted moving image data (HD size) converted by the converting device 20, and an offline editing device.
  • the usage time information output from 30 and the color information output from the conversion device 20 are associated with each other.
  • the identification information is associated with meta information and format information of editing target moving image data and converted moving image data, date and time information indicating the date and time associated with usage time information and color information, and the like.
  • each function processing means a CPU (Central Processing Unit) built in the computer device reads a computer program stored in a storage device such as ROM (Read Only Memory) or RAID (Redundant Arrays of Inexpensive Disks), and the CPU It is realized by a computer program executed by That is, each function processing unit reads and writes necessary data such as a table from a database (DB; Data Base) stored in a storage device or a storage area on a memory, and related hardware (for example, It is realized by controlling an input / output device such as a color grading control panel operated by a user, a display device such as a display, and a communication interface device.
  • the database (DB) in the embodiment of the present invention may be a commercial database, but it simply means a collection of tables and files, and the internal structure of the database
  • FIG. 4 is a diagram for explaining a pipeline by the moving image editing system 1 shown in FIG.
  • the process surrounded by a solid line indicates that the process is performed by the moving image editing apparatus 10
  • the process surrounded by a dotted line indicates that the process is performed by the conversion apparatus 20 or the offline editing apparatus 30.
  • the ingest unit 11 of the video editing apparatus 10 takes in 4K2K size editing target video data from the outside in association with the file name. Specifically, the ingest means 11 performs the verification (error check on the editing target moving image data), and the editing target moving image data is stored in the storage device from the video camera or a medium storing the moving image file captured by the video camera. make a copy.
  • the database construction unit 12 of the video editing device 10 associates the editing target video data captured by the ingest unit 11 in step S1 with identification information for identifying the editing target video data.
  • the moving image database 100 is constructed.
  • the moving image editing apparatus 10 outputs the captured editing target moving image data to the conversion apparatus 20.
  • the conversion device 20 converts the 4K2K-size editing target moving image data captured by the moving image editing device 10 into HD-sized converted moving image data. Further, the conversion device 20 outputs the converted moving image data to the moving image editing device 10.
  • the database construction unit 12 of the video editing device 10 uses the same identification information as the editing-target video data of the conversion source in the video database 100 for the converted video data converted by the conversion device 20. Associate with.
  • the moving image editing apparatus 10 outputs the converted moving image data to the offline editing apparatus 30.
  • the offline editing device 30 uses the edited moving image data out of the total reproduction time based on the user's operation on the converted moving image data converted by the converting device 20 in step S3. Edit to select the band (scale). Then, the offline editing device 30 associates and outputs the usage time information indicating the selected time zone with the identification information of the converted moving image data that has been edited.
  • the time information association unit 13 of the video editing device 10 identifies the usage time information output from the offline editing device 30 in the video database 100 in association with the usage time information. Correspond to the video data to be edited.
  • the moving image editing apparatus 10 outputs the usage time information in association with the identification information of the editing target moving image data as the editing source.
  • the conversion device 20 In the primary color grading process in step S6, the conversion device 20 generates edited scale moving image data based on the usage time information output from the moving image editing device 10, and performs the user operation on the edited scale moving image data. Based on the primary color grading. “Primary color grading” in the present embodiment refers to performing color grading on the entire edited scale moving image data. Further, the conversion device 20 outputs the color information related to the color by color grading in association with the identification information associated with the usage time information output from the moving image editing device 10. Further, the conversion device 20 outputs the edited scale moving image data subjected to color grading as edited moving image data.
  • the color information association unit 14 of the moving image editing apparatus 10 performs color grading performed on the edited scale moving image data output from the conversion apparatus 20 in step S6 or step S13 described later. Accepts color information related to colors. Then, the color information association unit 14 associates the color information received from the conversion device 20 with the editing target moving image data of the identification information associated with the color information in the moving image database 100.
  • the offline editing device 30 receives a plurality of edited video data output from the conversion device 20 in step S6 or step S13 described later based on the user's operation, and A 4K2K timeline in which the edited moving image data is continuous is generated. Further, when the color grading is not performed, the offline editing device 30 generates edited scale moving image data based on the usage time information output from the moving image editing device 10, and a 4K2K time in which a plurality of edited length moving image data is connected. Generate a line.
  • step S11 to step S13 described below is processing when secondary color grading is performed in the conversion device 20.
  • Secondary color grading in the present embodiment refers to performing color grading only on a specific portion of edited scale moving image data.
  • the conversion apparatus 20 When performing secondary color grading, the conversion apparatus 20 generates a 4K file (for example, a DPX file) (step S11), performs secondary color grading on the 4K file based on a user operation (step S12), Movie conversion (for example, conversion from a DPX file to a movie file) is performed.
  • a 4K file for example, a DPX file
  • Movie conversion for example, conversion from a DPX file to a movie file
  • the edited video in the total playback time.
  • a time zone used in the file is selected, and color grading can be performed only in the selected time zone in the editing target moving image data (for example, 4K2K size). Therefore, by making it possible to perform color grading on the video data to be edited, the degree of freedom for reproducing the color of the captured scene can be maintained, and color grading can be performed only in the selected time zone. As a result, the time required for color grading can be reduced as compared with the case where color grading is performed on the entire moving image data to be edited.
  • the editing target moving image data and the converted moving image data converted from the editing target moving image data can be managed with the same identification information. Therefore, for example, it is possible to prevent the usage time information of certain converted moving image data from being associated with editing target moving image data different from the editing target moving image data that is the conversion source of the converted moving image data. The accuracy of editing work can be improved.
  • one editing target moving image data and converted moving image data converted from the editing target moving image data can be specified. Therefore, the accuracy of editing work using the moving image database can be further improved.

Abstract

Provided is a moving image editing device wherein the editing time of moving image files obtained by image captures using 4K2K sizes can be reduced, while the flexibility for reproducing the colors of image-captured scenes can be maintained. A moving image editing device 10 comprises a time information associating means 13 and a color information associating means 14. The time information associating means 13 edits to-be-edited moving image data of a first resolution (4K2K size) by use of converted moving image data of a resolution (HD size) smaller than the first resolution, said converted moving image data being obtained by a conversion device 20 used for converting the to-be-edited moving image data to the converted moving image data. The time information associating means 13 associates, with the to-be-edited moving image data, used-time information indicating a time frame to be used in the entire reproduction time of the converted moving image data. The color information associating means 14 associates, with the to-be-edited moving image data, color information related to colors obtained by a color grading performed in the to-be-edited moving image data only during the time frame indicated by the used-time information.

Description

動画編集装置、動画編集方法及びプログラムMovie editing apparatus, movie editing method and program
 本発明は、動画編集装置、動画編集方法及びプログラムに関し、特に、第1の解像度の編集対象動画データを、第1の解像度より低い解像度の変換動画データに変換する変換装置により変換された変換動画データを用いて、編集対象動画データを編集する動画編集装置、動画編集方法及びプログラムに関する。 The present invention relates to a moving image editing apparatus, a moving image editing method, and a program, and in particular, a converted moving image converted by a conversion device that converts editing target moving image data having a first resolution into converted moving image data having a resolution lower than the first resolution. The present invention relates to a moving image editing apparatus, a moving image editing method, and a program for editing editing target moving image data.
 近年、デジタルカメラやデジタルビデオカメラのような映像を撮像する電子機器において、撮像する際の画素数は、現在普及しているHDサイズ(1920×1080ピクセル)に加え、HDサイズより解像度が高い4K2Kサイズ(3840×2160ピクセル)が普及しつつある。 In recent years, in electronic devices that capture images such as digital cameras and digital video cameras, the number of pixels at the time of capturing is 4K2K, which is higher in resolution than the HD size in addition to the currently popular HD size (1920 × 1080 pixels). Size (3840 × 2160 pixels) is becoming popular.
 4K2Kサイズの画素数で撮像された動画ファイルは、HDサイズの画素数で撮像された動画ファイルに比べ、撮像したシーンをより精細に表現できる一方、ファイルサイズが大きくなり、その編集作業に多大な時間を要すると言う問題がある。 A moving image file captured with 4K2K pixels can express the captured scene more precisely than a moving image file captured with HD pixels, but the file size is large, and the editing process is very large. There is a problem that it takes time.
 このため、例えば、動画編集の処理負荷を軽減する技術として、作成されたサムネイルを使用して動画の編集作業が行われ、その後に、編集作業の内容が取り込んだオリジナルの動画に反映される動画編集装置が提案されている(特許文献1)。 For this reason, for example, as a technology to reduce the processing load of video editing, video editing work is performed using the created thumbnails, and then the video that is reflected in the original video captured by the editing work content An editing apparatus has been proposed (Patent Document 1).
 特許文献1の動画編集装置によれば、編集作業は、高解像度・高画質のデータ量の多い動画フレームではなく、そのフレームを基に解像度変換(画素数変換)によってサイズを縮小したデータ量の少ないサムネイルを使用して行われる。そのため、編集のための処理負荷を軽減させることができる。 According to the moving image editing apparatus of Patent Document 1, the editing operation is not a moving image frame with a large amount of high-resolution and high-quality data, but a data amount whose size is reduced by resolution conversion (pixel number conversion) based on the frame. This is done using fewer thumbnails. Therefore, the processing load for editing can be reduced.
特開2010-199781号公報JP 2010-199781 A
 ところで、4K2Kサイズで撮像された動画ファイルは、HDサイズで撮像された動画ファイルに比べ、高精細であることに加え、撮像したシーンの色の再現性が極めて高い。しかしながら、仮に、4K2Kサイズで撮像された動画ファイルを、特許文献1の技術により、ファイルサイズを縮小した場合、データ量が少なくなり調整範囲が狭くなるため、この撮像されたシーンの色を再現するための自由度が損なわれる。 By the way, the moving image file captured in the 4K2K size has a higher definition and the reproducibility of the color of the captured scene than the moving image file captured in the HD size. However, if the file size of a moving image file captured in 4K2K size is reduced by the technique of Patent Document 1, the data amount is reduced and the adjustment range is narrowed, so that the color of the captured scene is reproduced. The degree of freedom for this is lost.
 本発明は、4K2Kサイズで撮像された動画ファイルの編集時間を削減できるとともに、撮像されたシーンの色を再現するための自由度を維持できる動画編集装置、動画編集方法及びプログラムを提供することを目的とする。 The present invention provides a moving image editing apparatus, a moving image editing method, and a program capable of reducing the editing time of a moving image file captured in 4K2K size and maintaining the degree of freedom for reproducing the color of the captured scene. Objective.
 (1) 第1の解像度の編集対象動画データを、前記第1の解像度より低い解像度の変換動画データに変換する変換装置により変換された前記変換動画データを用いて、前記編集対象動画データを編集する動画編集装置であって、前記変換動画データにおける全再生時間のうち、使用する時間帯を示す使用時間情報を、前記編集対象動画データに対応付ける時間情報対応付手段と、前記編集対象動画データにおいて、前記使用時間情報が示す時間帯のみに行ったカラーグレーディングによる色に関する色情報を、前記編集対象動画データに対応付ける色情報対応付手段と、を備える動画編集装置。 (1) Editing the editing target moving image data using the converted moving image data converted by the conversion device that converts the editing target moving image data having the first resolution into the converted moving image data having a resolution lower than the first resolution. A time information correlating means for associating the editing target video data with usage time information indicating a time zone to be used among all playback times in the converted video data, A moving image editing apparatus comprising: color information association means for associating color information related to colors by color grading performed only in a time zone indicated by the usage time information with the editing target moving image data.
 (1)の構成によれば、動画編集装置は、第1の解像度(例えば、4K2Kサイズ)の編集対象動画データを、第1の解像度より低い解像度(例えば、HDサイズ)の変換動画データに変換する変換装置により変換された変換動画データを用いて、編集対象動画データを編集する。動画編集装置は、時間情報対応付手段と、色情報対応付手段と、を備える。時間情報対応付手段は、変換動画データにおける全再生時間のうち、使用する時間帯(尺)を示す使用時間情報を、編集対象動画データに対応付ける。色情報対応付手段は、編集対象動画データにおいて、使用時間情報が示す時間帯のみに行ったカラーグレーディングによる色に関する色情報を、編集対象動画データに対応付ける。 According to the configuration of (1), the moving image editing apparatus converts the editing target moving image data having the first resolution (for example, 4K2K size) into converted moving image data having a resolution (for example, HD size) lower than the first resolution. Editing moving image data is edited using the converted moving image data converted by the converting device. The moving image editing apparatus includes time information association means and color information association means. The time information association means associates the usage time information indicating the time zone (scale) to be used, among the total reproduction times in the converted video data, with the editing target video data. The color information associating means associates color information relating to colors by color grading performed only in the time zone indicated by the usage time information in the editing target moving image data with the editing target moving image data.
 これにより、例えば、テレビ等で放送するための編集後の動画データの制作過程において、解像度が低い変換動画データ(例えば、HDサイズ)において、全再生時間のうち、編集後の動画ファイルで使用する時間帯(尺)を選定し、編集対象動画データ(例えば、4K2Kサイズ)において、選定した時間帯のみにカラーグレーディングを行うことが可能となる。よって、編集対象動画データに対してカラーグレーディングを行うことを可能とすることで、撮像されたシーンの色を再現するための自由度を維持できるとともに、選定した時間帯のみにカラーグレーディングを行うことを可能とすることで、編集対象動画データ全体に対してカラーグレーディングを行った場合に比べ、カラーグレーディングに要する時間を削減できる。 Thus, for example, in the production process of edited moving image data for broadcasting on a television or the like, the converted moving image data with a low resolution (for example, HD size) is used in the edited moving image file out of the total reproduction time. A time zone (scale) is selected, and color grading can be performed only in the selected time zone in the editing target moving image data (for example, 4K2K size). Therefore, by making it possible to perform color grading on the video data to be edited, the degree of freedom for reproducing the color of the captured scene can be maintained, and color grading can be performed only in the selected time zone. As a result, the time required for color grading can be reduced as compared with the case where color grading is performed on the entire moving image data to be edited.
 したがって、4K2Kサイズで撮像された動画ファイルの編集時間を削減できるとともに、撮像されたシーンの色を再現するための自由度を維持できる。 Therefore, it is possible to reduce the editing time of the moving image file captured in the 4K2K size and maintain the degree of freedom for reproducing the color of the captured scene.
 (2) 前記編集対象動画データに、前記編集対象動画データを識別するための識別情報を対応付けた動画データベースを構築するデータベース構築手段を、更に備え、前記データベース構築手段は、前記動画データベースにおいて、前記編集対象動画データに対応付けた前記識別情報と同じ前記識別情報に、当該編集対象動画データから変換された前記変換動画データを対応付ける(1)に記載の動画編集装置。 (2) It further comprises database construction means for constructing a video database in which identification information for identifying the edit target video data is associated with the edit target video data, wherein the database construction means includes: The moving image editing apparatus according to (1), wherein the converted moving image data converted from the editing target moving image data is associated with the same identification information as the identification information associated with the editing target moving image data.
 (2)の構成によれば、動画編集装置は、データベース構築手段を更に備える。データベース構築手段は、編集対象動画データに、編集対象動画データを識別するための識別情報を対応付けた動画データベースを構築し、動画データベースにおいて、編集対象動画データに対応付けた識別情報と同じ識別情報を、当該編集対象動画データから変換された変換動画データに対応付ける。 (2) According to the configuration of (2), the video editing device further includes database construction means. The database construction means constructs a moving image database in which identification information for identifying the editing target moving image data is associated with the editing target moving image data, and the same identification information as the identification information associated with the editing target moving image data in the moving image database Is associated with the converted moving image data converted from the editing target moving image data.
 これにより、動画データベースにおいて、同じ識別情報により、編集対象動画データ及び当該編集対象動画データから変換された変換動画データを管理できる。よって、例えば、ある変換動画データの使用時間情報を、当該変換動画データの変換元である編集対象動画データとは異なる編集対象動画データに対応づけてしまうことを防止できるので、動画データベースを用いた編集作業の正確性を向上できる。 Thereby, in the moving image database, the editing target moving image data and the converted moving image data converted from the editing target moving image data can be managed with the same identification information. Therefore, for example, it is possible to prevent the usage time information of certain converted moving image data from being associated with editing target moving image data different from the editing target moving image data that is the conversion source of the converted moving image data. The accuracy of editing work can be improved.
 (3) 前記データベース構築手段は、前記識別情報に、ランダムに決定された文字列を含める(2)に記載の動画編集装置。 (3) The moving image editing apparatus according to (2), wherein the database construction means includes a character string determined at random in the identification information.
 ここで、例えば、識別情報を、編集対象動画データを生成したビデオカメラ等が付したファイル名としていた場合、互いに異なる編集対象動画データに対し、同じファイル名が付されてしまう場合もある。
 このような場合であっても、(3)の構成によれば、識別情報に、ランダムに決定された文字列を含めることで、1つの編集対象動画データ及び当該編集対象動画データから変換された変換動画データを特定できる。よって、動画データベースを用いた編集作業の正確性をより向上できる。 Here, for example, when the identification information is a file name given by the video camera or the like that generated the editing target moving image data, the same file name may be assigned to different editing target moving image data.
Even in such a case, according to the configuration of (3), it is converted from one editing target moving image data and the editing target moving image data by including a randomly determined character string in the identification information. Converted video data can be specified. Therefore, the accuracy of editing work using the moving image database can be further improved.
 (4) 第1の解像度の編集対象動画データを、前記第1の解像度より低い解像度の変換動画データに変換する変換装置により変換された前記変換動画データを用いて、前記編集対象動画データを編集する動画編集装置が実行する動画編集方法において、前記変換動画データにおける全再生時間のうち、使用する時間帯を示す使用時間情報を、前記編集対象動画データに対応付ける時間情報対応付ステップと、前記変換動画データのうち、前記使用時間情報が示す時間帯のみに行ったカラーグレーディングによる色に関する色情報を、前記編集対象動画データに対応付ける色情報対応付ステップと、を含む動画編集方法。 (4) Editing the editing target moving image data using the converted moving image data converted by the conversion device that converts the editing target moving image data having the first resolution into the converted moving image data having a resolution lower than the first resolution. In the moving image editing method executed by the moving image editing apparatus, the step of associating time information indicating a time zone to be used with respect to the editing target moving image data, out of all the reproduction times in the converted moving image data, and the conversion A moving image editing method including a step of associating color information related to colors by color grading performed only in a time zone indicated by the usage time information among the moving image data with a color information association step associated with the editing target moving image data.
 (5) 第1の解像度の編集対象動画データを、前記第1の解像度より低い解像度の変換動画データに変換する変換装置により変換された前記変換動画データを用いて、前記編集対象動画データを編集する動画編集装置を制御するコンピュータを、前記変換動画データにおける全再生時間のうち、使用する時間帯を示す使用時間情報を、前記編集対象動画データに対応付ける時間情報対応付手段、前記変換動画データのうち、前記使用時間情報が示す時間帯のみに行ったカラーグレーディングによる色に関する色情報を、前記編集対象動画データに対応付ける色情報対応付手段、として機能させるプログラム。 (5) Editing the editing target moving image data using the converted moving image data converted by the conversion device that converts the editing target moving image data having the first resolution into the converted moving image data having a resolution lower than the first resolution. A computer that controls the moving image editing apparatus, a time information associating means for associating use time information indicating a time zone to be used, out of all playback times in the converted moving image data, with the editing target moving image data; Of these, a program that causes color information relating to color by color grading performed only in a time zone indicated by the use time information to function as color information association means for associating with the editing target moving image data.
 (4)及び(5)の構成によれば、(1)の構成と同様の作用効果を奏する。 According to the configurations of (4) and (5), the same effects as the configuration of (1) are achieved.
 本発明によれば、4K2Kサイズで撮像された動画ファイルの編集時間を削減できるとともに、撮像されたシーンの色を再現するための自由度を維持できる動画編集装置、動画編集方法及びプログラムを提供できる。 According to the present invention, it is possible to provide a moving image editing apparatus, a moving image editing method, and a program capable of reducing the editing time of a moving image file captured in 4K2K size and maintaining the degree of freedom for reproducing the color of the captured scene. .
図1は、本発明の実施形態に係る動画編集装置10を含む動画編集システム1の概要を示す図である。FIG. 1 is a diagram showing an outline of a moving image editing system 1 including a moving image editing apparatus 10 according to an embodiment of the present invention. 図2は、図1に示す動画編集システム1による編集対象動画データの編集を説明する図である。FIG. 2 is a diagram for explaining editing of editing target moving image data by the moving image editing system 1 shown in FIG. 図3は、本実施形態に係る動画編集装置10の機能的構成を説明する図である。FIG. 3 is a diagram illustrating a functional configuration of the moving image editing apparatus 10 according to the present embodiment. 図4は、図1に示す動画編集システム1によるパイプラインを説明する図である。FIG. 4 is a diagram for explaining a pipeline by the moving image editing system 1 shown in FIG.
 本発明の実施形態に係る動画編集装置10を含む動画編集システム1の概要を説明する。図1は、本発明の実施形態に係る動画編集装置10を含む動画編集システム1の概要を示す図である。図2は、図1に示す動画編集システム1による編集対象動画データの編集を説明する図である。図1に示すように、動画編集システム1は、動画編集装置10と、変換装置20と、オフライン編集装置30と、を備え、第1の解像度(例えば、4K2Kサイズ)の編集対象動画データを、第1の解像度より低い解像度(例えば、HDサイズ)の変換動画データに変換する変換装置20により変換された変換動画データを用いて、編集対象動画データを編集する。 The outline of the moving image editing system 1 including the moving image editing apparatus 10 according to the embodiment of the present invention will be described. FIG. 1 is a diagram showing an outline of a moving image editing system 1 including a moving image editing apparatus 10 according to an embodiment of the present invention. FIG. 2 is a diagram for explaining editing of editing target moving image data by the moving image editing system 1 shown in FIG. As shown in FIG. 1, the moving image editing system 1 includes a moving image editing device 10, a conversion device 20, and an offline editing device 30, and edit target moving image data having a first resolution (for example, 4K2K size). The editing target moving image data is edited using the converted moving image data converted by the conversion device 20 that converts the converted moving image data to a lower resolution (for example, HD size) than the first resolution.
 動画編集装置10は、外部(例えば、ビデオカメラや、ビデオカメラで撮像された動画ファイルを記憶するメディア等)から4K2Kサイズの編集対象動画データを、そのファイル名(図2に示す例では、「AAA」)に対応付けて取り込む。そして、動画編集装置10は、取り込んだ編集対象動画データに、当該編集対象動画データを識別するための識別情報を対応付けて、動画データベース100を構築する。本実施形態において、動画編集装置10は、識別情報を、取り込んだ編集対象動画データのファイル名に、ランダムに抽出した文字列(図2に示す例では、「ランダム文字列1」)を付加して生成する。 The moving image editing apparatus 10 receives 4K2K-size editing target moving image data from the outside (for example, a video camera or a medium for storing a moving image file captured by the video camera) and the file name (in the example shown in FIG. AAA ”). Then, the moving image editing apparatus 10 constructs the moving image database 100 by associating the acquired editing target moving image data with identification information for identifying the editing target moving image data. In the present embodiment, the moving image editing apparatus 10 adds a character string (“random character string 1” in the example shown in FIG. 2) randomly extracted to the file name of the captured editing target moving image data. To generate.
 変換装置20は、動画編集装置10が取り込んだ4K2Kサイズの編集対象動画データを、HD(High Definition)サイズの変換動画データに変換する。そして、動画編集装置10は、動画データベース100において、変換装置20が変換した変換動画データを、変換元の編集対象動画データと同じ識別情報に対応付ける。 The conversion device 20 converts the 4K2K size editing target moving image data captured by the moving image editing device 10 into HD (High Definition) moving image data. Then, the moving image editing device 10 associates the converted moving image data converted by the conversion device 20 with the same identification information as the editing target moving image data of the conversion source in the moving image database 100.
 オフライン編集装置30は、変換装置20が変換した変換動画データに対して、ユーザの操作に基づき、全再生時間のうち、動画編集システム1による編集後の動画データ(以下、編集後動画データとも言う。)で使用する時間帯(尺)を選定する編集を行う。また、オフライン編集装置30は、編集を行った変換動画データの識別情報に、選定した時間帯を示す使用時間情報(図2に示す例では、再生開始からの経過時間で示されるIN情報及びOUT情報)を対応付けて出力する。そして、動画編集装置10は、動画データベース100において、オフライン編集装置30が出力した使用時間情報を、当該使用時間情報に対応付けられた識別情報に対応付ける。 The off-line editing device 30 applies to the converted moving image data converted by the converting device 20 based on the user's operation, the moving image data after being edited by the moving image editing system 1 (hereinafter also referred to as “edited moving image data”). )) To select the time zone (scale) to be used. Further, the offline editing device 30 uses the usage time information indicating the selected time zone (in the example shown in FIG. 2, the IN information and OUT indicated by the elapsed time from the start of reproduction) in the identification information of the converted moving image data that has been edited. Information) in association with each other. Then, the moving image editing apparatus 10 associates the usage time information output from the offline editing apparatus 30 with the identification information associated with the usage time information in the moving image database 100.
 次に、変換装置20は、編集対象動画データの全再生時間のうち、使用時間情報が示す時間帯の尺に編集された編集対象動画データ(以下、編集済み尺動画データとも言う。)に対して、ユーザの操作に基づき、カラーグレーディングを行い、編集後動画データを生成する。なお、本実施形態において、「カラーグレーディング」は、編集対象動画データにおける画像の彩度、明度、色相、コントラスト等を調整することであるが、これに限らず、例えば、画像の選定の部分に特殊効果を加えるフィルター効果を適用してもよい。また、変換装置20は、カラーグレーディングを行った編集対象動画データの識別情報に、編集対象動画データに対して行ったカラーグレーディングによる色に関する色情報を対応付けて出力する。 Next, the conversion device 20 applies to the editing target moving image data (hereinafter, also referred to as “edited scale moving image data”) edited to the scale of the time zone indicated by the usage time information out of the total reproduction time of the editing target moving image data. Then, color grading is performed based on the user's operation, and edited moving image data is generated. In this embodiment, “color grading” is to adjust the saturation, brightness, hue, contrast, etc. of the image in the moving image data to be edited. However, the present invention is not limited to this. You may apply the filter effect which adds a special effect. In addition, the conversion device 20 outputs the color information related to the color by the color grading performed on the editing target moving image data in association with the identification information of the editing target moving image data subjected to the color grading.
 そして、動画編集装置10は、動画データベース100において、変換装置20が出力した色情報を、当該色情報に対応付けられた識別情報に対応付ける。また、動画編集装置10は、動画データベース100において、変換装置20により生成された編集後動画データを、当該編集後動画データの編集元の編集対象動画データの識別情報に対応付ける。 Then, the moving image editing apparatus 10 associates the color information output from the conversion apparatus 20 with the identification information associated with the color information in the moving image database 100. In addition, in the moving image database 100, the moving image editing apparatus 10 associates the edited moving image data generated by the conversion device 20 with the identification information of the editing target moving image data that is the editing source of the edited moving image data.
 なお、変換装置20は、カラーグレーディングが行われた日時を含む色情報を生成してもよい。この場合、動画編集装置10は、動画データベース100において、1つの識別情報に、複数の色情報を対応付けてもよい。これにより、例えば、度々、カラーグレーディングが行われていた場合、ある日時に行われたカラーグレーディングの結果を容易に再現できる。 Note that the conversion device 20 may generate color information including the date and time when color grading was performed. In this case, the moving image editing apparatus 10 may associate a plurality of pieces of color information with one piece of identification information in the moving image database 100. Thereby, for example, when color grading is frequently performed, the result of color grading performed at a certain date and time can be easily reproduced.
 なお、本実施形態では、動画編集システム1を制御する1つのコンピュータをプログラムにより、動画編集装置10、変換装置20及びオフライン編集装置30として機能させている。しかしながら、これに限らず、動画編集システム1は、動画編集装置10を制御するコンピュータと、変換装置20を制御するコンピュータと、オフライン編集装置30を制御するコンピュータとで構成してもよい。 In the present embodiment, one computer that controls the moving image editing system 1 is caused to function as the moving image editing device 10, the conversion device 20, and the offline editing device 30 by a program. However, the present invention is not limited to this, and the moving image editing system 1 may be configured by a computer that controls the moving image editing device 10, a computer that controls the conversion device 20, and a computer that controls the offline editing device 30.
 次に、本実施形態に係る動画編集装置10の機能的構成について説明する。図3は、本実施形態に係る動画編集装置10の機能的構成を説明する図である。動画編集装置10は、インジェスト手段11と、データベース構築手段12と、時間情報対応付手段13と、色情報対応付手段14と、を備える。 Next, a functional configuration of the moving image editing apparatus 10 according to the present embodiment will be described. FIG. 3 is a diagram illustrating a functional configuration of the moving image editing apparatus 10 according to the present embodiment. The moving image editing apparatus 10 includes an ingest unit 11, a database construction unit 12, a time information association unit 13, and a color information association unit 14.
 インジェスト手段11は、外部(例えば、ビデオカメラや、ビデオカメラで撮像された動画ファイルを記憶するメディア等)から4K2Kサイズの編集対象動画データを、そのファイル名に対応付けて取り込む。 The ingest unit 11 captures 4K2K size editing target moving image data in association with the file name from the outside (for example, a video camera or a medium for storing a moving image file captured by the video camera).
 データベース構築手段12は、インジェスト手段11が取り込んだ編集対象動画データに、当該編集対象動画データを識別するための識別情報を対応付けた動画データベース100を構築する。詳細には、データベース構築手段12は、識別情報を、インジェスト手段11が取り込んだ編集対象動画データのファイル名に、ランダムに決定された文字列を付加して識別情報を生成する。また、データベース構築手段12は、動画データベース100において、編集対象動画データに対応付けた識別情報と同じ識別情報に、変換装置20により当該編集対象動画データから変換された変換動画データを対応付ける。 The database construction unit 12 constructs the moving image database 100 in which the editing target moving image data captured by the ingest unit 11 is associated with identification information for identifying the editing target moving image data. Specifically, the database construction unit 12 generates the identification information by adding the character string determined at random to the file name of the editing target moving image data captured by the ingest unit 11. Further, the database construction unit 12 associates the converted moving image data converted from the editing target moving image data by the converting device 20 with the same identification information as the identification information associated with the editing target moving image data in the moving image database 100.
 時間情報対応付手段13は、オフライン編集装置30から出力された、変換動画データにおける全再生時間のうち、使用する時間帯(尺)を示す使用時間情報を受け付ける。そして、時間情報対応付手段13は、オフライン編集装置30から受け付けた使用時間情報を、動画データベース100において、当該使用時間情報に対応付けられた識別情報(オフライン編集装置30において編集された変換動画データの識別情報であり、即ち、当該変換動画データの変換元の編集対象動画データの識別情報)に対応付ける。 The time information association means 13 receives usage time information indicating the time zone (scale) to be used among all the playback times in the converted video data output from the offline editing device 30. Then, the time information association unit 13 uses the identification information associated with the usage time information in the video database 100 (the converted video data edited in the offline editing device 30) as the usage time information received from the offline editing device 30. That is, the identification information of the editing target moving image data that is the conversion source of the converted moving image data).
 色情報対応付手段14は、変換装置20から出力された、編集対象動画データにおいて、使用時間情報が示す時間帯のみに行ったカラーグレーディングによる色に関する色情報を受け付ける。詳細には、色情報対応付手段14は、編集対象動画データの全再生時間のうち、使用時間情報が示す時間帯の尺に編集された編集済み尺動画データに対して行ったカラーグレーディングによる色に関する色情報を受け付ける。 The color information association means 14 accepts color information related to colors by color grading performed only in the time zone indicated by the usage time information in the editing target moving image data output from the conversion device 20. Specifically, the color information associating unit 14 performs color grading performed on the edited scale moving image data edited to the time scale indicated by the usage time information out of the total reproduction time of the editing target moving image data. Accept color information about.
そして、時間情報対応付手段13は、オフライン編集装置30から受け付けた使用時間情報を、動画データベース100において、当該使用時間情報に対応付けられた識別情報(オフライン編集装置30において編集された変換動画データの識別情報であり、即ち、当該変換動画データの変換元の編集対象動画データの識別情報)に対応付ける。 Then, the time information association unit 13 uses the identification information associated with the usage time information in the video database 100 (the converted video data edited in the offline editing device 30) as the usage time information received from the offline editing device 30. That is, the identification information of the editing target moving image data that is the conversion source of the converted moving image data).
そして、色情報対応付手段14は、変換装置20から受け付けた色情報を、動画データベース100において、当該色情報に対応付けられた識別情報(変換装置20においてカラーグレーディングを行った編集対象動画データの識別情報)に対応付ける。 Then, the color information association unit 14 converts the color information received from the conversion device 20 into the identification information associated with the color information in the moving image database 100 (the editing target moving image data subjected to color grading in the conversion device 20). (Identification information).
 動画データベース100は、データベース構築手段12が生成した識別情報に、インジェスト手段11が取り込んだ編集対象動画データ(4K2Kサイズ)、変換装置20により変換された変換動画データ(HDサイズ)、オフライン編集装置30から出力された使用時間情報及び変換装置20から出力された色情報が対応付けられている。更に、動画データベース100は、識別情報に、編集対象動画データや変換動画データのメタ情報やフォーマット情報、使用時間情報や色情報が対応付けられた日時を示す日時情報等が対応付けられている。 The moving image database 100 includes editing target moving image data (4K2K size) captured by the ingesting unit 11 in the identification information generated by the database building unit 12, converted moving image data (HD size) converted by the converting device 20, and an offline editing device. The usage time information output from 30 and the color information output from the conversion device 20 are associated with each other. Further, in the moving image database 100, the identification information is associated with meta information and format information of editing target moving image data and converted moving image data, date and time information indicating the date and time associated with usage time information and color information, and the like.
 上記の本システムの機能構成は、あくまで一例であり、一つの機能ブロック(データベース及び機能処理手段)を分割したり、複数の機能ブロックをまとめて一つの機能ブロックとして構成したりしてもよい。各機能処理手段は、コンピュータ装置に内蔵されたCPU(Central Processing Unit)が、ROM(Read Only Memory)又はRAID(Redundant Arrays of Inexpensive Disks)等の記憶装置に格納されたコンピュータ・プログラムを読み出し、CPUにより実行されたコンピュータ・プログラムによって実現される。すなわち、各機能処理手段は、このコンピュータ・プログラムが、記憶装置に格納されたデータベース(DB;Data Base)やメモリ上の記憶領域からテーブル等の必要なデータを読み書きし、関連するハードウェア(例えば、ユーザにより操作されるカラーグレーディング用のコントロールパネル等の入出力装置、ディスプレイ等の表示装置、通信インターフェース装置)を制御することによって実現される。また、本発明の実施形態におけるデータベース(DB)は、商用データベースであってよいが、単なるテーブルやファイルの集合体をも意味し、データベースの内部構造自体は問わないものとする。なお、データベースも1つのサーバ(データベースサーバ)と考えてもよい。 The functional configuration of the present system described above is merely an example, and one functional block (database and functional processing means) may be divided, or a plurality of functional blocks may be configured as one functional block. In each function processing means, a CPU (Central Processing Unit) built in the computer device reads a computer program stored in a storage device such as ROM (Read Only Memory) or RAID (Redundant Arrays of Inexpensive Disks), and the CPU It is realized by a computer program executed by That is, each function processing unit reads and writes necessary data such as a table from a database (DB; Data Base) stored in a storage device or a storage area on a memory, and related hardware (for example, It is realized by controlling an input / output device such as a color grading control panel operated by a user, a display device such as a display, and a communication interface device. Further, the database (DB) in the embodiment of the present invention may be a commercial database, but it simply means a collection of tables and files, and the internal structure of the database itself is not questioned. The database may be considered as one server (database server).
 次に、本発明の実施形態に係る動画編集システム1におけるパイプラインについて説明する。図4は、図1に示す動画編集システム1によるパイプラインを説明する図である。なお、図4において、実線で囲んだ処理は動画編集装置10における処理であることを示し、点線で囲んだ処理は変換装置20又はオフライン編集装置30における処理であることを示す。 Next, a pipeline in the moving image editing system 1 according to the embodiment of the present invention will be described. FIG. 4 is a diagram for explaining a pipeline by the moving image editing system 1 shown in FIG. In FIG. 4, the process surrounded by a solid line indicates that the process is performed by the moving image editing apparatus 10, and the process surrounded by a dotted line indicates that the process is performed by the conversion apparatus 20 or the offline editing apparatus 30.
 ステップS1のインジェスト処理において、動画編集装置10のインジェスト手段11は、外部から4K2Kサイズの編集対象動画データを、そのファイル名に対応付けて取り込む。詳細には、インジェスト手段11は、ベリファイ(編集対象動画データにおけるエラーチェック)をしながら、ビデオカメラや、ビデオカメラで撮像された動画ファイルを記憶するメディア等から記憶装置に編集対象動画データをコピーする。 In the ingest process of step S1, the ingest unit 11 of the video editing apparatus 10 takes in 4K2K size editing target video data from the outside in association with the file name. Specifically, the ingest means 11 performs the verification (error check on the editing target moving image data), and the editing target moving image data is stored in the storage device from the video camera or a medium storing the moving image file captured by the video camera. make a copy.
 ステップS2のデータベース生成処理において、動画編集装置10のデータベース構築手段12は、ステップS1でインジェスト手段11が取り込んだ編集対象動画データに、当該編集対象動画データを識別するための識別情報を対応付けた動画データベース100を構築する。また、動画編集装置10は、取り込んだ編集対象動画データを変換装置20に出力する。 In the database generation process in step S2, the database construction unit 12 of the video editing device 10 associates the editing target video data captured by the ingest unit 11 in step S1 with identification information for identifying the editing target video data. The moving image database 100 is constructed. In addition, the moving image editing apparatus 10 outputs the captured editing target moving image data to the conversion apparatus 20.
 ステップS3の4K-HD変換処理において、変換装置20は、動画編集装置10が取り込んだ4K2Kサイズの編集対象動画データを、HDサイズの変換動画データに変換する。また、変換装置20は、変換動画データを動画編集装置10に出力する。 In the 4K-HD conversion process in step S3, the conversion device 20 converts the 4K2K-size editing target moving image data captured by the moving image editing device 10 into HD-sized converted moving image data. Further, the conversion device 20 outputs the converted moving image data to the moving image editing device 10.
 そして、ステップS2のデータベース生成処理に戻って、動画編集装置10のデータベース構築手段12は、変換装置20が変換した変換動画データを、動画データベース100において、変換元の編集対象動画データと同じ識別情報に対応付ける。また、動画編集装置10は、変換動画データをオフライン編集装置30に出力する。 Then, returning to the database generation process in step S2, the database construction unit 12 of the video editing device 10 uses the same identification information as the editing-target video data of the conversion source in the video database 100 for the converted video data converted by the conversion device 20. Associate with. In addition, the moving image editing apparatus 10 outputs the converted moving image data to the offline editing apparatus 30.
 ステップS4のオフライン編集処理において、オフライン編集装置30は、ステップS3で変換装置20が変換した変換動画データに対して、ユーザの操作に基づき、全再生時間のうち、編集後動画データで使用する時間帯(尺)を選定する編集を行う。そして、オフライン編集装置30は、編集を行った変換動画データの識別情報に、選定した時間帯を示す使用時間情報を対応付けて出力する。 In the offline editing process in step S4, the offline editing device 30 uses the edited moving image data out of the total reproduction time based on the user's operation on the converted moving image data converted by the converting device 20 in step S3. Edit to select the band (scale). Then, the offline editing device 30 associates and outputs the usage time information indicating the selected time zone with the identification information of the converted moving image data that has been edited.
 ステップS5の編集データ変換処理において、動画編集装置10の時間情報対応付手段13は、動画データベース100において、オフライン編集装置30から出力された使用時間情報を、当該使用時間情報に対応付けられた識別情報の編集対象動画データに対応付ける。また、動画編集装置10は、使用時間情報を、編集元の編集対象動画データの識別情報を対応付けて出力する。 In the edit data conversion process of step S5, the time information association unit 13 of the video editing device 10 identifies the usage time information output from the offline editing device 30 in the video database 100 in association with the usage time information. Correspond to the video data to be edited. In addition, the moving image editing apparatus 10 outputs the usage time information in association with the identification information of the editing target moving image data as the editing source.
 ステップS6のプライマリカラーグレーディング処理において、変換装置20は、動画編集装置10から出力された使用時間情報に基づき編集済み尺動画データを生成し、この編集済み尺動画データに対して、ユーザの操作に基づき、プライマリカラーグレーディングを行う。本実施形態における「プライマリカラーグレーディング」は、編集済み尺動画データの全体に対してカラーグレーディングを行うことを言う。また、変換装置20は、動画編集装置10から出力された使用時間情報に対応付けられていた識別情報に、カラーグレーディングによる色に関する色情報を対応付けて出力する。また、変換装置20は、カラーグレーディングを行った編集済み尺動画データを編集後動画データとして出力する。 In the primary color grading process in step S6, the conversion device 20 generates edited scale moving image data based on the usage time information output from the moving image editing device 10, and performs the user operation on the edited scale moving image data. Based on the primary color grading. “Primary color grading” in the present embodiment refers to performing color grading on the entire edited scale moving image data. Further, the conversion device 20 outputs the color information related to the color by color grading in association with the identification information associated with the usage time information output from the moving image editing device 10. Further, the conversion device 20 outputs the edited scale moving image data subjected to color grading as edited moving image data.
 ステップS7のパイプライン管理処理において、動画編集装置10の色情報対応付手段14は、ステップS6又は後述するステップS13で変換装置20から出力された、編集済み尺動画データに対して行ったカラーグレーディングによる色に関する色情報を受け付ける。そして、色情報対応付手段14は、動画データベース100において、変換装置20から受け付けた色情報を、当該色情報に対応付けられた識別情報の編集対象動画データに対応付ける。 In the pipeline management process of step S7, the color information association unit 14 of the moving image editing apparatus 10 performs color grading performed on the edited scale moving image data output from the conversion apparatus 20 in step S6 or step S13 described later. Accepts color information related to colors. Then, the color information association unit 14 associates the color information received from the conversion device 20 with the editing target moving image data of the identification information associated with the color information in the moving image database 100.
 ステップS8の4K2Kタイムライン生成処理において、オフライン編集装置30は、ユーザの操作に基づき、ステップS6又は後述するステップS13で変換装置20から出力された編集後動画データを複数受付して、これら複数の編集後動画データが連なる4K2Kタイムラインを生成する。また、オフライン編集装置30は、カラーグレーディングを行わない場合には、動画編集装置10から出力された使用時間情報に基づき編集済み尺動画データを生成し、複数の編集済み尺動画データが連なる4K2Kタイムラインを生成する。 In the 4K2K timeline generation process in step S8, the offline editing device 30 receives a plurality of edited video data output from the conversion device 20 in step S6 or step S13 described later based on the user's operation, and A 4K2K timeline in which the edited moving image data is continuous is generated. Further, when the color grading is not performed, the offline editing device 30 generates edited scale moving image data based on the usage time information output from the moving image editing device 10, and a 4K2K time in which a plurality of edited length moving image data is connected. Generate a line.
 以下に説明するステップS11からステップS13の処理は、変換装置20において、セカンダリカラーグレーディングを行う場合の処理である。本実施形態における「セカンダリカラーグレーディング」は、編集済み尺動画データの特定の部分にのみカラーグレーディングを行うことを言う。 The processing from step S11 to step S13 described below is processing when secondary color grading is performed in the conversion device 20. “Secondary color grading” in the present embodiment refers to performing color grading only on a specific portion of edited scale moving image data.
 セカンダリカラーグレーディングを行う場合、変換装置20は、4Kファイル(例えば、DPXファイル)を生成し(ステップS11)、ユーザの操作に基づき、この4Kファイルに対してセカンダリカラーグレーディングを行い(ステップS12)、ムービー変換(例えば、DPXファイルからムービーファイルへの変換)を行う。 When performing secondary color grading, the conversion apparatus 20 generates a 4K file (for example, a DPX file) (step S11), performs secondary color grading on the 4K file based on a user operation (step S12), Movie conversion (for example, conversion from a DPX file to a movie file) is performed.
 本実施形態によれば、例えば、テレビ等で放送するための編集後の動画データの制作過程において、解像度が低い変換動画データ(例えば、HDサイズ)において、全再生時間のうち、編集後の動画ファイルで使用する時間帯を選定し、編集対象動画データ(例えば、4K2Kサイズ)において、選定した時間帯のみにカラーグレーディングを行うことが可能となる。よって、編集対象動画データに対してカラーグレーディングを行うことを可能とすることで、撮像されたシーンの色を再現するための自由度を維持できるとともに、選定した時間帯のみにカラーグレーディングを行うことを可能とすることで、編集対象動画データ全体に対してカラーグレーディングを行った場合に比べ、カラーグレーディングに要する時間を削減できる。 According to the present embodiment, for example, in the production process of edited video data for broadcasting on a television or the like, in the converted video data with a low resolution (for example, HD size), the edited video in the total playback time. A time zone used in the file is selected, and color grading can be performed only in the selected time zone in the editing target moving image data (for example, 4K2K size). Therefore, by making it possible to perform color grading on the video data to be edited, the degree of freedom for reproducing the color of the captured scene can be maintained, and color grading can be performed only in the selected time zone. As a result, the time required for color grading can be reduced as compared with the case where color grading is performed on the entire moving image data to be edited.
 したがって、4K2Kサイズで撮像された動画ファイルの編集時間を削減できるとともに、撮像されたシーンの色を再現するための自由度を維持できる。 Therefore, it is possible to reduce the editing time of the moving image file captured in the 4K2K size and maintain the degree of freedom for reproducing the color of the captured scene.
 また、本実施形態によれば、動画データベース100において、同じ識別情報により、編集対象動画データ及び当該編集対象動画データから変換された変換動画データを管理できる。よって、例えば、ある変換動画データの使用時間情報を、当該変換動画データの変換元である編集対象動画データとは異なる編集対象動画データに対応づけてしまうことを防止できるので、動画データベースを用いた編集作業の正確性を向上できる。 Further, according to the present embodiment, in the moving image database 100, the editing target moving image data and the converted moving image data converted from the editing target moving image data can be managed with the same identification information. Therefore, for example, it is possible to prevent the usage time information of certain converted moving image data from being associated with editing target moving image data different from the editing target moving image data that is the conversion source of the converted moving image data. The accuracy of editing work can be improved.
 また、本実施形態によれば、識別情報に、ランダムに決定された文字列を含めることで、1つの編集対象動画データ及び当該編集対象動画データから変換された変換動画データを特定できる。よって、動画データベースを用いた編集作業の正確性をより向上できる。 In addition, according to the present embodiment, by including a randomly determined character string in the identification information, one editing target moving image data and converted moving image data converted from the editing target moving image data can be specified. Therefore, the accuracy of editing work using the moving image database can be further improved.
 以上、実施形態を用いて本発明を説明したが、本発明の技術的範囲は上記実施形態に記載の範囲には限定されないことは言うまでもない。上記実施形態に、多様な変更または改良を加えることが可能であることは当業者に明らかである。またその様な変更または改良を加えた形態も本発明の技術的範囲に含まれ得ることは、特許請求の範囲の記載から明らかである。 As mentioned above, although this invention was demonstrated using embodiment, it cannot be overemphasized that the technical scope of this invention is not limited to the range as described in the said embodiment. It will be apparent to those skilled in the art that various modifications or improvements can be made to the above embodiment. Further, it is apparent from the scope of the claims that the embodiments added with such changes or improvements can be included in the technical scope of the present invention.
 1…動画編集システム、10…動画編集装置、11…インジェスト手段、12…データベース構築手段、13…時間情報対応付手段、14…色情報対応付手段、20…変換装置、30…オフライン編集装置、100…動画データベース DESCRIPTION OF SYMBOLS 1 ... Moving image editing system, 10 ... Moving image editing apparatus, 11 ... Ingest means, 12 ... Database construction means, 13 ... Time information correspondence means, 14 ... Color information correspondence means, 20 ... Conversion apparatus, 30 ... Offline editing apparatus , 100 ... Video database

Claims (5)

  1.  第1の解像度の編集対象動画データを、前記第1の解像度より小さい解像度の変換動画データに変換する変換装置により変換された前記変換動画データを用いて、前記編集対象動画データを編集する動画編集装置であって、
     前記変換動画データにおける全再生時間のうち、使用する時間帯を示す使用時間情報を、前記編集対象動画データに対応付ける時間情報対応付手段と、
     前記編集対象動画データにおいて、前記使用時間情報が示す時間帯のみに行ったカラーグレーディングによる色に関する色情報を、前記編集対象動画データに対応付ける色情報対応付手段と、を備える動画編集装置。     Movie editing for editing the editing object moving image data using the converted moving image data converted by the conversion device for converting the editing object moving image data having the first resolution into the converted moving image data having a resolution smaller than the first resolution. A device,
    Time information association means for associating usage time information indicating a time zone to be used, out of all playback times in the converted video data, with the editing target video data;
    A moving image editing apparatus comprising: color information association means for associating color information related to colors by color grading performed only in a time zone indicated by the use time information in the editing target moving image data with the editing target moving image data.
  2.  前記編集対象動画データに、前記編集対象動画データを識別するための識別情報を対応付けた動画データベースを構築するデータベース構築手段を、更に備え、
     前記データベース構築手段は、前記動画データベースにおいて、前記編集対象動画データに対応付けた前記識別情報と同じ前記識別情報に、当該編集対象動画データから変換された前記変換動画データを対応付ける請求項1に記載の動画編集装置。     A database construction means for constructing a video database in which identification information for identifying the edit video data is associated with the edit video data;
    The database construction means associates the converted moving image data converted from the editing target moving image data with the same identification information as the identification information associated with the editing target moving image data in the moving image database. Video editing device.
  3.  前記データベース構築手段は、前記識別情報に、ランダムに決定された文字列を含める請求項2に記載の動画編集装置。 3. The moving image editing apparatus according to claim 2, wherein the database construction means includes a character string determined at random in the identification information.
  4.  第1の解像度の編集対象動画データを、前記第1の解像度より低い解像度の変換動画データに変換する変換装置により変換された前記変換動画データを用いて、前記編集対象動画データを編集する動画編集装置が実行する動画編集方法において、
     前記変換動画データにおける全再生時間のうち、使用する時間帯を示す使用時間情報を、前記編集対象動画データに対応付ける時間情報対応付ステップと、
     前記編集対象動画データにおいて、前記使用時間情報が示す時間帯のみに行ったカラーグレーディングによる色に関する色情報を、前記編集対象動画データに対応付ける色情報対応付ステップと、を含む動画編集方法。     Movie editing for editing the editing object moving image data using the converted moving image data converted by the conversion device that converts the editing object moving image data having the first resolution into the converted moving image data having a resolution lower than the first resolution. In the video editing method executed by the device,
    Of the total playback time in the converted video data, the usage time information indicating the time zone to be used, the time information corresponding step of associating with the editing target video data,
    A moving image editing method comprising: a step of associating color information related to colors by color grading performed only in a time zone indicated by the usage time information in the editing target moving image data with a color information associating step with which the editing target moving image data is associated.
  5.  第1の解像度の編集対象動画データを、前記第1の解像度より低い解像度の変換動画データに変換する変換装置により変換された前記変換動画データを用いて、前記編集対象動画データを編集する動画編集装置を制御するコンピュータを、
     前記変換動画データにおける全再生時間のうち、使用する時間帯を示す使用時間情報を、前記編集対象動画データに対応付ける時間情報対応付手段、
     前記編集対象動画データにおいて、前記使用時間情報が示す時間帯のみに行ったカラーグレーディングによる色に関する色情報を、前記編集対象動画データに対応付ける色情報対応付手段、として機能させるプログラム。     Movie editing for editing the editing object moving image data using the converted moving image data converted by the conversion device that converts the editing object moving image data having the first resolution into the converted moving image data having a resolution lower than the first resolution. The computer that controls the device,
    Time information correspondence means for associating usage time information indicating a time zone to be used, among the total playback times in the converted video data, with the editing target video data;
    A program that causes color information relating to color by color grading performed only in a time zone indicated by the usage time information to function as color information association means for associating the editing object moving image data with the editing object moving image data.
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