JP3696136B2 - Video data recording method, optical disc, reproducing method and reproducing apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an information recording medium, an information recording method and apparatus, and a reproducing apparatus. According to the present invention, a simple editing operation can be easily performed on video data to be recorded or reproduced.
[0002]
[Prior art]
As is well known, in recent years, not only audio data but also video data can be compressed and recorded on an optical disc having a diameter of 12 cm, for example, as an audio CD (Compact Disk). As this type of optical disk, for example, a CD-ROM (Read Only Memory) is widely used in a wide range of fields from education to information.
[0003]
Recently, the main video data, 8 types of audio data, and 32 types of sub-picture data representing 32 types of subtitles have been recorded on an optical disc of the same shape as a CD. DVD-ROM and the like have been developed. Currently, a DVD standard has been proposed that uses the internationally standardized MPEG (Moving Picture Image Coding Experts Group) 2 compression method for video data and the AC-3 compression method for audio data. ing.
[0004]
This DVD standard uses MPEG2 as the video compression method according to the MPEG2 system layer, supports the AC-3 method and MPEG method as audio compression methods, and further performs run-length compression of bitmap data for subtitles. Sub-picture data and control data (navigation pack) for special playback such as fast-forward and fast-reverse.
[0005]
The DVD standard supports ISO (International Organization for Standardization) 9660 and micro UDF (Universal Disk Format) so that data can be read by, for example, a personal computer.
[0006]
On the other hand, not only the above-mentioned reproduction-only optical disk such as the DVD-ROM described above, but also development of an optical disk capable of writing and rewriting data, such as a DVD-RAM (Random Access Memory). In addition, development of devices for recording / reproducing data on / from this optical disc has been actively conducted.
[0007]
[Problems to be solved by the invention]
By the way, even when editing video data recorded / reproduced on the DVD-RAM based on the above-mentioned DVD standard, it is necessary to perform an editing operation using an authoring system like a conventional DVD-ROM. is there. For this reason, the user needs a lot of time and labor, and there arises a problem that an economic burden for arranging the facilities of the authoring system is forced.
[0008]
Therefore, the present invention provides an information recording medium, an information recording method, an apparatus, and a reproducing apparatus that can easily obtain editing processing for recording and reproducing information, and in particular, can easily edit fine units. The purpose is to do.
[0009]
[Means for Solving the Problems]
  This inventionA method for recording information on an optical disc capable of recording video data and control information for controlling reproduction of the video data, wherein the video data recorded on the optical disc includes a plurality of group of pictures (GOP), In the control information, a first unit for managing the video data of the first unit (cell). 1 Management information (cell information) is defined, a second management information for setting a first reproduction order of video by managing a plurality of the first management information, and the first management information The third management information for setting the second playback order of the video by managing a plurality of video data, and a part of the video data respectively managed by the second and third management information are duplicated. Further, the first management information includes a rewritable flag indicating that the corresponding video data being managed is prohibited from being reproduced, and the third management information includes the third management information. A rewritable flag indicating whether the video data managed by the information can be deleted or forbidden to be deleted, and a flag indicating the reproduction prohibition is recorded in the first management information of the desired first unit of video data. , The duplicated by the first management information If parts are to be reproduced from being set to the reproduction prohibition, it is characterized in that so as to rewrite the flag indicating the reproduction inhibition in the first management information.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 shows a recording / reproducing apparatus for recording / reproducing data on / from an optical disc 11 such as a DVD-RAM.
[0011]
This recording / reproducing apparatus is centrally controlled and managed by a main MPU (Micro Processing Unit) 12. In this case, the main MPU 12 receives a request from the user through the operation unit 13 to control the recording / reproducing apparatus, and displays the control state on the display unit 14.
[0012]
The optical disk 11 is controlled by a disk driver 15 that is driven based on a command from the main MPU 12. The disk driver 15 has a function of rotating the optical disk 11 at a predetermined rotational speed by a disk motor (not shown) and its rotation servo circuit, and writing data to the optical disk 11 by an optical head (not shown) and its servo circuit. And a function of reading data from the optical disc 11.
[0013]
Here, the recording operation on the optical disc 11 will be described. First, when receiving a recording command from the operation unit 13, the main MPU 12 reads management data from the optical disk 11 via the disk driver 15 and determines an area in which data is written.
[0014]
Thereafter, the main MPU 12 sets the write start address of the determined area in the disk driver 15 and completes preparation for recording data. Further, the main MPU 12 resets an STC (System Time Counter) 16 that is a timer for measuring a reference time when the recording / reproducing apparatus performs a recording operation or a reproducing operation.
[0015]
The video signal and audio signal supplied from the external A / V (Audio / Video) input unit 17 or the video signal and audio signal supplied from the TV (Television) tuner 18 constitute an encoder 19. After being supplied to an A / D (Analogue / Digital) conversion unit 20 and digitized, it is supplied to a video encoder 21 and an audio encoder 22. Also, text signals such as teletext and closed caption signals obtained from the TV tuner 18 are supplied to the sub-picture encoder 23.
[0016]
Each of these encoders 21, 22, and 23 performs compression processing on the input signal to form a packet, and outputs the packet to the formatter unit 24. In this case, each packet is divided into packets so as to be 2048 bytes per pack when packed later. Each encoder 21, 22, 23 determines a PTS (Presentation Time Stamp) and a DTS (Decoding Time Stamp) of each packet based on the measurement value of the STC 16.
[0017]
The formatter unit 24 packs each input packet data, performs pack alignment processing for each GOP (Group of Picture), adds a navigation pack to the head of the GOP, and then processes the data processing unit 25. Is output. Note that when the processing of the formatter unit 24 is performed, the buffer memory 26 is used for temporarily storing packet data.
[0018]
The data processing unit 25 collects the data output from the encoder 19 as described above into 16 packs as ECC (Error Correcting Code) groups, and adds the ECC to each group to add the disk driver 15. Is output.
[0019]
However, if the disk driver 15 has not completed preparations for recording data, the data processing unit 25 stores the data in the temporary storage unit 27 until the disk driver 15 completes preparations for recording data. After waiting, when the preparation is completed, it is transferred to the disk driver 15 and recorded on the optical disk 11.
[0020]
The temporary storage unit 27 is assumed to have a large storage capacity in order to store recording data of several minutes or more by high-speed access. Then, at the end of data recording, the data processing unit 25 records address data of each navigation pack in the area of the optical disk 11 in which data for fast forward and fast reverse in the navigation pack is recorded. The necessary information is recorded in the management area, and the recording operation is terminated.
[0021]
Next, the reproducing operation for the optical disc 11 will be described. First, when receiving a reproduction command from the operation unit 13, the main MPU 12 reads data in the management area of the optical disk 11 via the disk driver 15 and the data processing unit 25, and determines an address for data reproduction.
[0022]
Thereafter, the main MPU 12 outputs the determined address and read command to the disk driver 15. Then, the disk driver 15 reads sector data from the optical disk 11 based on the input read command and outputs it to the data processing unit 25.
[0023]
In this case, the data processing unit 25 performs error correction processing on the input sector data, and outputs it to the separation unit 29 constituting the decoder 28 in the form of packed data. The separation unit 29 separates the input pack data into video packet data, audio packet data, and sub-video packet data.
[0024]
The video packet data, audio packet data, and sub-video packet data are supplied to the video decoder 30, audio decoder 31, and sub-video decoder 32, respectively. In this case, since the main MPU 12 processes the navigation pack, the navigation pack is stored in the built-in memory 29a of the separation unit 29 so that the main MPU 12 can access the navigation pack at any time.
[0025]
When each packet data separated by the separation unit 29 is transferred to the corresponding decoders 30, 31, and 32, the PTS is loaded into the STC 16. This loading process is realized, for example, by the main MPU 12 loading the PTS in the navigation pack into the STC 16 or the video decoder 30 automatically loading the PTS of the video data into the STC 16.
[0026]
Therefore, each of the decoders 30, 31, and 32 performs the packet data reproduction process while comparing the PTS value in the packet data with the measured value of the STC 16, that is, in synchronization with the PTS value. Can do.
[0027]
In this way, the video data and the sub video data reproduced by the video decoder 30 and the sub video decoder 32 are supplied to the video processing unit 33 and synthesized, and then a D / A (Digital / Analogue) conversion unit 34. Is converted to analog. The audio data reproduced by the audio decoder 31 is converted into an analog signal by the D / A converter 35. Then, the outputs of the D / A conversion units 34 and 35 are extracted to the outside via the A / V output unit 36.
[0028]
FIG. 2 shows the structure of data recorded on the optical disk 11. That is, the optical disc 11 shown in FIG. 2 (a) has a lead-in area 101 and a data area 102 as shown in FIG. 2 (b) from the inner peripheral side 11a to the outer peripheral side 11b. It is divided into a lead out area 103.
[0029]
Among them, the lead-in area 101 can be rewritten with an embossed data zone having an uneven light reflecting surface and a mirror zone having a flat mirror surface. It is divided into a rewritable data zone.
[0030]
The data area 102 includes a rewritable data zone in which data can be recorded / rewritten by the user. Further, the lead-out area 103 is composed of a rewritable data zone in which data can be rewritten.
[0031]
In the embossed data zone of the lead-in area 101, information on the entire optical disk, such as the optical disk type, size, recording density, physical sector number indicating the recording start / end position, recording power, and recording pulse width , Information relating to recording / reproducing / erasing characteristics such as erasing power, reproducing power and linear velocity at the time of recording / erasing, and information relating to manufacture of each optical disc such as a serial number are recorded.
[0032]
In the rewritable data zone and the lead-out area 103 of the lead-in area 101, an area where a unique disk name can be recorded for each optical disk, a test recording area for confirming data recording / erasing conditions, An area for recording management information related to a defective area in the data area 102 is set. In each of these areas, data can be recorded or erased by a recording / reproducing apparatus.
[0033]
Further, as shown in FIG. 2C, the data area 102 includes two computer data areas 104 and 105 in which computer data is recorded, and audio and video data in which audio and video data are recorded. A video data area (audio & video data area) 106 is set, and mixed recording of computer data and audio and video data is possible. However, the recording order, recording information size, etc. of computer data, audio and video data can be arbitrarily set.
[0034]
The audio & video data area 106 includes, as shown in FIG. 2 (d), volume & file manager information (volume & file manager information) 107, control manager information (control manager information) 108, video objects ( video object 109, picture object 110, audio object 111, and text & information object 112.
[0035]
Of these, the volume & file manager information 107 is information relating to audio and video data files or the entire volume. The video object 109 is content information of video data. The picture object 110 is information such as a still picture such as a still or a slide, a search for a scene desired to view video data, or a thumbnail picture for editing. The audio object 111 is information on contents of audio data. The text & information object 112 is a text signal such as teletext and other information.
[0036]
The control manager information 108 is control information necessary for performing various processes such as data recording, reproduction, editing, and search. As shown in FIG. 2E, playback control information (playback control information) is displayed. information) 113, recording control information 114, edit control information 115, and thumbnail picture manager information 116.
[0037]
In this case, the playback control information 113 is control information necessary for reproduction. The recording control information 114 is control information necessary for recording. Thumbnail picture manager information 116 is management information related to a thumbnail picture for searching or editing a scene to be viewed in video data.
[0038]
The edit control information 115 is control information necessary for editing, has a data structure like a PGC (program chain) information table shown in FIG. 3A, and determines the playback order by PGC and cells. are doing. That is, the PGC indicates a unit for executing a series of playbacks by specifying the playback order of a plurality of cells, and the cell indicates a playback section in which playback data is specified by a start address and an end address.
[0039]
This PGC information table includes PGC information management information 117, n search pointers of PGC information # 1 1181 to #n 118n, and n PGC information tables. It consists of dust (information for dust) # 1 1191 to #n 119n.
[0040]
Of these, the PGC information management information 117 includes information indicating the number of PGCs (number of PGC information). Search pointers of PGC information # 1 1181 to #n 118n point to the start addresses of PGC information fordust # 1 1191 to #n 119n, respectively, and PGC information fordust # 1 1191 to #n 119n It makes searching easier.
[0041]
Each PGC information fordust # 1 1191 to #n 119n includes a PGC general information (general information) 120 and m pieces of cell playback information (cell playback information) as shown in FIG. # 1 1211- # m 121m.
[0042]
In this case, the PGC general information 120 includes information indicating the PGC playback time and the number of cells (number of cell playback information), and as shown in FIG. ) 122.
[0043]
Cell playback information # 1 1211- # m 121m includes cell general information 123, cell start address 124, cell end address (cell end information (cell general information) 123, as shown in FIG. cell end address) 125 and cell type 126 are included.
[0044]
Of these, the cell general information 123 includes general information such as a cell playback time. The cell start address 124 and the cell end address 125 indicate the start address and the end address of the section reproduced as a cell, respectively. The cell type 126 describes information (flag) that controls whether or not playback is possible for the cell, as will be described in detail later.
[0045]
Here, with respect to the data recorded on the optical disc 11, as shown in FIG. 5A, it is assumed that playback sections A, B, C, D, E, and F are designated as cells. For example, if the PGC information fordust # 1 1191 describes three cells A, B, and C that specify consecutive playback sections as shown in FIG. 5B, the cells A and B , C in the order of reproduction.
[0046]
Also, as shown in FIG. 5 (c), when the PGC information for dust # 2 1192 describes three cells D, E, and F that specify an intermittent playback section, the cells D, E, and Reproduction is continuously performed in the order of F. In addition, as shown in FIG. 5D, PGC Information Fordust # 3 1193 describes five cells E, A, D, B, and E that specify the playback section regardless of the playback direction and overlap playback. Even in the case where there is, reproduction is performed continuously in the order of cells E, A, D, B, E.
[0047]
Here, the cell type 126 will be described. This cell type 126 is composed of 1 byte (8 bits). For example, “00 (h: hex)” indicates that playback is possible and deletion is prohibited (normal), and “01 (h)” is playback prohibition and deletion is prohibited. (Trash box sequence) is indicated, and “FF (h)” indicates that deletion is possible. Therefore, it is possible to control whether or not playback is possible in cell units.
[0048]
In addition, the PGC identification information 122 in the PGC general information 120 included in each PGC information fordust # 1 1191 to #n 119n is specified by the PGC information fordust # 1 1191 to #n 119n. Information (flag) for controlling whether or not a series of continuous reproduction is possible for each cell is described.
[0049]
In other words, the PGC identify information 122 is composed of 1 byte, for example, “00 (h)” indicates that playback is possible and deletion is prohibited (normal), “01 (h)” indicates that deletion is possible, and “11 (H) "indicates reproduction prohibition and deletion prohibition (trash box sequence). For this reason, it becomes possible to control whether or not playback is possible in units of PGCs.
[0050]
Further, in the PGC information management information 117 in the PGC information table shown in FIG. 3A, unnecessary data, that is, reproduction is performed in the PGC information table depending on the flags of the PGC identify information 122 and the cell type 126. A flag DUST_DAT Flag indicating whether there is data that is prohibited and cannot be deleted or can be deleted is included. This flag DUST_DAT Flag is composed of 1 byte. For example, “00 (h)” indicates that there is no unnecessary data, and “01 (h)” indicates that there is unnecessary data.
[0051]
The PGC information management information 117 includes a flag DUST_EDIT Flag indicating whether or not the flags of the PGC identity information 122 and the cell type 126 have been changed in the past, that is, whether or not there is an editing history. Yes.
[0052]
This flag DUST_EDIT Flag is composed of 1 byte. For example, “00 (h)” indicates that there is no editing history, and “01 (h)” indicates that there is an editing history. For this reason, it becomes possible to know the presence / absence of unnecessary data and the presence / absence of an editing history for each title, which is a set of a plurality of PGCs, for example.
[0053]
Therefore, by setting the flags of the PGC information management information 117, the PGC identification information 122 and the cell type 126 as appropriate, the unnecessary data portion is skipped for reproduction or the unnecessary data portion is restored. The work can be easily performed without using an authoring system as in the prior art.
[0054]
In addition, in order to realize such a function that enables simple editing work and seamless playback of edited data, and efficient deletion of unnecessary data, At the time of data recording, it is necessary to preliminarily separate each cell in GOP units.
[0055]
In addition, since the minimum editing unit of this simple editing function is a cell, in order to enable the editing range to be somewhat precise, recording is performed by setting the cell length to a short fixed length such as about 0.5 seconds. It is necessary to do.
[0056]
Next, FIG. 6 shows a flowchart summarizing the data recording operations on the optical disc 11. First, when a recording command is received and started (step S1) by the main MPU 12, the main MPU 12 reads management data from the optical disk 11 in step S2, and writes it in the management area of the optical disk 11 in step S3. After creating the predetermined data, the initial setting for recording is executed in step S4.
[0057]
As the initial setting for recording, for example, the initial setting of each encoder 21, 22, 23, such as setting the average transfer rate in the video encoder 21, the reset of the STC 16, and the write start address to the disk driver 15 are set. There is a setting and an initial setting of the formatter unit 24 such as a dummy pack insertion setting and a cell separation time.
[0058]
Thereafter, the main MPU 12 sets a recording start command for each of the encoders 21, 22, and 23 in step S 5, and a recording operation on the optical disk 11 is started. During this recording operation, the main MPU 12 determines in step S6 whether or not the recording end key of the operation unit 13 has been operated. If not (NO), the remaining recording capacity of the optical disc 11 is determined in step S7. Is calculated.
[0059]
In step S8, the main MPU 12 determines whether or not the remaining recording capacity has become a certain amount or less. If it is determined that the remaining recording capacity has become the certain amount or less (YES), for example, in step S9, the remaining recording capacity of the optical disc 11, for example. A warning process such as displaying on the display unit 14 that the amount has been reduced is executed.
[0060]
Thereafter, the main MPU 12 determines in step S10 whether or not the remaining recording capacity of the optical disk 11 has been exhausted, and if not (NO), returns to the processing of step S6. If it is determined in step S10 that the remaining recording capacity of the optical disk 11 has been exhausted (YES), or if it is determined in step S6 that the recording end key has been operated (YES), the main MPU 12 determines in step S11. Then, the recording end process is executed.
[0061]
The recording end process includes a process for initializing the encoders 21, 22, and 23 and the formatter unit 24, and a process for writing the data created in step S 3, information about the free capacity, PGC, and the like in the management area of the optical disk 11. is there.
[0062]
In step S12, the main MPU 12 sets all the flags of the PGC information management information 117, the PGC identify information 122, and the cell type 126 to “00 (h)” as initial values, and ends (step S13). )
[0063]
Next, FIG. 7 shows a flowchart summarizing the data reproduction operation for the optical disc 11. First, when a reproduction command is received by the main MPU 12 and started (step S14), the main MPU 12 determines whether or not the correct optical disc 11 suitable for this recording / reproducing apparatus is mounted in step S15, and corrects it. If it is determined that the optical disk 11 is not loaded (NO), error processing is performed in step S16, and the process is terminated (step S17).
[0064]
If it is determined in step S15 that the correct optical disk 11 is loaded (YES), the main MPU 12 reads management data from the optical disk 11 in step S18, and selects a title set to be reproduced in step S19. Select / decide. Thereafter, the main MPU 12 reads the video title set information from the optical disc 11 in step S20, and selects and determines a title to be reproduced in step S21.
[0065]
When the main MPU 12 determines the program number, cell number, etc. to be reproduced in step S22, the main MPU 12 initializes the decoders 30, 31, 32 in step S23, and executes the preprocessing command in step S24. In step S25, a cell reproduction process to be described later is executed. During this cell playback process, the main MPU 12 determines whether or not it is the last cell in step S26. If it is not the last cell (NO), the cell number is counted up in step S27 and the process returns to step S25. .
[0066]
If it is determined in step S26 that the cell is the last cell (YES), the main MPU 12 executes PGC still processing for displaying the still screen for the set time in step S28, and in step S29, the post-processing command is displayed. In step S30, it is determined whether or not the reproduction is finished. If the reproduction is not finished (NO), the main MPU 12 returns to the process of step S24. If the reproduction is finished (YES), the process at the end of the reproduction is executed in step S31, and the process is finished (step S32). The
[0067]
Next, FIG. 8 shows a flowchart summarizing the cell reproduction processing operation in step S25. First, when started (step S33), the main MPU 12 determines whether or not cell playback has started in step S34. If not (NO), the video object unit continues in step S35. It is determined whether or not.
[0068]
When it is determined that the video object units are not continuous (NO), or when it is determined that the cell playback is started at step S34 (YES), the main MPU 12 determines the PGC information at step S36. Based on the above, the reproduction start address is determined, and a data read command is set in the disk driver 15 in step S37.
[0069]
After this step S37 or when it is determined in step S35 that the video object units are continuous (YES), the main MPU 12 fetches the navigation pack in step S38, and in step S39, the synchronization information In step S40, PGC information packet processing is executed.
[0070]
In step S41, the main MPU 12 determines whether or not to perform still display of the video object unit. If yes (YES), the main MPU 12 waits until playback of the target video object unit is terminated in step S42. In step S43, the still processing of the video object unit is executed such that the still operation is continued until, for example, the reproduction key is operated.
[0071]
After step S43 or when it is determined in step S41 that the still display of the video object unit is not performed (NO), the main MPU 12 determines whether or not it is the end of the cell in step S44. If not (NO), the process returns to step S38.
[0072]
If it is the end of the cell (YES), the main MPU 12 waits until the reproduction of the target video object unit is finished in step S45, and in step S46, the cell still process for performing the still display for the set time. And the process is terminated (step S47).
[0073]
Next, FIG. 9 shows a flowchart for explaining an edit mode in which the user sets the flags of the PGC information management information 117, the PGC identifier information 122, and the cell type 126.
[0074]
In this editing mode, first, normal reproduction is performed, and the user selects a start image of an unnecessary portion by still reproduction, frame advance reproduction, or the like. The minimum editable range is for each cell. For this reason, the recording / reproducing apparatus is in a mode for reproducing the first still image of a cell in still reproduction, frame advance reproduction or the like, and stores the number of the selected cell after the user selects an image.
[0075]
Similarly, an end image of an unnecessary portion is selected. However, at this time, the recording / reproducing apparatus is in a mode for reproducing the last still image of the cell in still reproduction, frame advance reproduction, etc., and after the user selects an image, the number of the selected cell is stored. become.
[0076]
That is, this edit mode is started in the playback state of the optical disc 11 (step S48). Then, first, the main MPU 12 is switched to a setting for reproducing the head of the cell at the time of still reproduction in step S49, and enters a state of accepting a user's key input in step S50.
[0077]
Thereafter, the main MPU 12 determines whether or not it is in the still playback mode in step S51. If it is not in the still playback mode (NO), whether or not it is in the playback mode including other special playback in step S52. Determine whether or not. If it is in the special playback mode (YES), the main MPU 12 returns to the process of step S50. If it is not in the special playback mode (NO), the undetermined unnecessary range information (flag) is cleared in step S53. And it is complete | finished (step S54).
[0078]
If it is determined in step S51 that the still playback mode is in effect (YES), the main MPU 12 sets the PGC identified information 122 and cell type 126 flags to the playback prohibited state in step S55. It is determined whether or not an operation has been performed. If the operation has not been performed (NO), the process returns to step S50.
[0079]
If it is determined in step S55 that the operation has been performed (YES), the main MPU 12 determines in step S56 whether or not the same operation has been performed on the previous cell. (NO), in step S57, the flag contents of the PGC identifier information 122 and the cell type 126 are determined for the start cell in the unnecessary range, and in step S58, the setting is made to reproduce the end of the cell during the still reproduction. The process returns to S50.
[0080]
If it is determined in step S56 that the same operation has been performed on the previous cell (YES), the main MPU 12 determines whether the current cell number is equal to the previous cell number or not in step S59. It is determined whether or not it is later in time, and if not (NO), in step S60, unnecessary range information (flag) for the previous cell and the current cell is cleared, and the process returns to step S49. .
[0081]
On the other hand, if NO in step S59 (YES), the main MPU 12 determines the flag contents of the PGC identifier information 122 and the cell type 126 for the end cell of the unnecessary range in step S61, and in step S62, the optical disc 11 To record. Thereafter, in step S63, the main MPU 12 creates a flag for the PGC information management information 117, records it on the optical disc 11, and returns to the process of step S49.
[0082]
Next, a description will be given of how to delete or restore the original title to a portion determined to be unnecessary in the edited image. The user can recognize a list of titles on the screen by opening the title menu as shown in FIG. At this time, the recording / reproducing apparatus refers to the flag DUST_DAT Flag of the PGC information management information 117 to determine whether or not unnecessary data generated after editing remains in the title, and whether or not unnecessary data exists for the title. Information on whether or not is also displayed on the title menu at the same time.
[0083]
When the user selects a specific title on the title menu and sets “Open detailed information on title”, the recording / reproducing apparatus refers to the PGC identifier information 122 and the flag of the cell type 126 with reference to FIG. As shown in (b), detailed information of unnecessary portions for the selected title is displayed on the screen.
[0084]
The user can set whether to delete or restore each unnecessary portion by looking at the detailed information screen for each title. When deletion is selected, the recording / reproducing apparatus rewrites the cell type 126 existing in the target unnecessary range whose content is “01 (h)” to “FF (h)” and the target Of the PGC identifier information 122 existing in the unnecessary range, the content of “11 (h)” is rewritten to “01 (h)”, and the deletion of the unnecessary portion is completed.
[0085]
In addition, when resurrection is selected, the recording / reproducing apparatus rewrites both the contents of the cell type 126 existing in the target unnecessary range and the contents of the PGC identifier information 122 to “00 (h)”. To complete the resurrection. Note that if the unnecessary part disappears in the title due to deletion or restoration, the recording / reproducing apparatus sets the flag DUST_DAT Flag of the PGC information management information 117 to “00 (h)” and no unnecessary data exists. It can be processed as a title.
[0086]
FIG. 11 shows a flowchart summarizing such operations for deleting and restoring unnecessary portions. First, as described above, the title menu is opened and started (step S64). When the user selects a predetermined title from the title menu in step S65, details about the selected title are displayed in step S66. Information is opened. In this detailed information, a list of unnecessary parts is displayed as described above.
[0087]
In step S67, the user selects a predetermined unnecessary portion from the displayed list, and in step S68, selects the deletion or restoration attribute change. Here, when deletion is selected, the main MPU 12 changes the data attribute of the cell to be deleted to be deleteable, as shown in step S69a. In other words, the PGC identifier information 122 and the cell type 126 flag are rewritten as described above. At the same time, the range of the deleted part is registered for the information for managing the recordable area.
[0088]
Further, when resurrection is selected, the main MPU 12 changes the data attribute of the resurrected cell to be reproducible as shown in step S69b. Thereafter, in step S70, the main MPU 12 sets the flag DUST_DAT Flag of the PGC information management information 117 to no unnecessary data.
[0089]
Next, an example of reusing a deleted part will be described. That is, when creating the title menu and the detailed information for each title, the main MPU 12 associates the title number with the start physical address and end physical address of the unnecessary part as shown in FIG. Create
[0090]
Then, as shown in FIG. 13, when started (step S71) and the user selects a deletion location in step S72, the main MPU 12 determines that the deletion range is the content and physical address of the deletion portion reference table in step S73. In step S74, the table data connected in terms of physical addresses is updated, that is, the new range is rewritten with respect to the existing data. The process is terminated (step S75).
[0091]
On the other hand, if it is determined in step S73 that they are not continuous (NO), the main MPU 12 adds the range to be selected this time to the table as new data in step S76, and the process is ended (step S75).
[0092]
On the other hand, FIG. 14 shows another example in which the deleted portion is reused. That is, when started (step S77), the main MPU 12 reads the deleted part reference table in step S78, and determines whether or not the contents of the deleted part reference table were used during recording in step S79. If not (NO), the process ends (step S80). If used (YES), the contents of the deleted part reference table are updated or deleted in step S81, and the process ends (step S80).
[0093]
Here, in the above-described embodiment, a case has been described in which each cell is divided in GOP units in advance when data is recorded on the optical disc 11, that is, the GOP is completed in each cell. However, cells can also be separated in the middle of a GOP.
[0094]
For example, as shown in FIG. 15, with respect to continuous GOP1 to GOP6, the boundaries between cells A, B, C, and D are in the middle of GOP2 and the boundary between cells B and C is It is also possible to specify that the boundary between cells C and D is in the middle of GOP4 in the middle of GOP4.
[0095]
By the way, one GOP is usually composed of 15 pictures corresponding to 0.5 seconds as shown in FIG. Specifically, a single intra-frame encoded image [I (Intra) picture] formed by intra-frame encoding all of one screen is arranged at the head, and then the previous encoded temporally previous one is placed. Four inter-frame encoded images [P (Predictive) picture] predicted from a frame and ten inter-frame encoded images [B (Bidirectionally) predictive picture] predicted from two frames preceding and following in time, They are arranged in a predetermined order. For this reason, unless the I picture arranged at the head in the GOP is read, one screen of the GOP cannot be reproduced.
[0096]
Here, in FIG. 15, a case is considered where the reproduction prohibition flag is set in the cell type 126 of the cell B, and continuous reproduction is performed from the cell A to the cell C. In this case, the recording / reproducing apparatus operates to read the head data of the cell C when the reproduction of the cell A is completed. However, since the head position of cell C is in the middle of GOP4, only P picture or B picture can be read, and one screen of GOP4 cannot be reproduced.
[0097]
Therefore, this recording / playback apparatus is controlled to automatically search for and play back the I picture at the head of the GOP when the head position of the cell to be played is in the middle of the GOP.
[0098]
FIG. 17 shows a flowchart summarizing this control operation. First, when started (step S82), the main MPU 12 searches for the playback start position on the optical disc 11, that is, the top position of the cell C in the above example, in step S83.
[0099]
Thereafter, in step S84, the main MPU 12 determines which position on the GOP the searched reproduction start position is. This search and discrimination processing is realized by the main MPU 12 referring to the information of the control manager information 108 described above, for example.
[0100]
Next, in step S85, the main MPU 12 determines whether or not the playback start position matches the head position of the GOP. If they match (YES), the searched playback start position in step S86. Then, the reproducing operation of the optical disk 11 is started and finished (step S87).
[0101]
If it is determined in step S85 that the reproduction start position does not coincide with the start position of the GOP (NO), the main MPU 12 determines the start position of the GOP including the searched reproduction start position in step S88. In step S89, data is sequentially read from the head position of the searched GOP.
[0102]
Thereafter, the main MPU 12 creates frame information at the head position of the GOP in the video processing unit 33 in step S90, displays the frame information in step S91, and ends (step S87). Thereby, even when the start position of the cell requested to be reproduced is in the middle of the GOP, the cell can be reproduced.
[0103]
The present invention is not limited to the above-described embodiment, and can be variously modified and implemented without departing from the scope of the invention.
[0104]
【The invention's effect】
As described above in detail, according to the present invention, it is possible to easily obtain the editing process and the like, and it is particularly easy to edit fine units.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a recording / reproducing apparatus using an optical disc as a recording medium for explaining an embodiment of the present invention;
FIG. 2 is a view for explaining a hierarchical structure of data recorded on an optical disc.
FIG. 3 is a view for explaining a detailed structure of edit control information.
FIG. 4 is a view for explaining details of cell playback information.
FIG. 5 is a view for explaining cell designation and cell reproduction operation by PGC information.
FIG. 6 is a flowchart for explaining a data recording operation on an optical disc.
FIG. 7 is a flowchart for explaining a data reproducing operation for an optical disc.
FIG. 8 is a flowchart shown for explaining the detailed operation of the cell playback process in the data playback operation.
FIG. 9 is a flowchart for explaining the operation in an edit mode for setting a flag for simple editing.
FIG. 10 is a view for explaining a title menu screen and a title-specific detailed information screen.
FIG. 11 is a flowchart for explaining an operation of deleting and restoring unnecessary parts.
FIG. 12 is a view for explaining a deleted part reference table used when a deleted part is reused.
FIG. 13 is a flowchart for explaining an operation when a deleted portion is reused.
FIG. 14 is a flowchart for explaining another example of the operation when the deleted part is reused.
FIG. 15 is a diagram for explaining an example in which a boundary between successive cells is designated to be in the middle of a GOP.
FIG. 16 is a diagram for explaining an example of a frame configuration of one GOP in the MPEG standard.
FIG. 17 is a flowchart for explaining the reproduction operation when the head of a cell to be reproduced is in the middle of a GOP.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 11 ... Optical disk, 12 ... Main MPU, 13 ... Operation part, 14 ... Display part, 15 ... Disk driver, 16 ... STC, 17 ... A / V input part, 18 ... TV tuner, 19 ... Encoder, 20 ... A / D Conversion unit, 21 ... video encoder, 22 ... audio encoder, 23 ... sub-picture encoder, 24 ... formatter unit, 25 ... data processing unit, 26 ... buffer memory, 27 ... temporary storage unit, 28 ... decoder, 29 ... separation unit, DESCRIPTION OF SYMBOLS 30 ... Video decoder, 31 ... Audio decoder, 32 ... Sub-picture decoder, 33 ... Video processing part, 34, 35 ... D / A conversion part, 36 ... A / V output part.

Claims (4)

A method of recording information on an optical disc capable of recording video data and control information for controlling reproduction of the video data,
  The video data recorded on the optical disc includes a plurality of group of pictures (GOP),
  In the control information,
  A first unit that manages the video data of a first unit (cell); 1 Management information (cell information) is defined,
  Second management information for setting a first reproduction order of video by managing a plurality of the first management information;
  Third management information for setting a second reproduction order of video by managing a plurality of the first management information;
  A part of each video data managed by the second and third management information is duplicated,
  Further, the first management information includes a rewritable flag indicating that the corresponding video data being managed is prohibited from being reproduced,
  The third management information includes a rewritable flag indicating whether the video data managed by the third management information can be deleted or deleted.
  A flag indicating the prohibition of reproduction is recorded in the first management information of video data of a desired first unit;
  When it is possible to reproduce from the first management information that the overlapping part is set to reproduction prohibition, the flag indicating the reproduction prohibition in the first management information is rewritten.
  A video data recording method characterized by the above. Claim 1 An optical disc on which video data and control information for controlling reproduction of the video data are recorded by the video data recording method described above. A reproduction method for reproducing the video data of the optical disc according to claim 2 and control information for controlling reproduction of the video data. A reproducing apparatus comprising: means for reproducing the video data of the optical disc according to claim 2 and control information for controlling reproduction of the video data.

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