JP2004030704A - Optical disk device, recording method of optical disk, program thereof, and recording medium for recording the program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To record even the file of a static image or the like in addition to a moving image by effectively using an information recording surface, e.g., in application to a digital versatile disk (DVD) regarding an optical disk, the recording method of an optical disk, the program thereof, and a recording medium for recording the program. <P>SOLUTION: Extension files EF1 and EF2 and extension file information EX are recorded in a group. Thus, the extension file information EX of the other group is indicated by area management information. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an optical disk device, an optical disk recording method, an optical disk recording method program, and a recording medium on which the optical disk recording method program is recorded, and can be applied to, for example, a DVD (Digital Versatile Disk) device. According to the present invention, an extended file and extended file information are recorded as a set, and another set of extended file information can be indicated by the area management information, so that the information recording surface is effectively used. Thus, files such as still images other than moving images can be recorded.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in a DVD which is a large-capacity optical disk, writable optical disks are DVD-R (DVD-Recordable), write-once DVD-RW (DVD-Rewriteable), and DVD-RAM (DVD-RAM) which can be written only once. Random Access Memory). Of these optical discs, DVD-R and DVD-RW record video data in a format conforming to the DVD-video format so that they can be reproduced by a read-only optical disc or a computer.
[0003]
FIG. 11 is a table showing a logical format of the optical disk according to the DVD video format. In an optical disk according to this format, the information recording surface is divided into a lead-in (Lead in), a data zone (Data Zone), and a lead-out (Lead out) from the innermost side which is the head side (FIG. 11A), Desired video data and the like are recorded in the zone.
[0004]
The data zone is divided from the lead-in side into a UDF (Universal Disk Format) area (file system area) A1, a VMG (Video Manager) area (DVD management information area) A2, and a real-time data recording area A3. The UDF area and the VMG area are management information recording areas for managing files based on video data recorded on the optical disc. Of these UDF area and VMG area, the VMG area, which is the second management information recording area, is an area corresponding to a file management system specific to the DVD video format, and includes video data recorded in the real-time data recording area A3. Information of the TOC, which is management information for managing the whole, is recorded. On the other hand, a UDF area A1, which is a first management information recording area, is an area corresponding to a file management system by a computer, and is recorded in a real-time data recording area A3 in a format compatible with a file system in a computer. Management information for managing the entire video data is recorded.
[0005]
The real-time data recording area A3 is a program area for recording actual data, in which video data is recorded in units of VTS (Video Title Set) (hereinafter, appropriately referred to as titles) (FIG. 11B). . Here, up to 99 VTSs can be provided. Here, the VTSs are VTSI (Video Title Set Information), VTSM VOBS (Video Object Set for the VTSM), VTSTT VOBS (Video Object TSB, TSV, TSV, TSV, TSV, TSV, TSV, TSV) (FIG. 11C). The VTSTT VOBS records video data in the MPEG (Moving Picture Experts Group) 2 format, which is real data, and the VTSI contains VTSM, which is recording information such as management information for managing video data based on the real data. A title menu of video data is recorded in VOBS. Note that VTSM VOBS is optional. VTSI BUP is a backup of VTSI.
[0006]
Thus, in this type of optical disc, when accessed by a computer, a desired file can be searched and reproduced by UDF, and when reproduced by a DVD player, a desired file can be searched by VMG. Has been made to be able to play.
[0007]
As a method for writing video data to such an optical disk, an Incremental Recording method (hereinafter, referred to as INC method) and a Restricted Over Write method (hereinafter, referred to as ROW method) are used. Here, the INC method is a method for sequentially recording video data, and the ROW method is a method applied to an overwritable optical disk. However, even in the ROW method, when data is recorded in an unrecorded area, video data is sequentially recorded. In the INC system and the ROW system, processing on an optical disc such as a reservation, which will be described later, is managed by an RMA (Recording Management Area) provided on the inner peripheral side of the lead-in.
[0008]
FIG. 12 is a chart showing a recording procedure by the INC method. In the INC system, up to three areas to be written at a time are defined at a maximum, and these areas are respectively called Rzones, and each Rzone is managed by RMA.
[0009]
When recording a moving image, the Rzone is reserved first in the INC method (FIG. 12A). Here, the reservation of Rzone defines the UDF area which is the recording area of the management information, the area of Rzone1 which forms the VMG area, and the VTSI and VTSMVOBS of the first VTS in the unrecorded area which forms the real-time data recording area. Is defined, and the remaining unrecorded area is defined as an invisible Rzone area. In the INC system, a recording area for management information is secured by reserving Rzone1 and Rzone2, and an area for forming VTSI and VTSM VOBS of the first VTS is secured.
[0010]
In the INC system, VTSTT VOBS based on actual data is formed by sequentially recording video data from the head of the invisible Rzone. Further, when the recording of the actual data for one title is completed according to the user's instruction, the VTSI BUP is recorded following the recording of the actual data (FIG. 12B), and the operation returns to the head side to store VTSI and VTSM in Rzone2. VOBS is formed (FIG. 12C), and Rzone2 is closed. Thereby, in the INC system, one VTS is recorded on the optical disc.
[0011]
When the next title is continuously recorded, in the INC method, Rzone3 is reserved in the remaining unrecorded area to secure the areas of VTSI and VTSM VOBS, and the invisible Rzone is defined (FIG. 12D). Subsequently, after a VTSTT VOBS is formed by recording actual data, a VTSI BUP is formed (FIG. 12E), and VTSI and VTSM VOBS are formed in the previously secured area (FIG. 12F). As a result, the following VTS is recorded on the optical disk (FIG. 12 (G)). In the INC system, when recording a title continuously, similarly, an unrecorded area is defined and VTSs are sequentially recorded.
[0012]
On the other hand, in the case of an optical disc having a real-time data recording area formed by sequentially recording VTSs in this manner, in the INC system, a UDF area and a VMG area are formed by a finalizing process, and further, a lead-in and a lead-out are performed. (FIG. 12 (H)), thereby achieving compatibility with a read-only optical disk. The UDF area and the VMG area are formed by generating UDF and VMG data from the VTSI and VTSM VOBS data of each title, recording this data in Rzone1, and closing Rzone1.
[0013]
On the other hand, FIG. 13 is a chart showing a recording procedure by the ROW method. In the ROW method, recording areas for lead-in, UDF, VMG, VTSI of the first title, and VTSM VOBS are secured in advance by padding (FIG. 13A). Here, padding is processing for recording dummy data such as NULL to secure an area.
[0014]
When these areas are secured in this way, in the ROW method, VTSTT VOBS based on actual data is formed by sequentially recording video data (FIG. 13B), and recording of actual data for one title is performed. Upon completion, VTSI BUP is recorded, and padding processing is executed to secure a recording area for VTSI and VTSM VOBS of the subsequent title (FIG. 13B). Then, returning to the head side, VTSI and VTSMVOBS corresponding to the recording of the actual data are formed (FIG. 13C). Thereby, in the ROW system, one VTS is recorded on the optical disc.
[0015]
When the next title is recorded continuously, in the ROW method, the VTSTT is recorded by recording actual data following the padding area formed by the immediately preceding VTS.
Form VOBS, VTSI BUP, VTSI, VTSM of the following title
Padding processing is executed to secure a VOBS recording area (FIG. 13D). Subsequently, VTSI and VTSM VOBS are formed (FIG. 13 (E)), and the subsequent VTS is recorded on the optical disk (FIG. 13 (F)). In the ROW method, when titles are to be recorded successively, processing such as padding is executed in the same manner, and VTSs are sequentially recorded.
[0016]
On the other hand, in the ROW system, the UDF area and the VMG area are formed by the same finalization processing as in the INC system with respect to the optical disk having the real-time data recording area formed by sequentially recording the VTS in this manner. Lead-in and lead-out are formed (FIG. 13 (H)), whereby compatibility with a read-only optical disk is achieved.
[0017]
[Problems to be solved by the invention]
By the way, in such an optical disc, it is conceivable that the present invention is applied to a portable video recorder instead of a magnetic tape. In this case, some conventional portable video recorders can record not only moving images but also still images, so that even this kind of optical disc can record still images and the like other than moving images. Is desired.
[0018]
By the way, in the above-mentioned format, recording of this kind of file is not considered at all, and as a result, in the case of a still image or the like, it can be stored in a memory and separately recorded on another recording medium. Will be needed.
[0019]
Further, in recording such a still image other than a moving image, it is required to use the information recording surface as effectively as possible.
[0020]
The present invention has been made in view of the above points, and an optical disc device, a recording method of an optical disc, and a method of recording an optical disc capable of recording a file such as a still picture other than a moving picture by effectively using an information recording surface. An object of the present invention is to propose a recording medium on which a recording method program and an optical disk recording method program are recorded.
[0021]
[Means for Solving the Problems]
In order to solve such a problem, the invention according to claim 1 is applied to an optical disk device, and an extended file other than one or a plurality of moving image files and extended management information of the extended file are recorded as a set on an optical disk. In the extended management information, at least the extended file information necessary for reproducing the extended file related to the same group, the area management information indicating the recording position of the extended file information of another group recorded so far, and the same Area management information indicating the recording position of the extended file information related to the set is assigned.
[0022]
According to the ninth aspect of the present invention, the present invention is applied to a method for recording an optical disk, wherein an extended file other than one or more moving image files and extended management information of the extended file are grouped and recorded on the optical disk. The extended file recording step includes, in the extended management information, at least extended file information necessary for reproducing the extended file related to the same set and extended file information of another set recorded so far. And the area management information indicating the recording position of the extended file information related to the same group is recorded.
[0023]
Further, in the invention according to claim 13, an extended file which is applied to a program of an optical disc recording method and which records an extended file other than one or a plurality of moving image files and extended management information of the extended file as a set on the optical disc. The extended file recording step includes, in the extended management information, at least extended file information necessary for reproducing the extended file related to the same set, and extension of another set recorded so far. The area management information indicating the recording position of the file information and the area management information indicating the recording position of the extended file information related to the same group are allocated and recorded.
[0024]
Further, in the invention according to claim 16, by applying the present invention to a recording medium recording a program of an optical disc recording method, the program of the optical disc recording method includes an extension file other than one or a plurality of moving image files and an extension of the extension file. A step of recording an extended file for recording on the optical disc in combination with the management information, wherein the step of recording the extended file includes, in the extended management information, at least extended file information necessary for reproducing the extended file according to the same set. The area management information indicating the recording position of the extended file information of another group recorded so far and the area management information indicating the recording position of the extended file information of the same group are recorded.
[0025]
According to the configuration of claim 1, an extended file other than one or a plurality of moving image files and extended management information of the extended file are recorded as a set on an optical disc by applying to the optical disc device. , At least the extension file information necessary for reproducing the extension file of the same set, the area management information indicating the recording position of the extension file information of the other sets recorded so far, and the extension file of the same set By assigning area management information indicating the recording position of information, each extended file is recorded in combination with the corresponding extended file information, and is reproduced by the area management information assigned to other extended management information. Can be. As a result, the extended file information can be distributed and recorded, and the extended file can be reproduced based on the extended file information, without having to collectively record the extended file information. Thus, files such as still images other than moving images can be recorded by effectively using the information recording surface.
[0026]
According to the ninth, thirteenth, and sixteenth aspects of the present invention, an optical disk recording method capable of recording a file such as a still image other than a moving image by effectively using an information recording surface, and an optical disk. And a recording medium on which a program for recording an optical disc is recorded.
[0027]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings as appropriate.
[0028]
(1) First embodiment
(1-1) Configuration of First Embodiment
FIG. 2 is a block diagram showing the optical disc device according to the first embodiment of the present invention. The optical disk device 1 is a portable video recorder, and can record an imaging result on an optical disk 2 which is a DVD.
[0029]
That is, in the optical disc device 1, the video input unit 3 performs an analog-to-digital conversion process on a video signal that is an imaging result obtained by an imaging unit (not shown) and a video signal that is input from an external device, and outputs video data. Here, the built-in image pickup means is configured to output a moving image pickup result and a still image pickup result under the control of the microcomputer 4, whereby the video input section 3 controls the image pickup means by the microcomputer 4. In response to this, video data of moving images and still images are selectively output.
[0030]
The audio input unit 5 performs an analog-to-digital conversion process on an audio signal obtained by a microphone and an audio signal from an external input, and outputs audio data.
[0031]
The compression / decompression processing unit 6 switches the operation under the control of the microcomputer 4, and processes data to be used for recording and reproduction. That is, the compression / decompression processing unit 6 uses the random access memory (RAM) 9 to record these video data and audio data when recording video data and audio data input from the video input unit 3 and the audio input unit 5. The data is compressed and multiplexed, and output to the header information processing unit 7. Conversely, at the time of reproduction, the data obtained from the header information processing section 7 is separated into video data and audio data by using the random access memory 9 in the same manner, and then the data is decompressed and output.
[0032]
That is, in the compression / expansion processing section 6, the video processing section 8 compresses and outputs the video data output from the video input section 3 during recording under the control of the microcomputer 4. At this time, if the video data is video data based on a moving image, the data is compressed according to the MPEG2 format, whereas if the video data is video data based on a still image, the data is compressed according to the JPEG (Joint Photographic Coding Experts Group) format. . During reproduction, the video processing section 8 decompresses the video data output from the multiplex processing section 10 in accordance with the data compression format of the video data and outputs the data.
[0033]
During recording, the audio processing unit 11 compresses and outputs audio data output from the audio input unit 5 in a format such as MPEG, Dolby Audio, or linear PCM. Conversely, at the time of reproduction, the audio data obtained from the multiplex processing unit 10 is decompressed and output.
[0034]
The multiplex processing unit 10 multiplexes the video data output from the video processing unit 8 and the audio data output from the audio processing unit 11 at the time of recording, and outputs the multiplexed data to the header information processing unit 7. Conversely, at the time of reproduction, video data and audio data are separated from the time-division multiplexed data output from the header information processing unit 7 and output to the video processing unit 8 and the audio processing unit 11, respectively.
[0035]
The monitor unit 12 has a display mechanism for monitoring video data input from the video input unit 3, audio data input from the audio input unit 5, or video data output from the compression / decompression processing unit 6, audio data, and audio. The optical disk device 1 is configured to monitor an imaging result and monitor a reproduction result.
[0036]
The video / audio encoder 13 compresses video data and audio data input from the audio input unit 5 or video data and audio data output from the compression / decompression processing unit 6 in a predetermined format and outputs the data to an external device. . Thus, in the optical disk device 1, the imaging result and the reproduction result can be monitored by an external device.
[0037]
Upon recording, the header information processing unit 7 receives the time-division multiplexed data output from the compression / decompression processing unit 6 and, under the control of the microcomputer 4, stores header information unique to the DVD, header information of an extension file described later, and the like. Add and output. In addition, based on information from the microcomputer 4, data such as UDF, VMG, and VTSI is generated and output to the DVD signal processing unit 14. At the time of reproduction or the like, the header information added at the time of recording is separated from the output data of the DVD signal processing unit 14 and output to the compression / decompression processing unit 6. The separated header information is notified to the microcomputer 4. Here, the extension file is a file which is not defined in the DVD video format which is a standardized format of the optical disc 2, and in this embodiment, a file of a still image is applied to the extension file. Has been done.
[0038]
At the time of recording, the DVD signal processing unit 14 generates an error correction code from the output data of the header information processing unit 7 using the random access memory 15 and adds the error correction code to the output data. Further, it executes processing such as scrambling processing and 8/16 modulation, and outputs a data string based on the processing result to the analog front end unit 16 as a serial data string.
[0039]
On the other hand, at the time of reproduction, the DVD signal processing section 14 performs decoding processing, descrambling processing, and error correction processing on the output data of the analog front end section 16 in a manner opposite to that during recording, and outputs the processing result to the header information processing section 7. Output to The DVD signal processing unit 14 performs digital-to-analog conversion processing on various types of drive information for spindle control, tracking control, focus control, and thread control output from the microcomputer 4 to generate drive signals for these. The signal is output to the motor amplifier 18.
[0040]
The analog front end unit 16 generates and outputs a light quantity control signal for the laser beam emitted from the optical head 19 to the optical disc 2. The analog front end unit 16 holds the light amount of the laser beam irradiated from the optical head 19 to the optical disk 2 at a constant light amount for reproduction by the light amount control signal during reproduction, while the DVD signal processing unit 14 The signal level of the light amount control signal is changed in accordance with the output data of the DVD signal processor, whereby the light amount of the laser beam is intermittently changed from the light amount at the time of reproduction to the light amount of the recording according to the output data from the DVD signal processing unit. increase.
[0041]
The analog front end unit 16 amplifies the result of receiving the return light obtained from the optical head 19 and performs an arithmetic process to generate a reproduced signal whose signal level changes in accordance with the pit row formed on the optical disc 2. Then, by performing the signal processing of the reproduced signal, the reproduced data as the binary identification result of the reproduced signal is output to the DVD signal processing unit 14. In addition, by this calculation processing, a tracking error signal, a focus error signal or the like whose signal level changes in accordance with the tracking error amount and the focus error amount are generated, and these signals are output to the microcomputer 4 as digital signals.
[0042]
The motor amplifiers 18 drive the corresponding mechanisms according to various drive signals output from the DVD signal processor 14. That is, the motor amplifier section 18 rotationally drives the spindle motor 20 and the sled motor 21 according to the drive signal for spindle control and the drive signal for sled control among these drive signals. Further, an actuator mounted on the optical head 19 is driven by a drive signal for tracking control and a drive signal for focus control.
[0043]
The spindle motor 20 chucks the optical disc 2 and drives it to rotate at a predetermined rotation speed. The thread motor 21 moves the optical head 19 in the radial direction of the optical disc 2.
[0044]
The optical head 19 emits a laser beam from a built-in semiconductor laser according to a light amount control signal output from the analog front end unit 16, and focuses this laser beam on an information recording surface of the optical disc 2 via an objective lens. The return light obtained from the optical disk 2 by the irradiation of the laser beam is guided to a predetermined light receiving element via the objective lens, and the light receiving result of the light receiving element is output to the analog front end unit 16. In the optical head 19, the objective lens is made movable by an actuator driven by a drive signal for tracking control and a drive signal for focus control, thereby performing tracking control and focus control. In addition, the light amount of the laser beam is intermittently started by the light amount control signal, whereby the information recording surface of the optical disk 2 is locally heated to record desired data.
[0045]
The microcomputer 4 is a computer that controls the entire operation of the optical disc device 1. The microcomputer 4 further executes a processing program installed in advance in the optical disc device 1, and is further operated by a user obtained through an operation unit (not shown). Controls the operation of each unit according to various signals detected by the analog front end unit 16. That is, the microcomputer 4 generates drive information for tracking control and focus control based on the tracking error signal and the focus error signal detected by the analog front end unit 16, converts the drive information into analog signals by the DVD signal processing unit 14, and The signal is output to the amplifier section 18, and the tracking control and the focus control are executed. Further, the laser beam irradiation position is detected based on the header information and the like detected by the header information processing unit 7, drive information for thread control is generated from the detection result, and the drive information is output to the DVD signal processing unit 14. Execute the process. Similarly, the spindle control process is executed.
[0046]
On the premise of the processing relating to the optical disk 2, the microcomputer 4 accesses the inner peripheral area of the optical disk 2 when the optical disk 2 is loaded or when the power is turned on with the optical disk 2 loaded. If the optical disk 2 is a read-only optical disk or a finalized optical disk 2, the VMG is reproduced to obtain data necessary for reproducing a file recorded on the optical disk 2. . In addition, the overall operation is controlled so that a file desired by the user is reproduced according to the acquired data.
[0047]
On the other hand, in the case of a DVD-R or DVD-RW in which the optical disk 2 has not been finalized yet, the entire operation is controlled in response to a user operation, and moving image and still image data are recorded. A file and a still image file are recorded on the optical disc 2. Also, it reproduces a moving image file and a still image file recorded on the optical disc 2, displays the reproduction result on the monitor unit 12, and outputs the result to an external device. Further, regarding the optical disk 2 on which such a moving image file and a still image file are recorded, in the optical disk 2 which has been subjected to the finalizing process, the optical disk 2 is recorded in accordance with the UDF recording instead of the VMG recording or in addition to the VMG recording. Play the file recorded in.
[0048]
In these processes, when the optical disk 2 is a DVD-R optical disk and is a virgin disk on which no file or the like is recorded, the microcomputer 4 sequentially transfers the moving image file and the extension file to the optical disk 2 according to the procedure shown in FIG. Record. That is, the microcomputer 4 updates the RMA information acquired from the optical disk 2 and held in the memory, thereby reserving the Rzone 1 (FIG. 3A).
[0049]
When a moving image is recorded, Rzone2 and Invisible Rzone are reserved by updating the information of the RMA in the same manner (FIG. 3A), video data as actual data is sequentially recorded in the Invisible Rzone, and VTSTT. Generate VOBS. When the user gives an instruction to stop recording, management information is generated based on the address information of the recording start position of the VTSTT VOBS, the file size, the recording date and time, and the management information is recorded to generate a VTSI BUP (FIG. 3). (B)) Also, VTSI and VTSM VOBS are generated to generate one VTS (FIG. 3C). The management information is held in the memory so as to correspond to the VTS generated in this way, and the RMA information held in the memory is updated.
[0050]
Subsequently, when recording a moving image, the microcomputer 4 similarly updates the RMA information held in the memory, reserves Rzone2 and Invisible Rzone, then sequentially records the actual data in Invisible Rzone and VTSTT VOBS, VTSI BUP. Is generated, VTSI and VTSM VOBS are generated, management information is recorded in the memory so as to correspond to these, and RMA information held in the memory is updated.
[0051]
Thus, when recording a moving image by the INC method, the microcomputer 4 combines the moving image file and VTSI which is management information of the moving image file necessary for reproducing the moving image file, as in the case of the conventional INC method. The titles are sequentially recorded. When an optical disk 2 that has not yet been finalized is loaded and additional recording is to be performed on this optical disk 2, a similar process is executed to thereby additionally record a moving image that is an imaging result.
[0052]
In these processes, the microcomputer 4 appropriately updates the RMA data stored in the memory, and additionally writes the RMA data stored in the memory to the optical disk 2 when the optical disk 2 is ejected, when the power is turned off, or the like. Thereby, the RMA of the optical disk 2 is rewritten. Thus, the optical disk device 1 can access the optical disk 2 before finalization based on the RMA recording even after the recording in the memory is lost.
[0053]
On the other hand, in the finalizing process, UDF and VMG are recorded in Rzone 1 by the management information generated in this way and held in the memory, and lead-in and lead-out are generated. It is needless to say that, in a case where data is additionally recorded on the optical disc 2 that has not been finalized, UDF and VMG data for the titles are generated by the VTSI and VTSM VOBS of the titles already recorded on the optical disc 2.
[0054]
As a result, in the optical disc apparatus 1, a moving image file is recorded in the DVD video format by the same INC method as in the related art.
[0055]
On the other hand, in the case of recording a still image, an invisible Rzone is reserved first by updating the RMA held in the memory, and a still image file (EF in FIG. 3) which is an extension file is sequentially recorded (FIG. 3). 3 (E)). Further, in order to correspond to the recording of the still image file EF, extended management information, which is management information for temporarily managing a still image, is sequentially created until finalization, and is stored in a built-in memory.
[0056]
Further, when a still image file is recorded by a desired number of files and the end of the recording of the still image file is instructed by the user, the RMA stored in the memory is updated, the Invisible Rzone is closed, and Rzone3 is stored in an area following the still image file. Is reserved (FIG. 3 (F)). Further, the extended management information stored in the memory is converted into a format for recording on the optical disc 2, and the extended management information DK is recorded in the Rzone 3 (FIG. 3 (G)). Here, the extended management information DK is management information necessary for reproducing the extended file, and the details will be described later.
[0057]
As a result, the microcomputer 4 records one or more extended files and extended management information of these extended files on the optical disc 2 as a set. At this time, when the file to be recorded on the optical disk 2 is a moving image file, the management information, the file, and the backup information of the management information are recorded so as to be sequentially continuous. 2, the extension file and the extension management information are sequentially recorded, whereby the recording format of the management information is switched according to the attribute of the file.
[0058]
As a result, the optical disc apparatus 1 records a file of a still image which is not defined by the DVD video format together with management information, together with a file of a moving image in the DVD video format.
[0059]
After recording the extended management information DK in this way, the microcomputer 4 records and holds the extended management information DK in a built-in memory. When recording a still image file again after recording the extended management information DK in this way, the microcomputer 4 similarly records the extended files in a similar manner, and then stores the extended management information DK in response to an end instruction from the user. Record.
[0060]
On the other hand, when recording a moving image subsequently, Rzone and Invisible Rzone are reserved (FIG. 3 (H)), and VTSTT VOBS, VTSI BUP, VTSI and VTSM VOBS are generated (FIG. 3 (I)). Then, a VTS is generated following the extended management information DK (FIG. 3 (J)).
[0061]
When the user instructs the finalization of the optical disc 2, the microcomputer 4 converts the UDF data from the management information (VTSI, VTSTT VOBS) of all the titles created in this way and the extended management information of all the extension files. It is created and recorded on the optical disk 2 (FIG. 3 (K)). Further, VMG data is generated from only the title management information (VTSI, VTSTT VOBS) and recorded on the optical disc 2. In generating the UDF and VMG data, the data is created from the extended management information and the like stored in the memory. When the UDF and VMG are recorded in this manner, the microcomputer 4 creates a lead-in and a lead-out. The microcomputer 4 executes such recording of UDF and VMG, creation of lead-in and lead-out, and recording of the extended management information DK by outputting corresponding data to the DVD signal processing unit 14.
[0062]
Thus, in this embodiment, the management information for the UDF, which is the management information for the computer, is recorded so that the extended file can be recognized and reproduced, whereas the VMG, which is the management information for DVD reproduction, is recorded. With regard to, no information relating to the extension file is recorded.
[0063]
On the other hand, FIG. 4 is a chart showing a series of recording procedures when the optical disc 2 is a DVD-RW, in comparison with FIG. The microcomputer 4 executes padding processing by updating the RMA information acquired from the optical disk 2 and held in the memory, and secures the UDF and VMG areas. If the user instructs recording of a moving image file, the VTSI and VTSM VOBS areas of the subsequent title are secured by padding processing (FIG. 4A). In addition, these processes update the RMA data held in the memory.
[0064]
When the user instructs to start recording, real data based on moving image file data is sequentially recorded to generate VTSTT VOBS, and then management information is generated based on the address information of the recording start position, file size, recording date and time, and the like. VTSI BUP is generated by recording this management information. For recording the subsequent title, areas for VTSI and VTSM VOBS are secured by padding (FIG. 4B). Also, management information is sequentially recorded from a position returned by a predetermined area from the recording start position of VTSTT VOBS, thereby forming VTSI and VTSM VOBS, thereby completing recording of one title (FIG. 4C). ). In these processes, the microcomputer 4 records and holds the title management information in the memory.
[0065]
When a moving image is subsequently recorded, the microcomputer 4 similarly controls the operation of each unit, and in recording a moving image file, the microcomputer 4 controls the operation of the moving image file and the reproduction of the moving image file by the same ROW method as before. Moving image files are sequentially recorded in pairs with VTSI, which is necessary management information.
[0066]
In these processes, the microcomputer 4 appropriately updates the RMA data stored in the memory, and rewrites the RMA of the optical disk 2 with the RMA data stored in the memory when the optical disk 2 is ejected or when the power is turned off. . Thus, the optical disk device 1 can access the optical disk 2 before finalization based on the RMA recording even after the recording in the memory is lost.
[0067]
On the other hand, in the finalizing process, UDF and VMG are generated based on the management information generated in this way and held in the memory, and lead-in and lead-out are generated.
[0068]
As a result, in the optical disc device 1, a moving image file is recorded by the same ROW processing as in the related art.
[0069]
On the other hand, when the user instructs recording of a still image, the microcomputer 4 sets the recording start position of the actual data at the head position of the area secured by padding. Further, the microcomputer 4 sequentially records the still image file EF which is an extended file in response to a recording start instruction from the user (FIG. 4D). Further, in order to correspond to the recording of the still image file EF, extended management information, which is management information for temporarily managing a still image, is sequentially created until finalization, and is stored in a built-in memory.
[0070]
Furthermore, when the still image files are recorded by a desired number of files and the end of the recording of the still image file is instructed by the user, the extended management information held in the memory is converted into a format for recording on the optical disc 2, and the extended management The information DK is recorded, and the VTSI and VTSM VOBS areas are secured by padding for recording the subsequent title (FIG. 4D). Thus, in this case as well, the microcomputer 4 records one or a plurality of extension files and extension management information of these extension files on the optical disc 2 as a set. In the case of a video file, the management information, the video file, and the backup information of the management information are recorded in the order of the backup information. On the other hand, the extension file is recorded in the order of the extension file and the extended management information. By recording the extended management information collectively, the recording format is switched according to the attribute of the file.
[0071]
Thus, when recording a moving image file, the microcomputer 4 records VTSTT VOBS and VTSI BUP with actual data following the area secured by padding, and secures a subsequent area by padding. Returning to FIG. 4, VTSI and VTSM VOBS are recorded to record one title (FIGS. 4E to 4G). When a still image file is recorded, similarly, it returns to the head of the padding, sequentially records and records management information, and then secures an area by padding. Also, in response to a user's instruction for finalization, UDF, VMG, lead-in, and lead-out are created based on such management information (FIG. 4H).
[0072]
FIG. 1 is a chart for explaining the extended management information DK in recording such a moving image file and an extended file. In the following, the extension file EF and the extension management information DK are indicated by numerals indicating the recording order as appropriate. In the recording of the optical disk 2 described above with reference to FIGS. 3 and 4, the microcomputer 4 manages the extended management information DK and the like by managing the information recording surface based on NWA (Next Writable Address) provided in the RMA of the optical disk 2. to manage. Here, NWA indicates the head address of an unrecorded area on the optical disk 2. When the optical disk 2 is loaded, the microcomputer 4 reproduces the NWA from the optical disk 2 and holds the NWA in the memory. The NWA stored in the memory is updated in accordance with the recording. When the optical disk 2 is ejected or when the power is turned off, the NWA recorded on the optical disk 2 is rewritten by the NWA held in the memory in this manner. Thus, even if the optical disk is transferred to another optical disk device during the processing, the microcomputer 4 can confirm the head address of the unrecorded area by using the NWA.
[0073]
In the microcomputer 4, every time the VTS and the extended management information DK are recorded, the temporary VMG (TV) is recorded, and the NWA holding the head address of the area following the temporary VMG (TV) in the memory. Set to. Here, the temporary VMG (TV) is management information for managing the VTS recorded on the optical disc 2 in place of the VMG created by the finalization until the finalization, and the management information of each VTS recorded on the optical disc 2 Is recorded in the form of a table. As a result, in the optical disc 2, the area immediately before the unrecorded area specified by the NWA is reproduced to reproduce the temporary VMG (TV), and the VTSI of each VTS recorded in the temporary VMG (TV) is reproduced. To reproduce various kinds of information necessary for reproducing a moving image file recorded on the optical disk 2. In FIG. 1, the relationship indicated by such an address is indicated by an arrow.
[0074]
In this embodiment, a flag indicating that the table corresponds to the extended management information is set in one of the tables of the temporary VMG (TV), and the latest VM that has been recorded on the optical disc 2 so far is set. An address indicating the head recording position of the extended management information DK is recorded. This allows the optical disc 2 to reproduce the extended management information DK required for reproducing the extended file EF together with the information required for reproducing the moving image file.
[0075]
In FIG. 1A, VTS # 1 of a moving image file is recorded first, a temporary VMG (TV) is recorded, a plurality of extended files EF1, corresponding extended management information DK1, and a temporary VMG are recorded. (T.V) is recorded. In this case, the temporary VMG (TV) recorded at the end is indicated by NWA, and the VTS and the extended management information are respectively indicated by the temporary VMG (TV). The recording position of DK1 is shown. FIG. 1B shows a case where a moving image file (VTS # 2) is further recorded. In this case, the last temporary VMG (TV) recorded after the moving image file is indicated by NWA. The temporary VMG (TV) indicates the recording positions of the first VTS # 1, the extended management information DK1, and the last VTS # 2, respectively.
[0076]
In this way, in the extended management information DK1 in which the recording position is indicated together with the VTS by the temporary VMG (TV), following the extended file EF1, the extended file information EX, the management information CI, and the extended file guide information are sequentially arranged. T. E is recorded and formed. Here, the guide information T. E is information for managing the entire area in which the extension file EF is recorded, and the address of the head recording position is recorded in the above-mentioned temporary VMG (TV), whereby the extension management information DK1 contains Is obtained from the address obtained by reproducing the temporary VMG (TV), and the guide information T. E can be reproduced. In FIGS. 5 and 6, the number at the head of each item is the byte from the head, and the number following is the number of bytes allocated to each item.
[0077]
Extension file guide information As shown in FIG. 5A, E is formed by successively recording a temporary information management table (TMP EXI MAT) and a category information search pointer table (CAT INFO SRPT). Here, the temporary information management table (TMP EXTI MAT) is a table in which the number of subsequent category information search pointer tables (CAT INFO SRPT) is recorded, and the category information search pointer table (CAT INFO) is provided. SRPT) is a table for managing extended files for each attribute.
[0078]
As shown in FIG. 5B, the temporary information management table (TMP EXI MAT) has an identification code indicating the temporary information management table in the first 12 bytes according to ISO / IEC646: 1983 (a-character). Assigned. The version number of the corresponding temporary VMG (TV) is recorded in the next three bytes, and the next one byte is allocated to the reserve. In the next 8 bytes, the extension file guide information T. The data size of E is allocated, the type of record is allocated to the following 1 byte, and the number of the following category information search pointer table (CAT INFO SRPT) is recorded to the following 1 byte. Here, the number of the category information search pointer tables is 1 to 255. The next 13 bytes are allocated to the reserve.
[0079]
Thereby, the guidance information T. E detects the temporary information management table (TMP EXI MAT) based on the temporary VMG (TV) and determines the number of tables registered in the subsequent category information search pointer table (CAT INFO SRPT). It has been made detectable.
[0080]
The category information search pointer table (CAT INFO SRPT) is formed for each attribute of the extension file as shown in FIG. In the category information search pointer table (CAT INFO SRPT), the first 8 bytes are allocated to information indicating the type of the extension file, and the next 3 bytes are flags indicating the creation format of the corresponding management information CI. The address information of the recording start position is assigned. The next one byte is allocated to a reserve, and the next 12 bytes are allocated a time stamp of the recording date and time.
[0081]
As a result, in the optical disc 2, the head file of the category information search pointer table (CAT INFO SRPT) is sequentially traced from the temporary VMG (TV), and the format of the corresponding extended file is determined by recording the first 11 bytes. The recording format of the management information CI and the extension file information EX can be confirmed, and the extension management information DK can be easily extended as necessary to set various recordable extension files in various ways. I have. Since the free format can be defined in this manner, the category information search pointer table (CAT INFO SRPT) can describe the format setter (Vender) in the last 8 bytes. ing.
[0082]
FIG. 6 is a chart showing the management information CI and the extended file information EX. Here, in the management information CI, identification information indicating a category of a file managed by the following extended file information EX, directory information, and the like are recorded, so that compatibility with a file management system in a computer can be maintained. Has been done. On the other hand, the extended file information EX is individual management information of the extended file, and is formed by the file name of the corresponding extended file, the address of the recording start position, and the like.
[0083]
As shown in FIG. 6A, the management information CI has a structure corresponding to the type name assigned to the first 8 bytes of each category information search pointer table (CAT INFO SRPT). FIG. 6A shows management information CI having a basic structure. An identification code indicating management information of an extension file is described in the first 12 bytes in accordance with ISO / IEC646: 1983 (a-character). Then, in the subsequent 8 bytes, information of the model name assigned to the first 8 bytes of the corresponding category information search pointer table (CAT INFO SRPT) is recorded. The directory name of the extension file managed by this management information CI is recorded in the next 8 bytes, and the next 4 bytes are allocated to reserve.
[0084]
Information on the update date and time and the recording date and time is assigned to the next 10 bytes, and the number of extended files managed by the management information CI is recorded in the next 2 bytes. The number of areas in which the extended file information EX managed by the management information CI is recorded is recorded in the following 1 byte, and the subsequent 19 bytes and 64 bytes are allocated to the reserve. Subsequently, area management information is recorded in units of 8 bytes.
[0085]
Here, as shown in FIG. 6B, the area management information is provided by the number of areas where the extended file information EX managed by the management information CI is recorded. In each area management information, the first four bytes are assigned address information M Area FEXF Addr indicating the first recording position of the area where the corresponding extended file information EX is recorded, and the next two bytes are assigned the corresponding extended file information EX. , And the remaining two bytes are allocated to the reserve.
[0086]
As shown in FIGS. 6C and 6D, information necessary for reproducing the corresponding extended file is assigned to the extended file information EX. That is, in the extended file information EX, the first 12 bytes are allocated to an identification code or the like indicating that the file is the extended file information EX, and the subsequent 3 bytes are allocated to extension information. The next one byte is allocated to a reserve, and the next eight bytes are allocated to a file name. The next 4 bytes are assigned to an address indicating the recording start position of the corresponding extended file, and the next 4 bytes are assigned to file size information of the extended file. The next 4 bytes are allocated to the reserve, the next 12 bytes are allocated to the time stamp CR TM indicating the recording date and time of the extension file, the next 10 bytes are used for information indicating the latest update date and time, and the last 8 bytes are allocated to the reserve. Has been made to be assigned.
[0087]
Thus, in the optical disc device 1, the extension file guide information T.V. E, the management information CI, and the extension file information EX are sequentially traced, so that the user can be notified of the extension file recorded on the optical disk 2 by a directory structure, and is necessary for constructing a file management system of a personal computer. Various kinds of information are provided in the guide information T. E, management information CI, and extended file information EX.
[0088]
Since the area management information is defined in the extended management information in this way, in this embodiment, when the extended file EF2 is further recorded than the state shown in FIG. As shown in the extended management information DK2 of the newly recorded extended file EF2, the extended file information EX is recorded only for the newly recorded extended file EF2, and the newly recorded extended file information EX and With the extended file information EX recorded in the extended management information DK1, the extended files EF1 and EF2 can be managed respectively. That is, in this case, two pieces of area management information are assigned to the management information CI, and the head address of the newly recorded extension file information group and the extension file information recorded in the previous extension management information DK1 are assigned to each area management information. By recording the head address of the group, the extended files EF1 and EF2 recorded on the optical disk 2 can be managed by the extended file information EX recorded in a distributed manner. In FIGS. 1 and 7, the extended file information group is indicated by the same reference numeral as the extended file information.
[0089]
In addition, since the management information CI can be set for each file attribute, for example, as shown in FIG. 1D, when an extended file EF3 based on MPEG4 is further recorded, an extended file EF3 based on a still image file is recorded. A category information search pointer table (CAT INFO SRPT) related to EF1 and EF2 and a category information search pointer table (CAT INFO SRPT) related to the extension file EF3 are set, and the corresponding management information is set. In addition to setting the CI, the corresponding management information CI is set to indicate the extended file information EX of the extended files EF1 and EF2 and the extended file information EX of the extended file EF3, respectively. Even with, the extended file information EX recorded distributed on the optical disc 2, are made to be able to manage these extensions files EF1, EF2, EF3.
[0090]
On the contrary, when the extended file EF2 is recorded after the extended file EF1, as shown in FIGS. 7A to 7D by comparison of FIGS. In the extended management information DK2 of the file EF2, the extended file information EX previously recorded in the extended management information DK1 and the extended file information EX of the newly recorded extended file EF2 are collectively recorded. By setting the area management information of the management information CI so as to indicate only the recorded extended file information group, all the extended files EF1 and EF2 recorded on the optical disk 2 are collectively managed by one extended management information DK2. Has been made possible. As shown in FIG. 7D, when extended files having different attributes are recorded, centralized management is performed for each extended file of each attribute.
[0091]
In the case of recording such extended management information DK, when the extended files EF are collectively managed, all extended files recorded on the optical disc 2 can be reproduced by reproducing only one corresponding extended management information. Thus, a desired file can be reproduced in a short time. However, in the case of this method, every time the extended management information is recorded, the extended file information that has been recorded on the optical disc 2 is recorded collectively. For this reason, in this embodiment, the microcomputer 4 records the extended management information by the distributed management based on the setting of the area management information described above, and thereby efficiently uses the information recording surface.
[0092]
That is, in the microcomputer 4, when the optical disk 2 is loaded, or when the power is turned on while the optical disk 2 is loaded, the temporary VMG, the extended management information, and the management information are sequentially reproduced based on the NWA to store the data in the memory. To hold. The management information and the extended management information stored in the memory are updated in accordance with the recording of the moving image file and the extended file, and the management information and the extended management information are recorded on the optical disc 2. In updating the extended management information, the microcomputer 4 specifies the start address of the extended file information group recorded on the optical disk 2 so far, and sets the beginning of the extended file information group relating to the newly recorded extended file. The area management information is set so as to indicate the address, and the extended management information is updated.
[0093]
Further, a UDF is formed by the management information and the extended management information held in the memory in this way, and a VMG is formed by the management information, and a finalizing process is executed.
[0094]
FIG. 8 is a flowchart showing a series of processing of the optical disk 2 by the microcomputer 4. When the power is turned on, the microcomputer 4 proceeds from step SP1 to step SP2, and determines the presence or absence of the optical disk 2 based on the detection result of the optical disk 2 detection mechanism (not shown). Here, if a negative result is obtained, the microcomputer 4 repeats step SP2. On the other hand, if the power is turned on while the optical disk 2 is loaded, or if the optical disk 2 is loaded after the power is turned on, a positive result is obtained in step SP2, and the result in step SP2 is negative. From step SP3. When the power is turned off in the repetition of step SP2, the microcomputer 4 proceeds directly to step SP4 and ends this processing procedure.
[0095]
In step SP3, the microcomputer 4 drives the thread motor 21 to move the optical head 19 to the innermost circumference of the optical disc 2, and obtains the reproduction result of the innermost circumference from the DVD signal processing unit 14, thereby performing finalization. As for the optical disk 2 that has been processed, VMG data is acquired. On the other hand, if the optical disk 2 has not been finalized yet, RMA information is obtained. If it is determined from the RMA information that data has already been recorded in the real-time data recording area of the optical disc 2, the temporary VMG and the management information VTSI data of each title are sequentially acquired based on the NWA. . As a result, the microcomputer 4 acquires management information of the optical disk 2 necessary for recording and reproduction of the optical disk 2 in the same manner as an optical disk device that records and reproduces a normal DVD.
[0096]
In this process, the microcomputer 4 acquires UDF data in addition to VMG data. When the extended management information DK is recorded in the real-time data recording area, the extended management information DK is also acquired. As a result, the microcomputer 4 can reproduce the extended file not defined in the DVD-video format from the optical disc 2 and also acquires the management information of the extended file. The microcomputer 4 records and retains a series of management information acquired in this way in a built-in memory.
[0097]
Subsequently, the microcomputer 4 proceeds to step SP5, determines whether or not the ejection of the optical disc 2 has been instructed. If a positive result is obtained here, the microcomputer 4 instructs the loading mechanism (not shown) to eject the optical disc 2, and then proceeds to step SP2. Return.
[0098]
On the other hand, when an instruction other than the ejection of the optical disk 2 is obtained from the user, the process proceeds from step SP5 to step SP6, and the operation by the user is an operation for instructing recording (indicated by REC) or an operation for instructing reproduction (indicated by REC). It is determined whether the operation for instructing the shutdown of the power supply is indicated (indicated by Power OFF). If the operation by the user is an operation for instructing reproduction, the microcomputer 4 proceeds from step SP6 to step SP7, executes a reproduction processing procedure for reproducing a file recorded on the optical disc 2, and returns to step SP5.
[0099]
On the other hand, if the operation by the user is an operation for instructing recording, the microcomputer 4 proceeds from step SP6 to step SP8, executes a recording processing procedure for recording a moving image or a still image on the optical disc 2, and returns to step SP5. In the case where the optical disc 2 has been subjected to so-called finalization processing to form a UDF or VMG, the microcomputer 4 skips the recording processing procedure and returns to step SP5 because data is not recorded on the optical disc 2. . Even in the case where the optical disk 2 is an erasable DVD-RW, the recorded data is erased by the user's confirmation and the recording processing procedure is executed even when the finalization processing is performed in this manner.
[0100]
On the other hand, if the operation by the user is to turn off the power, the microcomputer 4 proceeds from step SP6 to step SP9, executes the process of turning off the power, moves to step SP4, and ends this processing procedure. The microcomputer 4 updates the record of the NWA in the RMA as necessary so that the latest temporary VMG recorded on the optical disc 2 is indicated by the NWA when the optical disc 2 is ejected or when the power is turned off.
[0101]
In the recording processing procedure of the processing procedures executed in this way, when the optical disk 2 is a DVD-R, the microcomputer 4 records moving image and still image files by the INC method described above with reference to FIG. On the other hand, when the optical disk 2 is a DVD-RW or DVD-RAM, moving image and still image files are recorded by the ROW method described above with reference to FIG.
[0102]
FIG. 9 is a flowchart showing the recording processing procedure described above with reference to FIG. When starting the recording processing procedure, the microcomputer 4 proceeds from step SP11 to step SP12, and determines whether the recording instruction by the user relates to recording of a moving image, recording of a still image, or processing of finalization. to decide.
[0103]
Here, if the recording instruction by the user is related to recording of a moving image, the microcomputer 4 proceeds from step SP12 to step SP13, and determines whether or not recording start is instructed by the user. Here, if a negative result is obtained, the microcomputer 4 repeats step SP13. On the other hand, if a positive result is obtained, the microcomputer 4 proceeds from step SP13 to step SP14, and as described with reference to FIGS. Record. The process further proceeds to step SP15, and determines whether or not the user has instructed to stop recording. If a negative result is obtained here, the process returns to step SP14. Thereby, the microcomputer 4 repeats the processing procedure of steps SP14-SP15-SP14, sequentially records the actual data, and if a positive result is obtained in step SP15, ends the recording of the actual data and completes the recording of the VTSTT VOBS. I do.
[0104]
Subsequently, the microcomputer 4 proceeds to step SP16, and sequentially forms VTSI BUP, VTSI, VTSM VOBS, and forms a temporary VMG. Further, the NWA recorded in the memory is updated so as to indicate the temporary VMG, thereby recording one VTS, and the process proceeds to step SP17 to end the processing procedure.
[0105]
On the other hand, when the instruction by the user is to record a still image, the microcomputer 4 proceeds from step SP12 to step SP18, and determines whether the user has instructed to start recording. Here, if a negative result is obtained, the microcomputer 4 repeats step SP18, whereas if a positive result is obtained, the microcomputer 4 proceeds from step SP18 to step SP19, and as described with reference to FIGS. Record the extension file by. The process further proceeds to step SP20, and determines whether or not the user has instructed to stop recording. If a negative result is obtained here, the process returns to step SP19. Thereby, the microcomputer 4 repeats the processing procedure of steps SP19-SP20-SP19, sequentially records the still image files, and if a positive result is obtained in step SP20, ends the recording of the still image files and proceeds to step SP21. . Here, the microcomputer 4 records the extended management information DK and the temporary VMG, and proceeds to step SP17 to end this processing procedure.
[0106]
On the other hand, when the recording instruction by the user is related to the finalizing process, the microcomputer 4 proceeds from step SP12 to step SP22, and determines whether or not the user has instructed to start recording. Here, if a negative result is obtained, the microcomputer 4 repeats step SP22. If a positive result is obtained, the microcomputer 4 proceeds from step SP22 to step SP23, and performs the finalizing process as described with reference to FIGS. Is executed, the process proceeds to step SP17, and this processing procedure ends.
[0107]
On the other hand, FIG. 10 is a flowchart showing the reproduction processing procedure described above with reference to FIG. When starting the reproduction processing procedure, the microcomputer 4 proceeds from step SP31 to step SP32, and determines whether the user's reproduction instruction relates to recording of a moving image or recording of a still image.
[0108]
Here, when the user's reproduction instruction is related to reproduction of a moving image, the microcomputer 4 proceeds from step SP32 to step SP33, and determines whether or not reproduction start is instructed by the user. Here, if a negative result is obtained, the microcomputer 4 repeats step SP33, whereas if a positive result is obtained, the microcomputer 4 proceeds from step SP33 to step SP34. Here, the microcomputer 4 controls the entire operation based on the management information recorded and held in the memory so as to reproduce the moving image file specified by the user.
[0109]
That is, when the optical disk 2 is a finalized optical disk, the recording position of the corresponding file is detected by the VMG data stored in the memory, and the reproduction from this recording position is instructed to each unit of the optical disk device 1. On the other hand, when the optical disk 2 is an optical disk that has not been finalized, the recording position of the corresponding file is detected by the VTSI of each title stored in the memory, and the reproduction from this recording position is instructed to each unit of the optical disk device 1. .
[0110]
When the reproduction is instructed in this way, the microcomputer 4 subsequently proceeds to step SP35, determines whether or not the user has instructed to stop the reproduction, and if a negative result is obtained here, returns to step SP34. Thereby, the microcomputer 4 repeats the processing procedure of steps SP34 to SP35 to SP34, and sequentially reproduces the moving image file specified by the user. On the other hand, if an affirmative result is obtained in step SP35, the reproduction operation ends, the process moves to step SP36, and this processing procedure ends.
[0111]
On the other hand, if the user's reproduction instruction is for the reproduction of the extension file, the microcomputer 4 proceeds from step SP32 to step SP37, and determines whether or not the user has instructed to start reproduction. Here, if a negative result is obtained, the microcomputer 4 repeats step SP37, whereas if a positive result is obtained, the microcomputer 4 proceeds from step SP37 to step SP38.
[0112]
Here, when the optical disk 2 is a finalized optical disk, the microcomputer 4 detects the recording position of the corresponding file based on the UDF data stored in the memory, and instructs each unit of the optical disk device 1 to reproduce from this recording position. . On the other hand, when the optical disk 2 is an optical disk that has not been finalized, the recording position of the corresponding file is detected from the extended management information DK stored in the memory, and the reproduction from this recording position is instructed to each unit of the optical disk device 1. .
[0113]
When the reproduction is instructed in this way, the microcomputer 4 proceeds to step SP39, determines whether or not the user has instructed to stop the reproduction, and if a negative result is obtained here, returns to step SP38. Thereby, the microcomputer 4 repeats the processing procedure of steps SP38 to SP39 to SP38, and sequentially reproduces the still image file specified by the user. On the other hand, if an affirmative result is obtained in step SP39, the reproducing operation ends, the process moves to step SP36, and this processing procedure ends.
[0114]
(1-2) Operation of First Embodiment
In the above configuration, in the optical disk device 1 (FIG. 1), when the optical disk is loaded by the user with the power turned on, or when the power is turned on with the optical disk loaded, the microcomputer 4 operates. The drive of the sled motor 21 via the DVD signal processing unit 14 and the motor amplifier unit 18 causes the optical head 19 to move toward the inner circumference of the optical disc 2. Further, the optical head 2 irradiates the optical disk 2 with a laser beam, and the result of receiving the return light by the optical head 19 is sequentially processed by the analog front end unit 16 and the microcomputer 4, and the DVD signal processing unit 14 and the motor By controlling the optical head 19 via the amplifier section 18, tracking control and focus control processes are executed. In addition, the data recorded on the optical disc 2 is reproduced by the processing of the DVD signal processing unit 14 on the light reception result. In the optical disk device 1, various information recorded on the inner peripheral side of the optical disk 2 is acquired by the microcomputer 4 by this series of processing, and is stored in a memory built in the microcomputer 4.
[0115]
When the optical disk 2 is a read-only optical disk created by a stamper, or when the optical disk 2 is a finalized optical disk in which only a moving image file is recorded, the microcomputer 4 sends the optical disk 2 VMG data, which is management information for a DVD player, recorded on the inner peripheral side is obtained. Thus, in the optical disc apparatus 1, when the user instructs reproduction of the optical disc 2, the DVD signal processing unit 14 and the spindle motor 20 via the motor amplifier unit 18 drive the spindle motor 20 in accordance with the VMG data to thereby provide the title desired by the user. The optical head 19 seeks to the recording position of, and further, the tracking control and the focus control are performed based on the light receiving result of the optical head 19, and the light receiving result of the optical head 19 is read by the DVD signal processing unit 14, the header information processing unit 7, the compression / The data is sequentially processed by the decompression processing unit 6 to reproduce video data of a moving image. That is, a reproduction signal whose signal level changes in accordance with the pit train of the optical disk 2 as a light reception result is processed by the analog front end unit 16 to generate reproduction data, and the reproduction data is decoded and deinterleaved by the DVD signal processing unit 14. And error correction processing. The reproduced data subjected to the error correction processing is input to the header information processing unit 7, where the header is removed, and the information of the header is notified to the microcomputer 4. Subsequently, the data is input to the compression / decompression processing unit 6, separated into video data and audio data by the multiplex processing unit 10, and the video data is decompressed by the video processing unit 8 according to the MPEG by the video processing unit 8. It is displayed or output from the video / encoder 13 to an external device. On the other hand, the audio data is decompressed by the audio processing unit 11 and then provided for monitoring by the monitor unit 12 or output to an external device by the video / encoder 13.
[0116]
On the other hand, when the optical disk 2 is a recordable virgin disk, the microcomputer 4 acquires the RMA data of the optical disk 2 by accessing the optical disk 2 when the optical disk 2 is loaded or when the power is turned on. In the optical disc device 1, when the user selects the moving image shooting mode, when the optical disc 2 is a DVD-R (FIG. 1), the microcomputer 4 forms the UDF and VMG by updating the RMA stored in the memory. The area is reserved by the reservation of Rzone1. When the optical disk 2 is a DVD-RW or the like (FIG. 2), similarly, the data of the RMA is updated, and areas for forming the UDF and VMG and areas for generating the VTSI and VTSM VOBS of the first VTS are secured by padding. .
[0117]
In this state, when the user instructs to start recording, video data and audio data are sequentially input from the video input unit 3 and the audio input unit 5, and the video data is subjected to data compression processing by the video processing unit 8 based on MPEG. The audio data is subjected to data compression processing by the audio processing unit 11. Further, the multiplexed processing section 10 multiplexes the compressed video data and audio data, and the header information processing section 7 adds a header to the processing result data. In the subsequent DVD signal processing unit 14, after an error correction code is added, an interleave process and an encoding process are performed, and the light amount of the laser beam irradiated from the optical head 19 to the optical disc 2 is converted into an analog front end unit according to the data of the processing result. 16 is started up, thereby sequentially forming a pit row on the optical disc 2, and video data of a moving image is sequentially recorded.
[0118]
In the optical disk device 1, when the user instructs to stop recording, a series of processes in the compression / decompression processing unit 6 and the like are controlled to be stopped by the microcomputer 4, and the recording of the video data is stopped. The management information of the moving image file is recorded on the optical disc. That is, in the optical disc apparatus 1, management information is generated by the microcomputer 4 from information such as position information, file size information, recording date and time, and the like, on which a moving image is recorded, and the management information is recorded following the video data. The management information is output to the DVD signal processing unit 14 and recorded on the optical disc 2, thereby forming a VTSI BUP area. When the optical disk 2 is a DVD-RW or the like, an area for generating the VTSI and VTSM VOBS of the subsequent VTS is secured by padding, and the optical head 19 seeks to an area for generating the previously secured VTSI and VTSM VOBS. In this area, similar management information is output to the DVD signal processing unit 14 and recorded on the optical disc 2, thereby forming an area of VTSI and VTSM VOBS. When the optical disk is a DVD-R, the same processing is executed by reservation of Rzone.
[0119]
Thus, in the optical disc device 1, video data of a moving image is recorded in one title. Accordingly, in the optical disc apparatus 1, when recording a file in a moving image, the management information and the file are recorded in a DVD video format in which management information by VTSI, management information by VTSM VOBS, a moving image file, and management information by VTSI BUP are continuous. Is done.
[0120]
In the optical disk device 1, when the user subsequently instructs recording of a moving image, titles are sequentially recorded on the optical disk 2 by repeating the same processing. In the optical disc device 1, when one title is recorded in this way, a temporary VMG indicating the VTSI recording position is recorded following the VTSI BUP, and a subsequent area is secured. Further, the NWA of the RMA stored in the memory is updated so as to indicate an area following the temporary VMG, and the NWA stored in the memory is recorded on the optical disk 2 by discharging the optical disk 2 and turning off the power. As a result, the optical disk device 1 can reproduce the VTSI by sequentially tracing the NWA and the temporary VMG until finalization, thereby obtaining information necessary for reproducing the subsequent moving image file. A desired moving image file can be reproduced in accordance with the VTSI record acquired in this manner.
[0121]
In the optical disc device 1, the title is recorded in this way, and when the finalization process is instructed by the user, UDF and VMG data are generated by management information forming a pair with the title recorded in the memory, These are recorded in the inner peripheral area secured on the optical disk 2, and lead-in and lead-out are formed. As a result, this optical disc is set to be playable by a DVD player that supports only the normal DVD format.
[0122]
On the other hand, if the user selects the still image recording mode, the UDF and VMG areas are secured on the virgin disk by updating the RMA stored in the memory and padding in the same manner as in the case of the moving image. Is done. Further, in the optical disk device 1, the operation mode of the imaging means is switched to the still image mode, and the operation mode of the compression / decompression processing unit 6 is switched to the JPEG data compression operation mode.
[0123]
In this state, when the start of recording of a still image is instructed by the user, the video data of the still image input from the video input unit 3 is compressed by the video processing unit 8 of the compression / decompression processing unit 6 in the JPEG format. Thereafter, the multiplexing unit 10 multiplexes the audio data output from the audio processing unit 11 with the audio data. As a result, in the optical disk device 1, data to be recorded is generated by video data of a still image instead of video data of a moving image, and this data is sequentially recorded on the optical disk 2 in the same manner as in the case of a moving image.
[0124]
In the optical disc device 1, in recording a moving image, first, an area of VTSI and VTSM VOBS is secured and actual data is recorded. On the other hand, in recording of a still image, such an area is not secured. Record the actual data as a still image. When the user instructs recording of a subsequent still image, the subsequent still image is similarly recorded on the optical disc 2. For each of these recordings, the recording position of each file is recorded in the memory.
[0125]
In this manner, the optical disk device 1 records the desired number of still image files on the optical disk and instructs the user to switch the operation mode to stop recording the still image. The extended management information DK for the plurality of files is recorded in a subsequent area. A temporary VMG is recorded so as to indicate the extended management information DK together with the management information of the moving image file, and further, the NWA is updated. As a result, the optical disc apparatus 1 can record files such as still images that are not defined in the DVD video format on the optical disc 2.
[0126]
When the optical disk 2 recorded in this manner is loaded into an optical disk device that supports only the normal DVD video format, management information recorded in accordance with a DVD video format such as VTSI with reference to the temporary VMG is detected. By reproducing the VTS, the file such as a still image recorded in this way and the corresponding extended management information can be prevented from affecting the reproduction of the moving image at all. As a result, in the optical disk recorded in this manner, a moving image file can be reproduced by a normal DVD player.
[0127]
On the other hand, according to the optical disk device that also supports such files other than moving images, it is possible to reproduce still image files. That is, when such an optical disk 2 is loaded, the optical disk device 1 reproduces the management information and the extended management information DK by searching the optical disk 2 based on the NWA, and holds it in the memory of the microcomputer 4.
[0128]
Thus, for example, a title of a moving image and a still image recorded on the optical disc 2 can be provided to the user according to a user's instruction. When the user instructs the reproduction of a moving image according to the reproduction instruction from the user, the corresponding moving image file is reproduced on the reproduction-only optical disk by the data of the VTS and VTSM VOBS in the same manner as described above.
[0129]
On the other hand, when the user instructs the reproduction of the still image file, the recording position of the corresponding file is detected from the extended management information stored in the memory, and the data recorded on the optical disk 2 is sequentially reproduced based on the detection result. Then, it is processed by the same route as the reproduction data of the moving image. In the optical disk device 1, when processing the reproduction data of a still image in the processing of the reproduction data, the processing of the video processing unit 8 is switched by the microcomputer 4 so as to decompress the video data compressed by JPEG. Thus, the video data of the still image can be confirmed by the monitor unit 12 and further output from the video / audio encoder 13 to an external device.
[0130]
In general, the file size of such a still image file is smaller than that of a moving image file. On the other hand, in the optical disc apparatus 1, such extended management information as management information is collected for a plurality of files. Created and recorded. As a result, in the optical disc device 1, when recording such an extended file as a still image file or the like, it is possible to reduce the decrease in the recording area due to the recording of management information.
[0131]
When a plurality of files are collectively recorded as described above, the files are collectively recorded for each file type, which is the attribute of the file, thereby simplifying search processing, finalizing processing described later, and the like. It has been done.
[0132]
In particular, in this embodiment, the extension file and the extension file information of each extension file are recorded as a set, and the setting of the area management information in the extension management information DK causes the other sets recorded so far to be recorded. Is indicated by the area management information, and the extended file information EX, which is information necessary for reproducing the individual extended files recorded collectively, is distributed and managed by recording the area management information. As a result, the information recording surface of the optical disk 2 can be used more effectively than in a case where such extended file information is collectively recorded as extended management information.
[0133]
In the optical disk device 1, the so-called virgin disk, the optical disk that records only moving images and has not been finalized, and the optical disk that records moving image and still image files and has not yet been finalized, It is sequentially recorded by the operation of the user.
[0134]
On the other hand, when the finalization is instructed by the user with respect to the optical disk on which the moving image and the still image are recorded in this manner, the management information, the extended management information acquired from the optical disk and held in the memory, the moving image and the still image UDF data for a computer is created based on management information and extended management information created by recording and held in a memory, and this data is recorded in an area previously secured on the optical disc 2. Further, VMG data for a DVD player is generated only from the management information of the moving image file, and is recorded on the optical disk 2 in the same manner.
[0135]
As a result, in the optical disc apparatus 1, all the files recorded on the optical disc 2 are collectively recorded in the UDF area, which is the first management information recording area, of the management information recording area of the optical disc 2. Then, a file management system in the computer is constructed, whereas only a moving image file having a specific attribute recorded on the optical disc is set in the VMG area for DVD which is the second management information recording area. Management information is collectively recorded and a file management system in the DVD video format is constructed.
[0136]
Thus, when the finalized optical disk is reproduced by a DVD player, the file recorded on the optical disk 2 is reproduced with reference to the VMG area for DVD. Thus, the moving image in the DVD video format can be reliably reproduced without affecting the reproduction of the moving image at all.
[0137]
When the finalized optical disk is played back by a computer, the UDF is a file management format corresponding to the file management system of the computer. In addition, files such as still images can be reproduced and used.
[0138]
When such an optical disk 2 is reproduced by the optical disk device 1, the optical disk device 1 reproduces the optical disk 2 based on the UDF instead of the VMG, or the optical disk 2 based on the UDF in addition to the VMG. By reproducing No. 2, not only a moving image file recorded in this way but also a still image file can be reproduced.
[0139]
(1-3) Effects of the first embodiment
According to the above configuration, the extended file and the extended file information are recorded as a set, and the extended file information of another group can be indicated by the area management information. In addition to this, files such as still images other than moving images can be recorded.
[0140]
That is, since the extended file information is at least the address of the recording start position of the corresponding extended file, the file size, and the file name, the extended file can be recorded in a reproducible manner as indicated by the area management information. it can.
[0141]
Also, since the area management information is at least the address of the recording start position of the extended file information recorded collectively and the information of the number of files, the extended file information can be reproduced without fail based on the area management information, This makes it possible to reliably record the corresponding extended file in a reproducible manner.
[0142]
Also, a temporary VMG which is temporary management information is recorded together with the extended management information and the management information of the moving image file, and the temporary management information can be reproduced by an address indicated by NWA which is data of a fixed area of the optical disc, By assigning the temporary management information to the management information of the moving image file recorded on the optical disk and the information indicating the recording position of the latest extended management information, the moving image file and the extended file can be combined into one temporary file. And the information recording surface can be effectively used.
[0143]
In the extended management information, by managing the extended file information for each attribute of the extended file, it is possible to manage different types of extended files in a distributed manner, thereby effectively using the information recording surface. Thus, various extended files can be recorded in a reproducible manner.
[0144]
That is, based on the extended management information recorded in this manner, the moving image file recorded on the optical disk based on the management information of the moving image file, and by reproducing the extended file, various files other than the moving image are recorded on the optical disk. Can be played.
[0145]
In addition, in accordance with an instruction from the user, information necessary for reproducing the moving image file and the extended file is collectively recorded in the inner peripheral area of the optical disk by using the management information and the extended management information, and the subsequent area is used to reproduce the moving image file by using the management information. By recording necessary information in a lump, it is possible to execute the finalizing process also on the extended file.
[0146]
The inner side area is an area corresponding to a file management system by a computer, and the subsequent area is an area corresponding to a file management system of a DVD video format. It can be reproducible.
[0147]
(4) Other embodiments
In the above-described embodiment, a case has been described in which a series of processing is executed by a processing program pre-installed in the optical disc apparatus. The present invention can be widely applied to the case where this type of processing procedure is executed by installing the program, and the case where this type of processing procedure is executed by installing programs provided by various recording media. Note that as such a recording medium, a recording medium such as a magnetic disk, an optical disk, and a magnetic tape can be applied.
[0148]
Further, in the above-described embodiment, the case where the moving image file and the extension file are sequentially recorded in the continuous area has been described, but the present invention is not limited to this, and the area for the moving image file and the area for the extension file are respectively set. It can also be widely applied to recording moving image files and extended files.
[0149]
In the above-described embodiment, a case has been described in which the temporary VMG, which is one piece of management information, points to the management information of the moving image file and the extended management information. However, the present invention is not limited to this. Alternatively, the management information may be individually set.
[0150]
Further, in the above-described embodiment, a case has been described in which the temporary VMG, which is management information, is indicated by the NWA. However, the present invention is not limited to this, and the point is that the management information is stored in the fixed area of the optical disk 2 using the information. A similar effect can be obtained as indicated.
[0151]
Further, in the above-described embodiment, a case where a still image file is recorded as an extension file has been described. However, the present invention is not limited to this, and various files such as a text file and a music file can be applied to the extension file. it can.
[0152]
Further, in the above-described embodiment, the case where the present invention is applied to an optical disk device having an imaging function has been described. Can also be widely applied.
[0153]
【The invention's effect】
As described above, according to the present invention, the extended file and the extended file information are recorded as a set, and the extended file information of another set can be indicated by the area management information, whereby the information recording is performed. It is also possible to record files such as still images other than moving images by effectively using the surface.
[Brief description of the drawings]
FIG. 1 is a chart for explaining extended management information according to an embodiment of the present invention.
FIG. 2 is a block diagram showing an optical disc device according to the embodiment of the present invention.
FIG. 3 is a table provided for describing recording by an INC method in the optical disc device of FIG. 2;
FIG. 4 is a table provided for describing recording by a ROW method in the optical disc device of FIG. 2;
FIG. 5 is a chart showing extended management information.
FIG. 6 is a table showing a relationship between extended file information and extended management information.
FIG. 7 is a table showing a case where an extended file is managed in a concentrated manner in comparison with FIG. 1;
FIG. 8 is a flowchart illustrating a processing procedure of a microcomputer in the optical disc device of FIG. 2;
FIG. 9 is a flowchart showing a recording processing procedure in the processing procedure of FIG. 8;
FIG. 10 is a flowchart showing a reproduction processing procedure in the processing procedure of FIG. 8;
FIG. 11 is a table provided for explanation of a DVD video format.
FIG. 12 is a chart for explaining recording by the INC method;
FIG. 13 is a chart for explaining recording by a ROW method.
[Explanation of symbols]
1 optical disk device, 2 optical disk, 4 microcomputer, 6 compression / decompression processing unit

Claims (18)

In an optical disc apparatus for recording a moving picture file and management information of a moving picture file necessary for reproducing the moving picture file on an optical disc,
Recording on the optical disk a set of one or more extended files other than the moving image file and extended management information of the extended file;
In the extended management information,
Extended file information necessary for reproduction of the extended file according to at least the same set,
Area management information indicating the recording position of the extended file information of the other set recorded until then,
An optical disc device, wherein area management information indicating a recording position of the extended file information relating to the same group is assigned. The extended file information is
2. The optical disk device according to claim 1, wherein the information includes at least an address of a recording start position of the corresponding extension file, a file size, and a file name. The area management information is
2. The optical disk device according to claim 1, wherein the information is at least an address of a recording start position of the extended file information and a number of files recorded collectively. The extended management information, together with the management information of the video file, while recording the temporary management information, in a fixed area of the optical disc, recording the recording position information of the temporary management information,
2. The temporary management information according to claim 1, wherein management information of the moving image file recorded so far on the optical disc and information indicating a recording position of the latest extended management information are assigned. Optical disk device. The extended management information includes
2. The optical disk device according to claim 1, wherein the extension file information is managed for each attribute of the extension file. 2. The optical disk apparatus according to claim 1, further comprising a reproducing unit that reproduces the moving image file and the extended file recorded on the optical disc based on the extended management information and the moving image file management information. At the direction of the user,
In the inner peripheral area of the optical disc, collectively recording information necessary for reproducing the moving image file and the extended file by the management information and the extended management information,
2. The optical disk device according to claim 1, wherein information necessary for reproducing the moving image file is collectively recorded in a subsequent area by the management information. The inner peripheral area is an area corresponding to a file management system by a computer,
The optical disk device according to claim 7, wherein the subsequent area is an area corresponding to a DVD video format file management system. A method for recording an optical disk, wherein a moving image file and management information of a moving image file necessary for reproduction of the moving image file are recorded as a set on an optical disk,
An extended file recording step of recording on the optical disk a set of one or more extended files other than the moving image file and extended management information of the extended file,
The step of recording the extension file includes:
In the extended management information,
Extended file information necessary for reproduction of the extended file according to at least the same set,
Area management information indicating the recording position of the extended file information of the other set recorded until then,
A recording method for an optical disc, characterized by allocating and recording area management information indicating a recording position of the extended file information according to the same set. Recording the temporary management information together with the extended management information and the management information of the moving image file, and recording the temporary management information recording position information in a fixed area of the optical disc. Have
The recording step of the temporary management information,
10. The temporary management information according to claim 9, wherein management information of the moving image file recorded on the optical disk and information indicating a recording position of the latest extended management information are assigned to the temporary management information. Optical disk recording method. 10. The recording of the optical disk according to claim 9, further comprising a reproduction step of reproducing the moving image file and the extended file recorded on the optical disk based on the extended management information and the management information of the moving image file. Method. In response to user instructions,
In the inner peripheral area of the optical disc, collectively recording information necessary for reproducing the moving image file and the extended file by the management information and the extended management information,
10. The optical disk recording method according to claim 9, further comprising: a finalizing step of collectively recording information necessary for reproducing the moving image file using the management information in a subsequent area. In a program of a method of recording an optical disk, a moving image file and management information of the moving image file necessary for reproduction of the moving image file are recorded as a set on an optical disk.
An extended file recording step of recording on the optical disk a set of one or more extended files other than the moving image file and extended management information of the extended file,
The step of recording the extension file includes:
In the extended management information,
Extended file information necessary for reproduction of the extended file according to at least the same set,
Area management information indicating the recording position of the extended file information of the other set recorded until then,
A program for a recording method for an optical disk, wherein the program is allocated and recorded with area management information indicating a recording position of the extended file information according to the same set. Recording the temporary management information together with the extended management information and the management information of the moving image file, and recording the temporary management information recording position information in a fixed area of the optical disc. Have
The recording step of the temporary management information,
14. The temporary management information according to claim 13, wherein management information of the moving image file recorded on the optical disk and information indicating a recording position of the latest extended management information are assigned. Program of recording method for optical disk. In response to user instructions,
In the inner peripheral area of the optical disc, collectively recording information necessary for reproducing the moving image file and the extended file by the management information and the extended management information,
14. The program according to claim 13, further comprising a finalizing step of collectively recording information necessary for reproducing the moving image file by the management information in a subsequent area. In a recording medium recording a program of an optical disc recording method for recording a movie file and a movie file management information required for reproducing the movie file as a set on the optical disc,
The program of the recording method of the optical disc,
An extended file recording step of recording on the optical disk a set of one or more extended files other than the moving image file and extended management information of the extended file,
The step of recording the extension file includes:
In the extended management information,
Extended file information necessary for reproduction of the extended file according to at least the same set,
Area management information indicating the recording position of the extended file information of the other set recorded until then,
A recording medium storing a program for a recording method for an optical disk, wherein the program is allocated and recorded with area management information indicating a recording position of the extended file information according to the same set. Recording the temporary management information together with the extended management information and the management information of the moving image file, and recording the temporary management information recording position information in a fixed area of the optical disc. Have
The recording step of the temporary management information,
17. The temporary management information according to claim 16, wherein management information of the moving image file recorded on the optical disk and information indicating a recording position of the latest extended management information are assigned. Recording medium on which a program for recording an optical disc according to the present invention is recorded. In response to user instructions,
In the inner peripheral area of the optical disc, collectively recording information necessary for reproducing the moving image file and the extended file by the management information and the extended management information,
17. The recording medium according to claim 16, further comprising a finalizing step of collectively recording information necessary for reproducing the moving image file by the management information in a subsequent area.

Images