JP4029386B2 - REPRODUCTION DEVICE AND METHOD, RECORDING MEDIUM, AND PROGRAM - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a playback apparatus and method, a recording medium, and a program, and more particularly to a playback apparatus and method, a recording medium, and a program that can improve the operability of video editing.
[0002]
[Prior art]
Conventionally, linear editing has been performed in the field of video editing. In linear editing, first, a playback device that plays back a tape on which video is recorded and a recording device that records video are connected, and the playback device searches for the playback start point and playback end point of the video to be used and records them. On the device side, the recording start point is designated. Next, the playback of the playback device and the recording of the recording device are started simultaneously, and the video being played back by the playback device is recorded by the recording device. The above operation is repeatedly executed, and only a desired video is extracted from the tape on which the video is recorded, and the video is edited.
[0003]
Also, film editing is known as editing different from linear editing. In this case, only the film on which the desired video is recorded is cut out from the film on which the video is recorded, and the desired film is connected to each other to edit the video. In the case of film editing, there is an advantage that it is easy to re-edit video once edited. That is, in linear editing, after video 2 is recorded following video 1 and video 3 is to be inserted between video 1 and video 2, video 3 is again recorded after video 1 and video 3 is recorded. After that, a procedure of recording video 2 is necessary. On the other hand, in film editing, when the film of video 3 is inserted between the film of video 1 and the film of video 2 that are pasted together, the film on which video 1 and video 2 are recorded is cut, The film of the video 3 is inserted into the video, and the video 1, video 3, and video 2 are connected again in this order. Therefore, re-editing is easier compared to linear editing.
[0004]
Nowadays, in place of the above-described linear editing and film editing, non-linear editing using a small computer such as a personal computer or a workstation is widespread. In the following description, an apparatus that performs nonlinear editing is also referred to as a nonlinear editing machine.
[0005]
In nonlinear editing using a small computer, a moving image recorded on a recording medium is taken into a storage device such as a hard disk and edited. Since the image is digitized, there is an advantage that the image quality does not deteriorate even if the editing is repeated. Further, like film editing, there is an advantage that editing is easy.
[0006]
In the case of film editing, it is necessary to physically cut the film on which the video is recorded. However, in the case of editing by a non-linear editing machine, there is an advantage that there is no such need.
[0007]
[Problems to be solved by the invention]
However, when performing nonlinear editing using the above-described small computer, the small computer first sucks out (uploads) all the video files including the video to be edited from the recording medium on which the video is recorded. It takes a long time to upload the video file because the video editing work is started. As a result, there is a problem that it takes a long time to start actual editing work. Therefore, in situations where it is required to edit video in a short time, such as in the press, there is a problem that there is no time for performing nonlinear editing.
[0008]
The following methods for solving the above problem are known. First, a low-resolution video file with reduced image quality is recorded together with video data on a recording medium in advance (in the following description, a low-resolution image with reduced image quality is referred to as a low-resolution image, The original high-resolution video is referred to as a main video.) When editing the video, the low resolution image file is read from the recording medium and edited. The low resolution image file has a smaller data amount than the main line moving image data, and therefore, the time required for reading from the recording medium can be shortened. As a result, according to this method, the time required for editing can be shortened.
[0009]
However, in such a method, the editor who edits the video can only refer to the low-resolution video, and, for example, if the user wants to check the details of the video, a high-resolution main video is required. When doing so, it was necessary to upload the main line video file to a small computer. Therefore, in such a case, there has been a problem that the time required for editing cannot be shortened.
[0010]
In addition, when a main video is uploaded to a small computer and edited, there is a problem that more power is required than when editing using a low-resolution image.
[0011]
The present invention has been made in view of such a situation, and an object thereof is to improve the operability of video editing.
[0012]
[Means for Solving the Problems]
  Of the present inventionOf the first sideThe reproducing apparatus reads out the first moving image and the second moving image from the recording medium on which the first moving image and the second moving image obtained by reducing the first moving image to a low resolution are recorded. An output unit that outputs the first moving image read by the reading unit to a display device that displays the first moving image, and a second moving image read by the reading unit A transmission means for transmitting to an editing device for editing a moving image;Receiving means for receiving a second moving image transmission request from the editing device; and receiving means for receiving an instruction to reproduce the first moving imageWithThe reading unit receives the second moving image when the receiving unit receives an instruction to reproduce the first moving image from a predetermined position and the receiving unit receives the second moving image transmission request. , And the first moving image corresponding to the second moving image is read out, the receiving unit receives an instruction to reproduce the first moving image from a predetermined position, and the receiving unit receives the second moving image. When the transmission request is not received, the first moving image is read from the predetermined position accepted by the accepting unit.It is characterized by that.
[0014]
The instruction to reproduce the first moving image received by the receiving unit may include an instruction to reproduce the first moving image at a predetermined double speed.
[0015]
When the receiving unit receives an instruction to reproduce the first moving image from a predetermined position by the receiving unit, and the receiving unit receives the transmission request for the second moving image The second moving image can be read out with priority over the reading of the first moving image.
[0019]
  Of the present inventionOf the first sideThe reproducing method reads out the first moving image and the second moving image from the recording medium on which the first moving image and the second moving image obtained by reducing the first moving image to a low resolution are recorded. An output step for outputting the first moving image read by the processing of the reading step to a display device that displays the first moving image, and a second moving image read by the processing of the reading step. A transmission step of transmitting the second moving image to an editing device for editing;A receiving step for receiving a transmission request for the second moving image from the editing device; and a receiving step for receiving an instruction to reproduce the first moving image.IncludingIn the reading step, when an instruction to reproduce the first moving image from a predetermined position is received by the processing of the receiving step, and a transmission request for the second moving image is received by the processing of the receiving step, The second moving image and the first moving image corresponding to the second moving image are read, and an instruction to reproduce the first moving image from a predetermined position is received by the processing of the receiving step, and the receiving step When the transmission request for the second moving image is not received by the process of, the first moving image is read from the predetermined position accepted by the process of the accepting step.It is characterized by that.
[0020]
  Of the present inventionOf the first sideThe program of the recording medium reads out the first moving image and the second moving image from the recording medium on which the first moving image and the second moving image obtained by reducing the first moving image to a low resolution are recorded. The read step, the output control step for controlling the output of the first moving image read by the processing of the reading step to the display device that displays the first moving image, and the read step processing A transmission control step for controlling transmission of the second moving image to an editing apparatus for editing the second moving image;A reception control step for controlling reception of a transmission request for the second moving image from the editing device; and a reception step for receiving an instruction to reproduce the first moving image.IncludingIn the read step, when the instruction to reproduce the first moving image from the predetermined position is accepted by the process of the accepting step, and the transmission request of the second moving image is received by the process of the receiving control step The second moving image and the first moving image corresponding to the second moving image are read out, and an instruction to reproduce the first moving image from a predetermined position is received and received by the processing of the receiving step. When the transmission request for the second moving image is not received by the process of the control step, the first moving image is read from the predetermined position accepted by the process of the accepting step.It is characterized by that.
[0021]
  Of the present inventionOf the first sideThe program reads the first moving image and the second moving image from the recording medium on which the first moving image and the second moving image obtained by reducing the first moving image to a low resolution are recorded. The output control step for controlling the output of the first moving image read out by the processing of the reading step to the display device that displays the first moving image, and the second moving image read out by the processing of the reading step A transmission control step for controlling transmission of the moving image to an editing apparatus for editing the second moving image;A reception control step for controlling reception of a transmission request for the second moving image from the editing device; and a reception step for receiving an instruction to reproduce the first moving image.ExecuteIn the reading step, when an instruction to reproduce the first moving image from a predetermined position is received by the processing of the receiving step, and a transmission request for the second moving image is received by the processing of the reception control step, The second moving image and the first moving image corresponding to the second moving image are read out, an instruction to reproduce the first moving image from a predetermined position is received by the processing of the receiving step, and reception control is performed. If the transmission request for the second moving image is not received by the processing of the step, the first moving image is read from the predetermined position received by the processing of the receiving step.It is characterized by that.
  The playback device according to the second aspect of the present invention includes a first moving image, a first moving image, and a first moving image, and a recording medium on which the second moving image having a low resolution is recorded. Read out means for reading out the second moving image, output means for outputting the first moving image read out by the reading means to the display device for displaying the first moving image, and second read out by the reading means. Transmitting means for transmitting the moving image to the editing apparatus for editing the second moving image, receiving means for receiving a transmission request for the second moving image from the editing apparatus, and an instruction to reproduce the first moving image The reading means receives an instruction to reproduce the first moving image from a predetermined position, and the receiving means receives the second moving image transmission request. The second moving image is read and the receptionist The first moving image is read from the position received by the receiving unit, the receiving unit does not receive an instruction to reproduce the first moving image from the predetermined position, and the receiving unit sends a second moving image transmission request. When received, the second moving image is read out.
[0022]
  Of the present inventionOf the first sideIn the playback apparatus and method, the recording medium, and the program, the first moving image and the recording medium on which the second moving image in which the first moving image is reduced in resolution and the amount of data is recorded are first And the second moving image are read out. Then, the read first moving image is output to the display device and displayed by the display device. Also, the read second moving image is transmitted to the editing apparatus and used when editing by the editing apparatus. further,The second moving image transmission request is received from the editing apparatus, and an instruction to reproduce the first moving image is received. When an instruction to reproduce the first moving image from a predetermined position is accepted and a transmission request for the second moving image is received, the second moving image and the second moving image are supported. When the first moving image to be read is read, an instruction to reproduce the first moving image from a predetermined position is received, and the transmission request for the second moving image is not received, the received predetermined moving image is received. The first moving image is read from the position.
  In the playback apparatus according to the second aspect of the present invention, the first moving image and the first moving image and the recording medium on which the second moving image in which the first moving image is reduced in resolution and the data amount is recorded are more And the second moving image are read out. Then, the read first moving image is output to the display device and displayed by the display device. Also, the read second moving image is transmitted to the editing apparatus and used when editing by the editing apparatus. Further, the second moving image transmission request is received from the editing apparatus, and an instruction to reproduce the first moving image is received. When an instruction to reproduce the first moving image from a predetermined position is received and a transmission request for the second moving image is received, the second moving image is read and the received position When the first moving image is read from the first moving image, the reproduction instruction of the first moving image from the predetermined position is not received, and the transmission request for the second moving image is received, the second moving image An image is read out.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a diagram showing an embodiment in which the present invention is applied to a disk drive device 1.
[0024]
In FIG. 1, a disc 21 (FIG. 6) in which main line moving image data and a low resolution image file obtained by reducing the resolution of the main line moving image are recorded is inserted into the disk drive device 1. The low resolution image file is a moving image file. When an instruction regarding reproduction of a main video is input from an editor (a user of the non-linear editing machine 3), the disc drive apparatus 1 reads the instructed main video from the inserted disc 21 and sends it to the monitor 4. Display. Further, when the low resolution image transmission request is received from the non-linear editing machine 3, the disk drive device 1 reads the low resolution image from the disk 21 and transmits it to the non-linear editing machine 3 via the communication line 2. Then, the main line moving image corresponding to the low resolution image transmitted to the nonlinear editing machine 3 is read from the disk 21 and displayed on the monitor 4.
[0025]
In the description of the embodiment of the invention, the expressions “low-resolution image corresponding to main line moving image” and “main line moving image corresponding to low-resolution image” are used in the following meanings. A low-resolution image created based on each frame of the main line moving image is recorded on the disk 21. The “low resolution image corresponding to the main moving image” indicates a low resolution image created based on a frame of a certain main moving image. The “main video corresponding to the low-resolution image” indicates a frame of the main video that is the basis for creating the low-resolution image when attention is paid to a certain low-resolution image. The main line moving image and the low resolution image are recorded on the disk 21 by interleaving.
[0026]
The communication line 2 is composed of, for example, IEEE (The Institute of Electrical and Electronics Engineers) 1394, USB (Universal Serial Bus), Ethernet (registered trademark), Bluetooth, or a mobile phone line network, and the disk drive device 1 and non-linear editing. Mediate communication with the machine 3.
[0027]
The nonlinear editing machine 3 acquires a low resolution image from the disk drive device 1 via the communication line 2 and displays the acquired low resolution image. An editor who edits the video inputs an editing operation based on the displayed low-resolution image. The non-linear editing machine 3 performs video editing processing based on the editing operation received from the editor. In addition, the non-linear editing machine 3 includes an instruction to display a main moving image on the monitor 4 by the editor (including instructions for 1 × speed playback, high speed playback (playback faster than 1 × speed), slow playback, and playback stop). Is input, the disk drive device 1 is requested to display the main line moving image on the monitor 4.
[0028]
The monitor 4 displays the main moving image supplied from the disk drive device 1.
[0029]
The disc drive apparatus 1 according to the present invention transmits a low-resolution image file recorded on the disc 21 (FIG. 6) to the nonlinear editing machine 3. The non-linear editing machine 3 uses the low-resolution image acquired from the disk drive device 1 to execute video editing processing. The disk drive device 1 transmits the low-resolution image file to the nonlinear editing machine 3, and then reads the main line moving image from the disk 21 and displays it on the monitor 4. The low-resolution image file has a smaller data amount than the main line moving image data, and therefore, the time required for reading from the disk 21 and transmission to the nonlinear editing machine 3 can be shortened. As a result, the time required for the editor to start editing can be shortened. In addition, after the low resolution image file is transmitted to the non-linear editing machine 3, the main video is read from the disk 21 and displayed on the monitor 4 so that the editor can edit the video with reference to the high resolution video. Is possible.
[0030]
Next, the operation of the disk drive device 1 of FIG. 1 will be described. When the input unit 41 (FIG. 6) is operated and the disc drive apparatus 1 is instructed to play a main video at 1 × speed playback, high-speed playback, slow playback, pause playback, etc., the operation input to the input unit 41 The main line moving image is read from the disk 21 (FIG. 6) and displayed on the monitor 4. In addition, when the input unit 41 (FIG. 6) is operated and the stop of the main video is instructed, the disk drive device 1 is operated from the disk 21 (FIG. 6) according to the operation input to the input unit 41. The main line moving image is read out and displayed on the monitor 4.
[0031]
Next, other operations of the disk drive device 1 of FIG. 1 will be described with reference to FIGS. 2 to 5 respectively show a plurality of examples in which the operation of the disk drive device 1 is different.
[0032]
FIG. 2 is a diagram illustrating an example in which the nonlinear editing machine 3 controls the display of the main line moving image on the monitor 4. In FIG. 2, when the editor inputs an instruction for 1 × speed playback, high speed playback, slow playback, or playback stop of the main video from the editor, in step S 1, the nonlinear editing machine 3 An instruction for 1 × speed playback, slow playback, high speed playback, or playback stop from a predetermined playback position of the main video is transmitted. The disk drive device 1 reads the main video from the inserted disc 21 (FIG. 6) according to the instruction received from the non-linear editing machine 3, and outputs the read main video to the monitor 4 in step S2 (note that the non-linear editing is performed). When the instruction from the machine 3 is to stop the reproduction of the main line moving image, the disk drive device 1 stops reading the main line moving image from the disk 21 (FIG. 6) and the output to the monitor 4).
[0033]
FIG. 3 is a diagram illustrating an example in which the non-linear editing machine 3 acquires a low-resolution image recorded on the disk 21 from the disk drive device 1. In FIG. 3, the non-linear editing machine 3 receives an instruction from the editor to acquire a predetermined low resolution image desired by the editor, and in step S41, the nonlinear editing machine 3 sends the editor to the disk drive device 1. Requests that the low-resolution image specified by is transmitted. Upon receiving the request from the nonlinear editing machine 3 to transmit the low resolution image, the disk drive device 1 reads the requested low resolution image from the inserted disk 21 (FIG. 6), and step S42. Then, the read low-resolution image is transmitted to the nonlinear editing machine 3. The nonlinear editing machine 3 displays the received low resolution image and accepts an editing operation from the editor.
[0034]
FIG. 4 is a diagram illustrating an example in which the disc drive apparatus 1 displays a main line moving image corresponding to a low resolution image transmitted to the nonlinear editing machine 3 on the monitor 4. In FIG. 4, the nonlinear editing machine 3 receives an instruction from the editor to acquire a predetermined low-resolution image desired by the editor, and in step S81, the nonlinear editing machine 3 sends the editor to the disk drive device 1. Requests that the low-resolution image specified by is transmitted. Upon receiving the request from the nonlinear editing machine 3 to transmit the low-resolution image, the disk drive device 1 reads out the requested low-resolution image from the inserted disk 21 (FIG. 6), and step S82. Then, the read low-resolution image is transmitted to the nonlinear editing machine 3. The nonlinear editing machine 3 displays the received low resolution image and accepts an editing operation from the editor. The processing so far is the same as in the case of FIG.
[0035]
After step S82, in step S83, the disk drive device 1 reads the main line moving image corresponding to the low resolution image transmitted to the nonlinear editing machine 3 from the disk 21 (FIG. 6), and outputs it to the monitor 4. As a result, the main line moving image corresponding to the low resolution image transmitted to the nonlinear editing machine 3 is displayed on the monitor 4. The editor can check the details of the high-resolution video by browsing the main line moving image displayed on the monitor 4 and edit it.
[0036]
Thereafter, the input unit 41 (FIG. 6) installed in the disk drive device 1 is operated to instruct high speed playback, slow playback, playback pause, playback stop, etc. of the main video output to the monitor 4. In this case, the disk drive device 1 controls the reading of the main moving image from the disk 21 (FIG. 6) and the output of the main moving image to the monitor 4 in accordance with the operation input to the input unit 41.
[0037]
FIG. 5 is a diagram illustrating an example in which the main drive moving image not corresponding to the low resolution image transmitted to the nonlinear editing machine 3 is displayed on the monitor 4 by the disk drive device 1. In FIG. 5, the nonlinear editing machine 3 receives an instruction from the editor to acquire a predetermined low-resolution image desired by the editor, and in step S121, the nonlinear editing machine 3 sends the editor to the disk drive device 1. Requests that the low-resolution image specified by is transmitted. Upon receiving the request from the nonlinear editing machine 3 to transmit the low resolution image, the disk drive device 1 reads the requested low resolution image from the inserted disk 21 (FIG. 6), and step S122. Then, the read low-resolution image is transmitted to the nonlinear editing machine 3. The nonlinear editing machine 3 displays the received low resolution image and accepts an editing operation from the editor. The processing so far is the same as in the case of FIG.
[0038]
The disk drive device 1 is operated by the input unit 41 (FIG. 6) installed in the disk drive device 1 to accept instructions such as 1 × speed playback, high speed playback, slow playback, and pause of playback of the main video. The main line moving image is read from the disk 21 (FIG. 6), and is output to the monitor 4 in step S123. As a result, the main video that does not correspond to the low resolution image transmitted to the nonlinear editing machine 3 is displayed on the monitor 4. Note that the processing of step S121 and step S122 and the processing of step S123 are not in the above order, and for example, the processing of step S123 may be executed first, and then the processing of step S121 and step S122 may be executed. . Further, during the process of step S123, the process of step S123 may be interrupted and the processes of step S121 and step S122 may be executed.
[0039]
Next, FIG. 6 is a block diagram illustrating an internal configuration example of the disk drive device 1.
[0040]
In FIG. 6, a disk 21 is composed of, for example, an optical disk such as a CD-ROM (Compact Disc-Read Only Memory) or a DVD (Digital Versatile Disc), a magneto-optical disk, or the like. It is recorded. The disk 21 is mounted on the disk drive device 1, and the main line moving image and the low resolution image are read by the disk drive device 1.
[0041]
The input unit 41 of the disk drive device 1 receives an input of an operation from the editor, and notifies the control unit 42 of operation information corresponding to the received operation. In addition, the input unit 41 moves the playback position of the main video, playback, slow playback, pause, and main video playback frame by frame (hereinafter, moving the main video playback position frame by frame is called jog) Any of the operations of high-speed playback and rewind playback (high-speed playback of video back in time series) (hereinafter referred to as high-speed playback and rewind playback of main video). When an operation is input, operation information corresponding to the input operation is transmitted to the location confirmation unit 45.
[0042]
The control unit 42 controls the operation of each unit of the disk drive device 1 according to the operation information from the input unit 41, the information related to the request from the nonlinear editing machine 3 notified from the command analysis unit 44, and a preset program. .
[0043]
The multiplexer / demultiplexer 43 separates predetermined data from the signal received from the non-linear editing machine 3 and supplies it to the command analysis unit 44. The multiplexer / demultiplexer 43 multiplexes the data such as the bucket supplied from the packetizing unit 52 and transmits the multiplexed data to the nonlinear editing machine 3.
[0044]
The command analysis unit 44 analyzes the data supplied from the multiplexer / demultiplexer 43 and identifies the request received from the nonlinear editing machine 3. That is, for example, the command analysis unit 44 receives a request received from the non-linear editing machine 3 for 1-speed playback, high-speed playback, and stop of the main video to the monitor 4 and transmission of a low-resolution image to the non-linear editing machine 3. The request is identified from among the requests, and the identified request is transmitted to the control unit 42.
[0045]
When the request received from the non-linear editing machine 3 is a request for reproducing the main moving image, the command analysis unit 44 identifies the reproduction position of the main moving image and notifies the location confirmation unit 45 of information regarding the identified reproduction position. . When the request received from the non-linear editing machine 3 is a request for transmitting a low-resolution image, the command analysis unit 44 stores the file location of the low-resolution image to be transmitted to the non-linear editing machine 3 (recording position on the disk 21). And the location confirmation unit 45 is notified of information regarding the specified file location.
[0046]
The location confirmation unit 45 determines the reading position of the pickup 49 on the disk 21 based on the notification from the command analysis unit 44 or the input unit 41 and notifies the disk control unit 47 of the determined reading position. Further, the location confirmation unit 45 notifies the buffer control unit 46 of the storage area of the buffer 51 that should be secured for storing the main line moving image read from the disk 21 or the low resolution image.
[0047]
Based on the notification from the location confirmation unit 45, the buffer control unit 46 secures a storage area of the buffer 51 for storing the main line moving image or the low resolution image read from the disk 21.
[0048]
The disk control unit 47 controls the rotation of the spindle motor 48 and the reading position of the pickup 49 based on the reading position notification from the location confirmation unit 45. The spindle motor 48 rotates the disk 21 under the control of the disk control unit 47. The pickup 49 reads data recorded on the disk 21 from a predetermined reading position of the disk 21 under the control of the disk control unit 47 and supplies the data to an ECC (Error Checking and Correction) decoder 50.
[0049]
The ECC decoder 50 detects an error in the data supplied from the pickup 49, and then supplies and stores the error-detected data in the buffer 51.
[0050]
The buffer 51 stores the error-detected data supplied from the ECC decoder 50 in a storage area controlled by the buffer control unit 46, and supplies the data to the packetizing unit 52 or the video decoder 53 as appropriate. The packetizing unit 52 is supplied with low-resolution image data, and the moving picture decoder 53 is supplied with main line moving picture data.
[0051]
The packetizing unit 52 packetizes the low resolution image data supplied from the buffer 51 for packet communication, and supplies the packetized data to the multiplexer / demultiplexer 43.
[0052]
The moving picture decoder 53 decodes the main moving picture data supplied from the buffer 51, outputs it to the monitor 4, and displays it.
[0053]
In the disk drive device 1 of the present invention, the editor can select a desired mode from a plurality of different operation modes by inputting an operation from the input unit 41. In the disk drive device 1, three modes of an independent mode, a follow-up mode, and an automatic mode are prepared in advance as types of modes. The editor can select a desired mode from these three modes by operating the input unit 41.
[0054]
When the independent mode is set, the disk drive device 1 transmits the requested low resolution image to the nonlinear editor 3 when receiving the transmission request for the low resolution image from the nonlinear editor 3. Regardless of the low-resolution image transmitted to the non-linear editing machine 3, the main line moving image instructed by the editor is displayed on the monitor 4. When the independent mode is set, the disk drive device 1 does not display anything on the monitor 4 when an instruction to display the main moving image on the monitor 4 is not input by the editor.
[0055]
When the follow mode is set, when the disk drive device 1 receives a low resolution image transmission request from the nonlinear editing machine 3, it transmits the requested low resolution image to the nonlinear editing machine 3, and at this time, A main moving image corresponding to the low resolution image transmitted to the non-linear editing machine 3 is displayed on the monitor 4.
[0056]
When the automatic mode is set, the disk drive device 1 transmits the requested low resolution image to the non-linear editing machine 3 when receiving a low resolution image transmission request from the non-linear editing machine 3. Regardless of the low-resolution image transmitted to the non-linear editing machine 3, the main line moving image instructed by the editor is displayed on the monitor 4. When the automatic mode is set, the disk drive device 1 does not receive an instruction to display the main video on the monitor 4 by the editor, and receives a low resolution image transmission request from the non-linear editor 3. When this is done, the main line moving image corresponding to the low resolution image to be transmitted to the nonlinear editing machine 3 is displayed on the monitor 4.
[0057]
Next, the independent mode processing of the disk drive device 1 will be described in detail with reference to the flowchart of FIG.
[0058]
In step S <b> 201, the control unit 42 determines whether or not a reproduction command has been input by the editor based on the operation information from the input unit 41, and based on the notification from the command analysis unit 44, the nonlinear editing machine. 3, it is determined whether or not a reproduction command has been received. When a playback command is received from the non-linear editing machine 3, the data is first separated by the multiplexer / demultiplexer 43, and the command analysis unit 44 analyzes the request from the non-linear editing machine 3, and the analysis result (non-linear editing). The content of the request from the machine 3 is notified to the control unit 42. If the control unit 42 determines that a playback command has been input, or if it has determined that a playback command has been received from the nonlinear editing machine 3, the process proceeds to step S202.
[0059]
In step S <b> 202, the control unit 42 determines whether or not a low resolution image file is requested from the nonlinear editing machine 3 based on the notification from the command analysis unit 44, and the low resolution image file is received from the nonlinear editing machine 3. Is requested, the process proceeds to step S203.
[0060]
In step S203, the control unit 42 executes low-resolution image transmission processing. Here, the low-resolution image transmission processing of the disk drive device 1 will be described in detail with reference to the flowchart of FIG.
[0061]
When the command analysis unit 44 analyzes that the transmission of the low resolution image file is requested from the non-linear editing machine 3, the command analysis unit 44 sends specific information for specifying the requested low resolution image file to the location confirmation unit 45. Notice. 8, the location confirmation unit 45 determines the reading position of the low resolution image file on the disk 21 by the pickup 49 based on the notification from the command analysis unit 44 and notifies the disk control unit 47 of the position. At the same time, the buffer control unit 46 is notified of the storage area to be secured in the buffer 51.
[0062]
In step S232, the buffer control unit 46 secures a storage area for the low-resolution image file in the buffer 51 based on the notification from the location confirmation unit 45.
[0063]
In step S233, the disk control unit 47 controls the spindle motor 48 and the pickup 49 based on the notification of the reading position from the location confirmation unit 45, and the pickup 49 receives the low resolution from the reading position determined in step S231. Read the image file.
[0064]
In step S234, the ECC decoder 50 performs error detection on the data of the low resolution image file read by the pickup 49 in step S233. In step S <b> 235, the buffer control unit 46 stores the data of the low resolution image file for which the error has been detected by the ECC decoder 50 in the storage area of the buffer 51 secured in advance.
[0065]
In step S236, the packetizing unit 52 reads the low resolution image file stored in the buffer 51 in step S235 from the buffer 51, and creates a packet for transmitting the low resolution image file to the nonlinear editing machine 3.
[0066]
In step S237, the multiplexer / demultiplexer 43 transmits the packet including the low resolution image file created by the packetizing unit 52 to the nonlinear editing machine 3 via the communication line 2.
[0067]
Thus, the low resolution image transmission process of the disk drive device 1 is completed.
[0068]
Returning to FIG. 7, after the low-resolution image transmission processing in step S203, the processing proceeds to step S204.
[0069]
In step S202 of FIG. 7, when the control unit 42 determines that the low-resolution image file is not requested from the nonlinear editing machine 3, the process of step S203 is skipped, and the process proceeds to step S204.
[0070]
First, in step S201, since the control unit 42 determines that a playback command has been input, the disk drive device 1 then plays back the main video. That is, in step S204, the location confirmation unit 45 first reads the main moving image reading position on the disc 21 by the pickup 49 based on the operation information input from the input unit 41 or the notification of the playback command from the command analysis unit 44. Is notified to the disk control unit 47, and the storage area to be secured in the buffer 51 is notified to the buffer control unit 46.
[0071]
In step S <b> 205, the control unit 42 controls each unit of the disk drive device 1 and executes main line moving image output processing. Here, the main line moving image output process of the disk drive device 1 will be described in detail with reference to the flowchart of FIG.
[0072]
In step S261 in FIG. 9, the buffer control unit 46 secures a main line moving image data storage area in the buffer 51 based on the notification from the location confirmation unit 45.
[0073]
In step S262, the disk control unit 47 controls the spindle motor 48 and the pickup 49 based on the notification of the reading position from the location confirmation unit 45 in step S204 of FIG. 7, and the pickup 49 is notified of the reading position notified. The main line moving image data is read out.
[0074]
In step S263, the ECC decoder 50 detects an error in the main line moving image data read by the pickup 49 in step S262. In step S 264, the buffer control unit 46 stores the main line moving image data for which the error has been detected by the ECC decoder 50 in the storage area of the buffer 51 secured in advance.
[0075]
In step S265, the moving picture decoder 53 reads the main line moving picture data stored in the buffer 51 in step S264 and decodes it. The main moving image data is encoded according to, for example, MPEG (Moving Picture Experts Group) 2 standard and recorded on the disk 21. Accordingly, in this case, the moving image decoder 53 decodes the main moving image data in accordance with the MPEG2 standard.
[0076]
In step S266, the moving picture decoder 53 outputs the decoded main moving picture to the monitor 4. The monitor 4 displays the main line moving image output from the moving image decoder 53.
[0077]
When the main video output process of the disk drive device 1 is completed as described above, the process proceeds to step S206 in FIG.
[0078]
In step S206, the control unit 42 determines whether or not a playback command has been input by the editor based on the operation information from the input unit 41, and based on the notification from the command analysis unit 44, the nonlinear editing machine. 3, it is determined whether or not a reproduction command has been received. If the control unit 42 determines that a playback command has been input, or determines that a playback command has been received from the nonlinear editing machine 3, the process returns to step S202, and the processes in and after step S202 are repeatedly executed. Is done.
[0079]
In step S206, when the control unit 42 determines that no reproduction command is input and no reproduction command is received from the nonlinear editing machine 3, the process proceeds to step S207.
[0080]
In step S207, the control unit 42 determines whether or not a stop command has been input by the editor based on the operation information from the input unit 41, and based on the notification from the command analysis unit 44, the nonlinear editing machine. 3 determines whether a stop command has been received. The stop command is a command for ending the display of the main moving image on the monitor 4. If the control unit 42 determines that a stop command has been input, or if it is determined that a stop command has been received from the nonlinear editing machine 3, the process returns to step S201, and the processes after step S201 are repeatedly executed. Is done. Accordingly, the display of the main line moving image on the monitor 4 is stopped.
[0081]
In step S207, when the control unit 42 determines that no stop command is input and no stop command is received from the nonlinear editing machine 3, the process proceeds to step S208.
[0082]
In step S208, the control unit 42 determines whether or not a low resolution image file is requested from the nonlinear editing machine 3 based on the notification from the command analysis unit 44, and the low resolution image file is received from the nonlinear editing machine 3. Is requested, the process proceeds to step S209. In step S209, the control unit 42 controls each unit of the disk drive device 1 and executes the low-resolution image transmission process of FIG. Thereafter, the process returns to step S205, and the processes after step S205 are repeatedly executed. As a result, the display of the main line moving image on the monitor 4 is repeated.
[0083]
In step S208, when the control unit 42 determines that the low-resolution image file is not requested from the nonlinear editing machine 3, the process returns to step S205, and the processes after step S205 are repeatedly executed. As a result, the display of the main line moving image on the monitor 4 is repeated.
[0084]
In the process of step S205 that is repeatedly executed after the process of step S208 or after the process of step S209, the main line moving image data read position is the same as the read position in the previously executed process of step S205. It may be a reading position, or may be a reading position of main moving image data following the main moving image data read in the processing of step S205 executed last time in time series.
[0085]
In the processing of step S205 that is repeatedly executed, when the reading position of the main moving image data is the same as the reading position in the processing of step S205 that was executed last time, the reading position determined in step S204 is used. The main moving image data in the same section is repeatedly read out, and the main moving image data in the same section is repeatedly displayed on the monitor 4. In the processing of step S205 that is repeatedly executed, the main video data reading position is set to be the main video data reading position following the main video data read in the previous step S205 in time series. In this case, the main video is displayed on the monitor 4 in chronological order following the main video displayed on the previous monitor 4.
[0086]
In step S201, when the control unit 42 determines that no reproduction command is input and no reproduction command is received from the nonlinear editing machine 3, the process proceeds to step S210.
[0087]
In step S <b> 210, the control unit 42 determines whether or not a low resolution image file is requested from the nonlinear editing machine 3 based on the notification from the command analysis unit 44, and the low resolution image file is received from the nonlinear editing machine 3. Is requested, the process proceeds to step S211. In step S211, the control unit 42 controls each unit of the disk drive device 1 and executes the low-resolution image transmission process of FIG. Thereafter, the process returns to step S201, and the processes after step S201 are repeatedly executed.
[0088]
In step S210, when the control unit 42 determines that the low-resolution image file is not requested from the nonlinear editing machine 3, the process returns to step S201, and the processes after step S201 are repeatedly executed.
[0089]
As described above, the independent mode processing of the disk drive device 1 is executed. According to the independent mode processing, the editor can edit the video while confirming on the monitor 4 the main line moving image that does not correspond to the low resolution image used for the editing operation in the nonlinear editing machine 3.
[0090]
In the above description, the process after step S203 is described after the process of step S203 is completed. However, the process after step S204 is performed before the process of step S203 is completed. You may start. That is, when the process of step S235 in the low-resolution image transmission process of step S203 is completed, the process after step S204 may be executed concurrently with the process after step S236.
[0091]
Next, the following mode process of the disk drive device 1 will be described with reference to the flowchart of FIG.
[0092]
In step S301 of FIG. 10, the control unit 42 determines whether or not a low resolution image file is requested from the nonlinear editing machine 3 based on the notification from the command analysis unit 44. If a resolution image file is requested, the process proceeds to step S302. In step S302, the control unit 42 controls each unit of the disk drive device 1 and executes the low-resolution image transmission process of FIG. Thereafter, the process proceeds to step S303.
[0093]
In step S303, the control unit 42 determines the main video data reading position corresponding to the low resolution image file transmitted to the nonlinear editing machine 3 in step S302. Here, with reference to FIG. 11 and FIG. 12, the principle of determining the main moving image data reading position corresponding to the low resolution image file will be described.
[0094]
The disk 21 stores a main line moving image, a low resolution image corresponding to the main line moving image, and a table representing a correspondence relationship between the main line moving image and the low resolution image. FIG. 11 shows the correspondence between the main video recorded on the disk 21 and the low resolution image. On the left side of FIG. 11, “low resolution image”, “main line moving image”, and “time code” are written in order from the top. The rectangles divided into four pieces on the right side of the position labeled “low resolution image” each represent a low resolution image file. Here, in order to distinguish each file, each of the four low-resolution image files will be described as m, m + 1, m + 2, and m + 3 in order from the left as shown in the figure. In FIG. 11, for convenience of explanation, four low-resolution image files are described as an example. However, in actuality, the number of low-resolution image files is not limited to four.
[0095]
In FIG. 11, “main line moving image” is written below the position labeled “low resolution image”. The rectangles divided into 20 on the right side of the position marked “main line moving image” represent the frames of the main line moving image. Here, in order to distinguish individual frames, as shown in the figure, each of the 20 frames will be described as n to n + 19 in order from the left side. In FIG. 11, for convenience of explanation, 20 frames are described as an example. However, in practice, the number of frames of the main moving image is not limited to 20.
[0096]
In FIG. 11, “time code” is written below the position marked “main line moving image”. The rectangles divided into 20 pieces on the right side of the position marked “time code” represent time codes corresponding to n to n + 19 main line moving image frames, respectively. Here, in order to distinguish the individual time codes, each of the 20 time codes is described as t to t + 19 in order from the left as shown in the figure.
[0097]
In FIG. 11, a low-resolution image file m is composed of low-resolution image data corresponding to frames n to n + 4 of the main moving image. The low-resolution image file m + 1 is composed of low-resolution image data corresponding to frames n + 5 to n + 9 of the main moving image. The low-resolution image file m + 2 includes low-resolution image data corresponding to frames n + 10 to n + 14 of the main moving image. The low-resolution image file m + 3 includes low-resolution image data corresponding to frames n + 15 to n + 19 of the main moving image.
[0098]
As indicated by arrows in FIG. 11, the main moving image frame n (time code t) is associated with the low-resolution image file m, and the main moving image frame n + 5 (time) is associated with the low-resolution image file m + 1. Code t + 5) is associated with the low resolution image file m + 2 and the main moving image frame n + 10 (time code t + 10) is associated with the low resolution image file m + 3 with the main moving image frame n + 15 (time code t + 15). ) Is stored in the disk 21. An example of the table stored in the disk 21 is shown in FIG.
[0099]
In the table of FIG. 12, the low-resolution image files m, m + 1, m + 2, and m + 3 shown in FIG. 11 are shown in order from the top in the left column. In the center column of FIG. 12, the time codes t, t + 5, t + 9, and t + 14 of the main line moving image frames corresponding to the low resolution image file are shown in order from the top. In the right column of FIG. 12, sector addresses on the disk 21 on which files of low resolution images are recorded are shown.
[0100]
For example, when transmission of the file m of the low resolution image is requested from the non-linear editing machine 3, the disk drive device 1 identifies the sector corresponding to the file m by referring to the table of FIG. The file m is read out and transmitted to the nonlinear editing machine 3. Then, the disk drive device 1 refers to the table of FIG. 12, identifies the time code t corresponding to the file m, reads the frames after the position of the time code t, that is, frames n to n + 4 from the disk 21, It is displayed on the monitor 4.
[0101]
Further, for example, when the non-linear editing machine 3 requests transmission of the file m + 1 of the low resolution image, the disk drive device 1 identifies the sector corresponding to the file m + 1 by referring to the table of FIG. The file m + 1 is read from the sector thus transmitted and transmitted to the nonlinear editing machine 3. Then, the disk drive device 1 refers to the table of FIG. 12, specifies the time code t + 5 corresponding to the file m + 1, reads the frames after the position of the time code t + 5, that is, frames n + 5 to n + 9 from the disk 21, It is displayed on the monitor 4.
[0102]
Further, for example, when the non-linear editing machine 3 requests transmission of the file m + 2 of the low resolution image, the disk drive device 1 specifies the sector corresponding to the file m + 2 by referring to the table of FIG. The file m + 2 is read from the sector thus transmitted and transmitted to the nonlinear editing machine 3. Then, the disk drive device 1 refers to the table of FIG. 12, specifies the time code t + 10 corresponding to the file m + 2, reads the frames after the position of the time code t + 10, that is, the frames n + 10 to n + 14 from the disk 21, It is displayed on the monitor 4.
[0103]
Furthermore, for example, when the non-linear editing machine 3 requests transmission of the file m + 3 of the low resolution image, the disk drive device 1 identifies the sector corresponding to the file m + 3 with reference to the table of FIG. The file m + 3 is read from the specified sector and transmitted to the non-linear editing machine 3. Then, the disk drive device 1 refers to the table of FIG. 12, specifies the time code t + 15 corresponding to the file m + 3, reads the frames after the position of the time code t + 15, that is, frames n + 15 to n + 19 from the disk 21, It is displayed on the monitor 4.
[0104]
As described above, the table in FIG. 12 is used for specifying the readout position of the low-resolution image (sector in which the low-resolution image is recorded) and the main video frame (time code) corresponding to the low-resolution image. Is done. When the disk 21 is inserted into the disk drive device 1, the control unit 42 controls each unit of the disk drive device 1 to acquire and hold the table of FIG. 12. For example, it is used for the process of step S303.
[0105]
Returning to the flowchart of FIG. 10, in step S303, the control unit 42 shows the main video data reading position (time code) corresponding to the low resolution image file transmitted to the nonlinear editing machine 3 in step S302 in FIG. Refer to the table to be determined.
[0106]
After the process of step S303, in step S304, the control unit 42 controls each unit of the disk drive device 1 and executes the main line moving image output process of FIG. In step S <b> 304, the control unit 42 reads the main line moving image from the reading position determined in step S <b> 303 and outputs it to the monitor 4.
[0107]
After the processing in step S304, in step S305, the control unit 42 determines whether or not a playback command has been input by the editor based on the operation information from the input unit 41, and notifies the command analysis unit 44 of the determination. Based on the above, it is determined whether or not a reproduction command has been received from the nonlinear editing machine 3. If the control unit 42 determines that a playback command has been input, or if it has determined that a playback command has been received from the nonlinear editing machine 3, the process proceeds to step S309 described later.
[0108]
In step S305, when the control unit 42 determines that no reproduction command is input and no reproduction command is received from the nonlinear editing machine 3, the process proceeds to step S306.
[0109]
In step S306, the control unit 42 determines whether or not a stop command has been input by the editor based on the operation information from the input unit 41, and based on the notification from the command analysis unit 44, the nonlinear editing machine. 3 determines whether or not a stop command has been received, and if a stop command is input or if a stop command is received from the nonlinear editing machine 3, the process returns to step S 301, and after step S 301. The process is executed repeatedly. Accordingly, the display of the main line moving image on the monitor 4 is stopped.
[0110]
If the control unit 42 determines in step S306 that no stop command has been input and no stop command has been received from the nonlinear editing machine 3, the process proceeds to step S307.
[0111]
In step S307, the control unit 42 determines whether or not a low resolution image file is requested from the nonlinear editing machine 3 based on the notification from the command analysis unit 44, and the low resolution image file is received from the nonlinear editing machine 3. Is requested, the process returns to step S302, and the processes after step S302 are repeatedly executed. As a result, the requested low-resolution image file is transmitted to the non-linear editing machine 3, and a main moving image corresponding to the low-resolution image file transmitted to the non-linear editing machine 3 is displayed on the monitor 4.
[0112]
In step S307, when the control unit 42 determines that the low-resolution image file is not requested from the nonlinear editing machine 3, the process returns to step S304, and the processes after step S304 are repeatedly executed. As a result, the main line moving image corresponding to the low-resolution image transmitted to the nonlinear editing machine 3 is repeatedly displayed on the monitor 4.
[0113]
Note that, in the process of step S304 that is repeatedly executed after the process of step S307, the main line moving image data read position may be the same as the read position in the previously executed process of step S304. Alternatively, it may be the main video data read position following the main video data read in the process of step S304 executed last time in time series.
[0114]
In the repeatedly executed process of step S304, when the main line moving image data read position is the same as the read position in the previously executed step S304, the read position determined in step S303 is used. The main moving image data in the same section is repeatedly read out, and the main moving image data in the same section is repeatedly displayed on the monitor 4. In the processing of step S304 that is repeatedly executed, the main video data reading position is set to be the main video data reading position following the main video data read in the previous processing of step S304 in time series. In this case, the main video is displayed on the monitor 4 in chronological order following the main video displayed on the previous monitor 4.
[0115]
In step S301, when the control unit 42 determines that a low resolution image file is not requested from the nonlinear editing machine 3, the process proceeds to step S308.
[0116]
In step S308, the control unit 42 determines whether or not a playback command has been input by the editor based on the operation information from the input unit 41, and based on the notification from the command analysis unit 44, the nonlinear editing machine. 3, it is determined whether or not a reproduction command has been received. If the control unit 42 does not determine that a playback command has been input and does not determine that a playback command has been received from the non-linear editing machine 3, the process returns to step S301, and the processes after step S301 are performed. Repeatedly executed.
[0117]
If the control unit 42 determines in step S308 that a playback command has been input, or if it is determined that a playback command has been received from the nonlinear editing machine 3, the process proceeds to step S309.
[0118]
In step S309, the location confirmation unit 45 determines the read position of the main video data on the disk 21 by the pickup 49 based on the notification from the command analysis unit 44, notifies the disk control unit 47, and notifies the buffer control unit. 46, the storage area to be secured in the buffer 51 is notified.
[0119]
In step S310, the control unit 42 controls each unit of the disk drive device 1 and executes the main line moving image output process of FIG. In step S310, the main moving image is read from the reading position determined in step S309 and output to the monitor 4.
[0120]
After the processing in step S310, in step S311, the control unit 42 determines whether or not a playback command has been input by the editor based on the operation information from the input unit 41, and also notifies the command analysis unit 44. Based on the above, it is determined whether or not a reproduction command has been received from the nonlinear editing machine 3. When the control unit 42 determines that a playback command has been input, or when it has determined that a playback command has been received from the nonlinear editing machine 3, the process returns to step S309, and the processes after step S309 are repeatedly executed. Is done.
[0121]
In step S311, when the control unit 42 determines that no playback command is input and no playback command is received from the nonlinear editing machine 3, the process proceeds to step S312.
[0122]
In step S312, the control unit 42 determines whether or not a stop command has been input by the editor based on the operation information from the input unit 41, and based on the notification from the command analysis unit 44, the nonlinear editing machine. 3 determines whether a stop command has been received. If the control unit 42 determines that a stop command has been input, or if it is determined that a stop command has been received from the nonlinear editing machine 3, the process returns to step S301, and the processes after step S301 are repeatedly executed. Is done. Accordingly, the display of the main line moving image on the monitor 4 is stopped.
[0123]
In step S312, when the control unit 42 determines that no stop command is input and no stop command is received from the nonlinear editing machine 3, the process proceeds to step S313.
[0124]
In step S313, the control unit 42 determines whether or not a low resolution image file is requested from the nonlinear editing machine 3 based on the notification from the command analysis unit 44, and the low resolution image file is received from the nonlinear editing machine 3. Is requested, the process returns to step S302, and the processes after step S302 are repeatedly executed.
[0125]
In step S313, when the control unit 42 determines that the low-resolution image file is not requested from the nonlinear editing machine 3, the process returns to step S310, and the processes after step S310 are repeatedly executed. As a result, the display of the main line moving image on the monitor 4 is repeated.
[0126]
In the process of step S310 that is repeatedly executed after the process of step S313, the main line moving image data read position may be the same as the read position in the previously executed process of step S310. Alternatively, it may be the main video data reading position following the main video data read in the processing of step S310 executed last time in time series.
[0127]
In the repeatedly executed process of step S310, when the main line moving image data read position is the same as the read position in the previously executed process of step S310, the read position determined in step S309 is used. The main moving image data in the same section is repeatedly read out, and the main moving image data in the same section is repeatedly displayed on the monitor 4. In the process of step S310 that is repeatedly executed, the main video data read position is set to be the main video data read position following the main video data read in the previous step S310 in time series. In this case, the main video is displayed on the monitor 4 in chronological order following the main video displayed on the previous monitor 4.
[0128]
This is the end of the description of the tracking mode processing of the disk drive device 1. According to the follow-up mode process, the main line moving image corresponding to the low resolution image transmitted to the non-linear editing machine 3 is automatically displayed on the monitor 4, so the editor needs to specify the reproduction of the main line moving image. Absent. In addition, the editor can edit the video by using the low-resolution video in the nonlinear editing machine 3 while confirming the details of the video by the main line moving image automatically displayed on the monitor 4. . In addition, when the main video corresponding to the low-resolution image transmitted to the non-linear editing machine 3 is automatically displayed, the editor operates the input unit 41 or plays back via the non-linear editing machine 3. By inputting the operation, the reproduction position of the main moving image displayed on the monitor 4 can be moved, so that the desired main moving image can be displayed on the monitor 4 in a short time.
[0129]
Next, automatic mode processing of the disk drive device 1 will be described with reference to the flowchart of FIG. Note that the processing from step S351 to step S361 is the same as the processing from step S201 to step S211 in the independent mode processing of FIG.
[0130]
That is, in step S351, the control unit 42 determines whether or not a playback command has been input by the editor based on the operation information from the input unit 41, and based on the notification from the command analysis unit 44, the nonlinearity. It is determined whether or not a playback command has been received from the editing machine 3. If the control unit 42 determines that a playback command has been input, or determines that a playback command has been received from the nonlinear editing machine 3, the process proceeds to step S352.
[0131]
In step S352, the control unit 42 determines whether or not a low resolution image file is requested from the nonlinear editing machine 3 based on the notification from the command analysis unit 44, and the low resolution image file is received from the nonlinear editing machine 3. Is requested, the process proceeds to step S353. In step S353, the control unit 42 executes the low resolution image transmission process of FIG. After the process of step S353, the process proceeds to step S354.
[0132]
In step S352, when the control unit 42 determines that the low-resolution image file is not requested from the nonlinear editing machine 3, the process of step S353 is skipped, and the process proceeds to step S354.
[0133]
In step S354, the location confirmation unit 45 determines the read position of the main moving image on the disk 21 by the pickup 49 based on the notification from the command analysis unit 44, notifies the disk control unit 47, and notifies the buffer control unit 46. In addition, the storage area to be secured in the buffer 51 is notified. In step S355, the control unit 42 controls each unit of the disk drive device 1 and executes the main line moving image output process of FIG. In step S355, the main line moving image is read from the reading position determined in step S354.
[0134]
After the process of step S355, in step S356, the control unit 42 determines whether or not a reproduction command has been input by the editor based on the operation information from the input unit 41, and notifies the command analysis unit 44 of the determination. Based on the above, it is determined whether or not a playback command has been received from the non-linear editing machine 3. If a playback command has been input, or if a playback command has been received from the non-linear editing machine 3, the process proceeds to step S352. Returning to step S352, the processes after step S352 are repeatedly executed. In step S356, when the control unit 42 determines that no playback command is input and no playback command is received from the nonlinear editing machine 3, the process proceeds to step S357.
[0135]
In step S357, the control unit 42 determines whether or not a stop command has been input by the editor based on the operation information from the input unit 41, and based on the notification from the command analysis unit 44, the nonlinear editing machine. 3 determines whether or not a stop command has been received, and if a stop command is input or if a stop command is received from the nonlinear editing machine 3, the process returns to step S351, and after step S351. The process is executed repeatedly. Accordingly, the display of the main line moving image on the monitor 4 is stopped. In step S357, when the control unit 42 determines that the stop command is not input and the stop command is not received from the nonlinear editing machine 3, the process proceeds to step S358.
[0136]
In step S358, the control unit 42 determines whether or not a low resolution image file is requested from the nonlinear editing machine 3 based on the notification from the command analysis unit 44, and the low resolution image file is received from the nonlinear editing machine 3. Is requested, the process proceeds to step S359. In step S359, the control unit 42 controls each unit of the disk drive device 1 and executes the low-resolution image transmission process of FIG. Thereafter, the process returns to step S355, and the processes after step S355 are repeatedly executed. In step S358, when the control unit 42 determines that the low-resolution image file is not requested from the nonlinear editing machine 3, the process returns to step S355, and the processes after step S355 are repeatedly executed.
[0137]
In step S351, when the control unit 42 determines that the reproduction command is not input and determines that the reproduction command is not received from the nonlinear editing machine 3, the process proceeds to step S360. In step S360, the control unit 42 determines whether or not a low resolution image file is requested from the nonlinear editing machine 3 based on the notification from the command analysis unit 44, and the low resolution image file is received from the nonlinear editing machine 3. Is not requested, the process returns to step S351, and the processes after step S351 are repeatedly executed. If the control unit 42 determines in step S360 that a low resolution image file has been requested from the nonlinear editing machine 3, the process proceeds to step S361.
[0138]
In step S361, the control unit 42 executes the low resolution image transmission process of FIG. The processing so far is the same as the independent mode processing of FIG. After the process of step S361, the process proceeds to step S362.
[0139]
In step S362, the location confirmation unit 45 refers to the table in FIG. 12, determines the main video reading position on the disk 21 corresponding to the low resolution image transmitted to the nonlinear editing machine 3 in step S361, and performs disk control. Notify the unit 47 and notify the buffer control unit 46 of the storage area to be secured in the buffer 51. In step S363, the control unit 42 controls each unit of the disk drive device 1 and executes the main line moving image output process of FIG. In step S363, the main line moving image is read from the reading position determined in step S362.
[0140]
After the processing in step S363, in step S364, the control unit 42 determines whether or not a reproduction command has been input by the editor based on the operation information from the input unit 41, and also notifies the command analysis unit 44. Based on the above, it is determined whether or not a playback command has been received from the non-linear editing machine 3. If a playback command has been input, or if a playback command has been received from the non-linear editing machine 3, the process proceeds to step S352. Returning to step S352, the processes after step S352 are repeatedly executed. In step S364, when the control unit 42 determines that no reproduction command is input and no reproduction command is received from the nonlinear editing machine 3, the process proceeds to step S365.
[0141]
In step S365, the control unit 42 determines whether or not a stop command has been input by the editor based on the operation information from the input unit 41, and based on the notification from the command analysis unit 44, the nonlinear editing machine. 3 determines whether or not a stop command has been received, and if a stop command is input or if a stop command is received from the nonlinear editing machine 3, the process returns to step S351, and after step S351. The process is executed repeatedly. Accordingly, the display of the main line moving image on the monitor 4 is stopped. In step S365, when the control unit 42 determines that no stop command is input and no stop command is received from the nonlinear editing machine 3, the process proceeds to step S366.
[0142]
In step S366, the control unit 42 determines whether or not a low resolution image file is requested from the nonlinear editing machine 3 based on the notification from the command analysis unit 44, and the low resolution image file is received from the nonlinear editing machine 3. Is requested, the process returns to step S361, and the processes after step S361 are repeatedly executed. In step S366, when the control unit 42 determines that the low-resolution image file is not requested from the nonlinear editing machine 3, the process returns to step S363, and the processes after step S363 are repeatedly executed. As a result, the display of the main line moving image on the monitor 4 is repeated.
[0143]
In the process of step S363 that is repeatedly executed after the process of step S366, the main line moving image data read position may be the same as the read position in the previously executed process of step S363. Alternatively, it may be the main video data reading position following the main video data read in the processing of step S363 executed last time in time series.
[0144]
In the repeatedly executed process of step S363, when the main video data read position is the same as the read position in the previously executed step S363, the read position determined in step S362 is used. The main moving image data in the same section is repeatedly read out, and the main moving image data in the same section is repeatedly displayed on the monitor 4. In the repetitively executed processing of step S363, the main video data reading position is set to be the main video data reading position following the main video data read in the previously executed step S363 in time series. In this case, the main video is displayed on the monitor 4 in chronological order following the main video displayed on the previous monitor 4.
[0145]
This is the end of the description of the automatic mode processing of the disk drive device 1. According to the automatic mode processing, when the reproduction of the main video is instructed by the editor, the instructed main video is displayed on the monitor 4. Further, when the editor has not instructed the reproduction of the main video, when the low-resolution image is requested to be transmitted from the non-linear editing machine 3, the requested low-resolution image is transmitted to the non-linear editing machine 3 and transmitted. The main moving image corresponding to the low-resolution image is displayed on the monitor 4. Therefore, when necessary, the editor can check the main video that does not correspond to the low-resolution image used in the nonlinear editing machine 3 on the monitor 4, and does not specify the display of the main video. Sometimes, it is possible to confirm on the monitor 4 a main moving image corresponding to a low resolution image used in the nonlinear editing machine 3.
[0146]
As described above, according to the disk drive device 1 to which the present invention is applied, the video to be transmitted to the nonlinear editing machine 3 is a low-resolution image file having a smaller data amount than the main video, so that the disk can be transmitted in a short time. The reading of the file from the file 21 and the transmission of the file to the nonlinear editing machine 3 can be completed. Even if the communication means between the disk drive device 1 and the non-linear editing machine 3 is a communication means with a low communication rate such as Bluetooth, data communication can be completed in a short time. As a result, the editor can perform editing work without delay.
[0147]
Further, the main video corresponding to the low-resolution image transmitted to the non-linear editing machine 3 or the main video specified by the editor is displayed on the monitor 4, so that the editor can view the details of the video using the high-resolution main video. The video can be edited while confirming. In this way, it is possible to improve the operability during editing by reducing the time required to start the editing operation and displaying a high-resolution video.
[0148]
Further, as described above, the editor can select a desired operation mode by enabling different operations by setting the independent mode, the follow-up mode, and the automatic mode. Therefore, the operability during editing can be further improved.
[0149]
Further, when creating an EDL (Edit Decision List) for only simple cut editing in the non-linear editing machine 3, it is not necessary to transmit main line moving picture data from the disk drive device 1 to the non-linear editing machine 3, and therefore, editing work is required. The time can be remarkably shortened and the amount of data to be stored in the nonlinear editing machine 3 can be reduced.
[0150]
Further, since the non-linear editing machine 3 does not need to display main line moving image data, the amount of electricity consumed by the non-linear editing machine 3 can be reduced. For this reason, even a battery-driven non-linear editing machine or a non-linear editing machine that does not have sufficient processing capability to process main video data can be used to edit video.
[0151]
Further, since the amount of data of the low resolution image file is small, even if the disk drive device 1 and the monitor 4 and the non-linear editing machine 3 are installed at a remote place, the disk drive device 1 can be connected via the network such as the Internet. The low-resolution file can be transmitted to the non-linear editing machine 3 and the non-linear editing machine 3 can perform editing processing.
[0152]
Further, since the low resolution image file can be read from the disk 21 as a general data file, the non-linear editing machine 3 can handle the low resolution image file as a normal data file.
[0153]
Also, the playback position of the main moving image can be specified from the non-linear editing machine 3, but it can be specified by operating the input unit 41 of the disk drive device 1, and therefore the main video position cannot be specified. Even when the general-purpose nonlinear editing machine 3 is used, the editor can cause the monitor 4 to display the main video from the desired reproduction position.
[0154]
The series of processes described above can be executed by hardware, but can also be executed by software. In this case, the disk drive device 1 is constituted by a general-purpose personal computer 500 as shown in FIG.
[0155]
In FIG. 14, a CPU (Central Processing Unit) 501 executes various processes according to a program stored in a ROM (Read Only Memory) 502 or a program loaded from a storage unit 509 to a RAM (Random Access Memory) 503. To do. The RAM 503 also appropriately stores data necessary for the CPU 501 to execute various processes.
[0156]
The CPU 501, ROM 502, and RAM 503 are connected to each other via a bus 504. An input / output interface 505 is also connected to the bus 504.
[0157]
The input / output interface 505 includes an operation unit 506 including a keyboard and a mouse, a speaker, and the like. A sound output unit 507 that outputs sound, a display 508 including an LCD (Liquid Crystal Display), a CRT (Cathode Ray Tube), and the like. A storage unit 509 configured by a hard disk or the like and a communication unit 510 configured by a modem, a terminal adapter, or the like are connected. The communication unit 510 performs communication processing via a network including the Internet.
[0158]
A drive 511 is connected to the input / output interface 505 as necessary, and a magnetic disk 521, an optical disk 522, a magneto-optical disk 523, a semiconductor memory 524, or the like is appropriately mounted, and a computer program read therefrom is It is installed in the storage unit 509 as necessary.
[0159]
When a series of processing is executed by software, a program constituting the software may execute various functions by installing a computer incorporated in dedicated hardware or various programs. For example, it is installed from a network or a recording medium into a general-purpose personal computer or the like.
[0160]
As shown in FIG. 14, the recording medium is distributed to supply a program to the user separately from the apparatus main body, and a magnetic disk 521 (including a flexible disk) on which the program is stored, an optical disk 522 ( (Including CD-ROM, DVD), magneto-optical disk 523 (including MD (Mini-Disk)), or a package medium composed of a semiconductor memory 524, etc. A ROM 502 that stores programs supplied to the user and a hard disk included in the storage unit 509 are configured.
[0161]
In addition, the program may be stored in the recording medium using a wired or wireless communication medium such as a local area network, the Internet, or digital satellite broadcasting via the communication unit 510 as necessary.
[0162]
In this specification, the steps for describing the program provided by the medium are performed in parallel or individually in accordance with the described order, as well as the processing performed in time series, not necessarily in time series. The process to be executed is also included.
[0163]
Further, in this specification, the system represents the entire apparatus constituted by a plurality of apparatuses.
[0164]
【The invention's effect】
As described above, according to the present invention, it is possible for an editor to perform an editing operation using a low-resolution video.
[0165]
Furthermore, according to the present invention, it is possible to shorten the time until the editing work is started and to display a high-resolution video. Therefore, since the time until the entire editing operation is completed can be shortened, it is possible to execute video editing by a nonlinear editing machine even in a situation where video editing must be performed in a short time. In addition, the editor can perform editing work with reference to the high-resolution video.
[0166]
Furthermore, according to the present invention, even when the communication means with the non-linear editing machine is a communication means with a low communication rate, transmission of the video to be edited can be completed in a short time. As a result, the editor can perform the editing work without delay.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration example of an editing system to which the present invention is applied.
FIG. 2 is a diagram for explaining an operation example of the editing system of FIG. 1;
FIG. 3 is another diagram for explaining an operation example of the editing system of FIG. 1;
FIG. 4 is still another diagram for explaining an operation example of the editing system in FIG. 1;
FIG. 5 is a diagram for explaining an operation example of the editing system of FIG. 1;
6 is a block diagram showing an example of the internal configuration of the disk drive device of FIG. 1. FIG.
FIG. 7 is a flowchart illustrating independent mode processing of the disk drive device.
FIG. 8 is a flowchart illustrating low-resolution image transmission processing of the disk drive device.
FIG. 9 is a flowchart illustrating main video output processing of the disk drive device.
FIG. 10 is a flowchart for explaining follow-up mode processing of the disk drive device.
FIG. 11 is a diagram for explaining the principle of detection of a main video corresponding to a low-resolution video.
FIG. 12 is a diagram showing an example of a table recorded on a disc.
FIG. 13 is a flowchart illustrating automatic mode processing of the disk drive device.
FIG. 14 is a block diagram illustrating a configuration example of a personal computer to which the present invention is applied.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Disk drive apparatus, 2 Communication line, 3 Non-linear editing machine, 4 Monitor, 21 Disk, 41 Input part, 42 Control part, 43 Multiplexer / demultiplexer, 44 Command analysis part, 45 Location confirmation part, 46 Buffer control part, 47 Disk controller, 48 spindle motor, 49 pickup, 50 ECC decoder, 51 buffer, 52 packetizer, 53 video decoder

Claims (7)

In a playback apparatus for playing back a recording medium on which a first moving image and a second moving image in which the first moving image has a low resolution are recorded,
A reading means for reading the first moving image and the second moving image from the recording medium;
Output means for outputting the first moving image read by the reading means to a display device for displaying the first moving image;
Transmitting means for transmitting the second moving image read by the reading means to an editing device for editing the second moving image ;
Receiving means for receiving a transmission request for the second moving image from the editing device;
Receiving means for receiving an instruction to reproduce the first moving image ;
The reading means includes
When the receiving unit receives an instruction to reproduce the first moving image from a predetermined position and the receiving unit receives the transmission request for the second moving image, the second moving image An image and the first moving image corresponding to the second moving image,
When the receiving unit receives an instruction to reproduce the first moving image from a predetermined position, and the receiving unit has not received the transmission request for the second moving image, the receiving unit A playback apparatus, wherein the first moving image is read from a predetermined position received . The receiving unit instructs the playback of the first moving image accepted by the playback apparatus according to claim 1, characterized in that it comprises an indication of reproduction by the predetermined speed of the first moving image. When the reading unit receives an instruction to reproduce the first moving image from a predetermined position by the receiving unit, and the receiving unit receives the transmission request for the second moving image, reproducing apparatus according to claim 1, wherein the reading of the second moving image, and executes in preference to reading of the first moving image. In a playback method of a playback device for playing back a recording medium on which a first moving image and a second moving image in which the first moving image has a low resolution are recorded,
A step of reading out the first moving image and the second moving image from the recording medium;
An output step of outputting the first moving image read by the processing of the reading step to a display device that displays the first moving image;
A transmission step of transmitting the second moving image read by the processing of the reading step to an editing device that edits the second moving image ;
A receiving step of receiving a transmission request for the second moving image from the editing device;
Look including a reception step of receiving an instruction of playback of the first moving image,
The reading step includes
When an instruction to reproduce the first moving image from a predetermined position is received by the processing of the receiving step, and the transmission request of the second moving image is received by the processing of the receiving step, Reading out a second moving image and the first moving image corresponding to the second moving image;
When the instruction to reproduce the first moving image from a predetermined position is accepted by the process of the accepting step, and the transmission request of the second moving image is not received by the process of the receiving step, A reproduction method, wherein the first moving image is read from a predetermined position received by the processing of the receiving step . A program for a playback apparatus for playing back a recording medium on which a first moving image and a second moving image in which the first moving image is reduced in resolution are recorded,
A step of reading out the first moving image and the second moving image from the recording medium;
An output control step of controlling output of the first moving image read out by the processing of the reading step to a display device that displays the first moving image;
A transmission control step of controlling transmission of the second moving image read out by the processing of the reading step to an editing device that edits the second moving image ;
A reception control step for controlling reception of a transmission request for the second moving image from the editing device;
Look including a reception step of receiving an instruction of playback of the first moving image,
The reading step includes
When an instruction to reproduce the first moving image from a predetermined position is received by the processing of the receiving step and the transmission request of the second moving image is received by the processing of the reception control step, Reading the second moving image and the first moving image corresponding to the second moving image;
When an instruction to reproduce the first moving image from a predetermined position is received by the processing of the receiving step, and the transmission request of the second moving image is not received by the processing of the reception control step A recording medium on which a computer-readable program is recorded, wherein the first moving image is read from a predetermined position received by the processing of the receiving step . A computer that controls a playback device that plays back a recording medium on which a first moving image and a second moving image in which the first moving image has a low resolution are recorded;
A step of reading out the first moving image and the second moving image from the recording medium;
An output control step of controlling output of the first moving image read out by the processing of the reading step to a display device that displays the first moving image;
A transmission control step of controlling transmission of the second moving image read out by the processing of the reading step to an editing device that edits the second moving image ;
A reception control step for controlling reception of a transmission request for the second moving image from the editing device;
An accepting step of accepting an instruction to reproduce the first moving image ;
The reading step includes
When an instruction to reproduce the first moving image from a predetermined position is received by the processing of the receiving step and the transmission request of the second moving image is received by the processing of the reception control step, Reading the second moving image and the first moving image corresponding to the second moving image;
When an instruction to reproduce the first moving image from a predetermined position is received by the processing of the receiving step, and the transmission request of the second moving image is not received by the processing of the reception control step A program for reading out the first moving image from a predetermined position received by the processing in the receiving step . In a playback apparatus for playing back a recording medium on which a first moving image and a second moving image in which the first moving image has a low resolution are recorded,
Reading means for reading the first moving image and the second moving image from the recording medium;
Output means for outputting the first moving image read by the reading means to a display device for displaying the first moving image;
Transmitting means for transmitting the second moving image read by the reading means to an editing device for editing the second moving image;
Receiving means for receiving a transmission request for the second moving image from the editing device;
Receiving means for receiving an instruction to reproduce the first moving image ;
The reading means includes
When the receiving unit receives an instruction to reproduce the first moving image from a predetermined position and the receiving unit receives the transmission request for the second moving image, the second moving image Reading out the image and reading out the first moving image from the position received by the receiving means;
When the receiving unit does not receive an instruction to reproduce the first moving image from a predetermined position, and the receiving unit receives the transmission request for the second moving image, the second moving image is received. Read video
A playback apparatus characterized by that.

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