JPH08163507A - Reproduction device - Google Patents

Abstract

PURPOSE: To allow the user to simply and correctly to recognize a content of a track by extracting video data at an index point so as to generate track digest video data. CONSTITUTION: A changer type reproduction device extracts representative video data from each of disks contained in each of containers 301 -305 and displays the data separately on one screen. When a disk is designated, a representative image is read from each track of the disk, e.g. first I picture data of the track are read and reduced and listed on one screen. Furthermore, when other track is designated and an index point is set to the track, video data corresponding to the point are displayed separately on one screen as track digest. When no index point is set, a controller 53 calculates a reproduction time of the track and calculates the address point through 9 divisions and the image of each point is displayed separately on one screen as the track digest.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reproducing apparatus corresponding to a recording medium on which image data such as a video CD is recorded.

[0002]

2. Description of the Related Art CD-DA (CD digital audio)
Various so-called ROM type disc media such as a video CD and a video CD have become popular. In CD-DA, digital audio data is recorded so that music or the like can be enjoyed with high sound quality, and CD-G in which still image data is recorded in subcode data is also known as a kind of this CD-DA. There is. Further, as a kind of so-called CD-ROM, a video CD in which moving image data is recorded together with digital audio data has been developed.

[0003]

By the way, in these discs, audio and video are recorded in units of tracks. For example, in a CD-DA with 10 songs, each song is one track, and 10 tracks are recorded. The same applies to video CDs. Further, if the disc maker wants to subdivide a certain track, index information can be added. For CD-DA, for example, 1
By adding index information to each movement of one song and performing index access operation by the user, it is possible to reproduce from any movement.

In the case of a video CD, for example, a movie etc.
When the reproduction time of the track is long, the index information is added to allow the user to access a certain point in the track. For this reason, an address point called an entry address can be recorded for each track, and it is specified that this can be used as index information. However, the index information is recorded by the disc manufacturer,
Actually, many disc softwares do not have index information added.

Here, in a reproducing apparatus compatible with a video CD, a user can schematically display the contents of a disk or track by extracting a plurality of video data from the video data recorded on the disk and displaying the list. A feature called digest play has been developed that can be confirmed in. For example, when the user performs a digest play operation by designating a certain track, the reproducing device sets points divided into, for example, about 9 points, and the video data is read from each point. Then, each read video data is reduced so that it is divided into one screen and displayed. By displaying such a digest screen, the user can know the contents of the track at a glance, which is convenient for use.

However, when the video data is simply extracted at each of the points where the track is divided into n pieces and the digest display is executed, not only an appropriate video is displayed in terms of recognition of the track contents, but In some cases, it was difficult to determine the contents. In order to extract video data suitable for content determination, it is preferable to incorporate the video data of the index point into the digest video for the track to which the index information is added.
However, such a digest play system has not been developed.

[0007]

Therefore, according to the present invention, for a track to which index information is added, the video data of the index point is incorporated into the digest video, so that the user can more accurately and accurately perform the track digest. The purpose is to enable easy recognition of track contents.

Therefore, in a reproducing apparatus capable of reproducing a recording medium in which video data is recorded on a track-by-track basis, index information for further subdividing the track is first added to the track on the recording medium. A detecting means for detecting whether or not the track is being recorded is provided, and a track digest operating means for outputting a track digest screen for a certain track is provided.
Then, as the video output control means, when the presence of the index information is determined by the detection means for the corresponding track when the operation by the track digest operation means is executed, the data reading from the reproduction position indicated as each index information is performed. By executing it, the required video data corresponding to each index information is read, and each read video data is reduced and the track digest video data displayed in one screen can be generated and output. To do.

Further, the video output control means divides the corresponding track into n when the detecting means determines that the index information does not exist when the operation by the track digest operating means is executed. The playback position is calculated by a predetermined calculation process, the data is read from each calculated playback position, the required video data corresponding to each playback position is read, and each read video data is reduced. The track digest video data displayed on one screen can be generated and output.

[0010]

[Function] For the track to which the index information is added, the video data at the index point is extracted to generate the track digest video data, so that the track digest video is an appropriate video for content confirmation. It will be formed by.

[0011]

EXAMPLE A video CD and a C will be described below as examples of the present invention.
A reproducing apparatus capable of reproducing video / audio for D-DA (digital audio CD and CD-G) will be described. The description will be given in the following order. 1. Data format of video CD 2. Video CD track structure 3. Arrangement of video CD on disc 4. Video CD data track 5. Appearance of playback device 6. Circuit block of playback device 7. Track digest operation

[1. Data Format of Video CD] Video C
The D standard is MPE standardized as a high-efficiency coding technology.
By applying the G method, it is possible to reproduce a moving image and sound for 60 minutes or more from a CD-ROM disc. This makes it useful as household software for music, movies, karaoke, and the like, and can also be combined with still images to support educational software, electronic publishing software, game software, and the like. In this video CD, moving image data is compressed by the MPEG system, and this moving image data is multiplexed and recorded with the compressed audio data. Further, management data necessary for reproduction is recorded in a predetermined area. FIG. 8 shows a data format of the video CD (XA specification).

As a recording format of image and audio, as shown in FIG. 8, 1.152 Mbit /
64 Kbit / sec to 384 Kbit / sec are allocated to the second and audio data. The pixel size of video data (moving image) is
352 x 240 pixels for NTSC signal (29.97Hz) and film (23.976Hz), 35 for PAL signal (25Hz)
It becomes 2 × 288 pixels, that is, as shown in FIG. In the case of the NTSC system, the number of pixels of a still image is 352 × 240 pixels at the standard level and 704 at the high definition level.
× 480 pixels. In the case of the PAL system, 352 × 288 pixels at the standard level and 704 × 57 at the high definition level
There are 6 pixels.

Video data (moving image) according to the MPEG system
The compression encoding of is performed as follows. If the video signal before compression is the NTSC system, the case of this NTSC system is 1
It is composed of video signals of 30 frames per second. MP
In the EG method, each video signal (1 frame) is divided into blocks in the plane direction (horizontal 22 block division, vertical 15 block division, 330 block), data of each block is DCT converted, and the number of bits is further increased. Requantization is performed to reduce the number (high frequency components are set to 0). Then, the blocks are rearranged in a zigzag manner from the block at the upper left of the screen of one frame, and run length coding is performed to further compress the number of bits.

Each frame of the video signal thus compressed is very similar to the video information in the frames preceding and succeeding in time, and this information is used to further compress the information. , Three types of video data with different compression levels (one frame of video data) are provided. These are I picture (Intra Picture), P picture (Predicted Picture), and B picture (Bidirecti).
Called onally predicted Picture).

For each of the 30 frames per second, generally, I picture, P picture and B picture are arranged as shown in FIG. 9A. For example, in this case, frames at 15-frame intervals are I pictures I ₁ and I _2, and eight P pictures P ₁
˜P ₈ and 20 B pictures B _{1 to} B ₂₀ are arranged as shown. The section from a certain I-picture to the frame before the next I-picture is GOP (Grou
p of Picture).

The I picture is the normal image data encoded by the DCT conversion as described above. As shown in FIG. 9B, the P picture is generated by coding from the closest I picture or P picture using motion compensation. For example, P picture P ₁ is generated using I picture I ₁ , and P picture P ₂ is generated using P picture P ₁ . Therefore, the P picture is more compressed than the I picture. Since the I-picture and the P-picture are sequentially generated, if an error occurs, the error propagates.

The B picture is generated using both past and future I pictures or P pictures as shown in FIG. 9C. For example, B pictures B ₁ and B ₂ are generated using I picture I ₁ and P picture P ₁ , and B pictures B ₃ and B ₄ are generated using P picture P ₁ and P picture P ₂ . The B picture is the most compressed data. Further, since it does not serve as a data generation reference, no error is propagated.

In the MPEG algorithm, it is allowed to select the position and synchronization of the I picture, and this selection is decided in consideration of the degree of random access and scene cut. For example, if importance is attached to random access, FIG.
As shown in (a), at least two I-pictures are required for one second. Furthermore, the frequency of P pictures and B pictures can also be selected, and this is set according to the memory capacity of the encoding means.

Further, the encoding means in the MPEG system rearranges and outputs the video data stream so that the efficiency of the decoder is improved. For example, in the case of FIG. 9A, the frame order to be displayed (decoder output order) is the same as the frame number shown in the lower part of FIG. 9A, but the B picture is used because the decoder recomposes the B picture. A P picture that becomes a reference earlier is needed. Therefore, on the encoder side, the frame order of FIG. 9D is rearranged as shown in FIG. 9E, and this is transmitted as a video data stream.

The MPEG audio data format is compatible with a wide range of coding rates from 32 kbit / sec to 448 Kbit / sec. However, considering the simplified software production and high sound quality, 224 Kbit /
Seconds. The sampling frequency is 44.1 as in CD-DA.
It is KHz.

In addition to video data and audio data, management data for controlling various playback operations of these are recorded on the video CD. That is, CD-DA
Similarly, the TOC and the sub-code are recorded to indicate the number of tracks, the start position (absolute time) of each track, and the like. Further, the track 1 is used as a video CD data track on the video CD, and various management information is recorded therein. The video CD data track will be described later.

[2. Track Structure of Video CD] For example, the data structure of a track on which video and audio data which is unit data of one piece of music is recorded is as shown in FIG. Assuming to search by track number like CD-DA, a pause margin of 150 sectors is set at the beginning of one track. Further, 15 sectors following the pause margin are used as a front margin, and the last 15 sectors of the track are used as a rear margin, which are empty data areas.

M between the front margin and the rear margin
It is a PEG data area. In the MPEG data area,
As shown in FIG. 11B, the sectors V serving as video data and the sectors A serving as audio data are time-division multiplexed and recorded by interleaving so that they are arranged at an average ratio of 6: 1. It will be.

[3. Arrangement of video CD on disk] C
The structures of the D-DA and the video CD on the disc are shown in FIG. In the CD-DA, a lead-in area is provided on the innermost circumference side of the disc as shown in FIG.
Data is recorded. As the TOC data, the start position of each track, the number of tracks, the playing time, etc. are recorded. Following the lead-in area, track data is recorded as tracks # 1 to #n, and a lead-out area is provided at the outermost peripheral position. On each track, 16-bit quantized digital audio data is recorded together with subcode data at 44.1 KHz sampling.

On the other hand, the structure of the video CD on the disc is shown in FIG. For video CDs, CD-D
Similar to A, a lead-in area is provided on the innermost side of the disc and TOC data is recorded. Then, tracks # 1 to #n are recorded following the lead-in area, and a lead-out area is provided at the outermost peripheral position.

However, in the case of a video CD, track # 1 is not used for recording actual video or audio data as the first track, but is used as a video CD data track. And track # 2 to track #
Actual video / audio data is recorded in n. That is, the tracks # 2 to #n are configured by the video sector V and the audio sector A as shown in FIG.
In the case of a video CD, it is possible to provide a track in which only audio data is recorded. In that case, the CD-
16-bit quantized digital audio data is recorded at 44.1 KHz sampling similar to DA.

The number of tracks can be up to 99 in both CD-DA and video CD. Therefore CD
-Up to 99 songs for DA, up to 98 for video CD
Sequence can be recorded. A sequence is one continuous segment of a moving image. For example, when an image such as karaoke is recorded, one song (one track) is one sequence, and in the case of a movie, one disc is usually one sequence. Becomes

The video CD data track using the track # 1 has a PVD (basic volume descriptor), a karaoke basic information area, a video CD information area, a segment play item area, etc. as shown in the lower part of FIG. 12 (b). Files (such as a CD-I application program) are prepared.

[4. Video CD Data Track] Video C recorded using Track # 1 on Video CD
The D data track will be described. First, FIG. 12 (b)
As shown in, the PVD is arranged at a position from the absolute time address 00:02:16 (minute / second / frame) on the disk. The karaoke basic information area is located at the absolute time address 00:02:16. The video CD information area is arranged at a position from the absolute time address 00:04:00. The segment play item area is from the position shown in the video CD information area, and the CD-I application program is PVD.
It is arranged from the position shown in each.

The PVD (Basic Volume Descriptor) located at the absolute time address 00:02:16 has a volume structure standard ID, a system identifier, a volume identifier, the number of album volumes, and an album set sequence number. , Root directory record, album identifier, publisher, author name, etc. are recorded in a predetermined format.

Next, the absolute time address 0 on the disk
Video CD information is recorded from 0:04:00. As the video CD information, disc information, an entry table, a list ID offset table, and a play sequence descriptor (PSD) are provided as shown in FIG. The disc information is the absolute time address 00:00 which is the start position of the video CD information.
It is arranged from 4:00. The entry table is arranged from the absolute time address 00:04:01. The list ID offset table is the absolute time address 00:00
It is arranged at a position from 4:02 to absolute time address 00:04:33. The play sequence descriptor (PSD) is arranged from the absolute time address 00:04:34, and the maximum is the absolute time address 00:07:64.

In the disc information allocated from the absolute time address 00:04:00, the video CD
System recognizer, version number, album recognizer,
The number of volumes in the album, album set sequence number, video track size map, status flag, PSD (play sequence descriptor) byte size, segment play item area start point, offset multiplier, segment play item content table, etc. are recorded. It

The PSD is composed of a plurality of lists (selection list, playlist, end list) used for playback control.
Each list is recorded as PSD. Playback control is a playback method that executes a simple interactive playback using a video CD, and management information for that is displayed as a list in the area from absolute time address 00:04:34 as PSD in FIG. It is recorded. The byte size of PSD is recorded up to the absolute time address 00:07:64, and since it is a variable length, the byte size information is also recorded in the disc information. Further, the address where each list in the PSD is recorded is shown in the list ID offset table shown in FIG.

Further, in a video CD, as segment play items, a maximum of 1980 pieces of data such as moving images, still images and sounds can be recorded in the segment play item area shown in FIG. Each segment play item will be used for playback control and the like. Management information about this segment play item is also recorded in the disc information.

In the video CD information area as shown in FIG. 13, absolute time address 00: 04: 0
From 1 on, an entry table is arranged. In this entry table, a predetermined point in the audio / video sequence can be entered as a start point. That is, the index point for each track can be indicated.

In this entry table, the ID of the entry file, the version number, the number of entries, etc. are recorded, and a maximum of 500 entries are recorded as actual entry points. That is, entry # 0 to entry # 499 can be set. One entry (ETx) consists of 4 bytes.
As shown in (a), the track number TRK is indicated by 1 byte and the absolute address, that is, AMIN (minute), ASEC (second), and AFRM (frame) is indicated by the remaining 3 bytes.

This entry (ET ₁ , ET ₂ , ET ₃
...) indicates the start position of each track or an index point within the track. Now, it is assumed that the entry table of a certain disc is recorded as shown in FIG. That is, each entry (ET ₁ ,
"02", "03", "04", etc. are recorded as the track number TRK of ET ₂ , ET _3, ...), and absolute addresses AMIN (minutes), ASEC (seconds), and AFRM, respectively.
(Frame) is shown. In this case, each track #
Only one entry (ET ₁ , ET ₂ , ET ₃ ...) Is recorded for each of 2, # 3, # 4, .... Since at least the track start position is recorded as an entry, each entry becomes the track start position (SP ₂ , SP ₃ , SP ₄ ...
...). A disk whose entry table is as shown in FIG. 14B, that is, a disk in which no index point is set for any track.

On the other hand, in the case of a disc in which index points are set, the entries corresponding to the index points will be recorded sequentially following the track start position. For example, in the entry table as shown in FIG. 14C, first, there are two entries corresponding to the track # 2 (ET ₁ , ET ₂ ), and the first entry ET ₁ indicates the start position of the track # 2 ( SP ₂ ). And next entry ET ₂ is track #
A certain point within 2 will be indicated as an index point (IDX ₂₁ ). The entry corresponding to the track # 3 is one 4 (ET ₃ ~ET _6), in this case, the first entry ET ₃ shows the starting position of the track # 3 (SP _3). And the next three entries ET ₄ ,
ET ₅ and ET ₆ will each indicate a certain point in track # 3 as an index point (ID
X ₃₁ , IDX ₃₂ , IDX ₃₃ ).

That is, the reproducing apparatus which has read the video CD data track from the disc,
When there are a plurality of entries corresponding to the track in the entry table, it can be determined that the second and subsequent entries indicate the index position.

[5. Appearance of Reproducing Device] Next, a reproducing device as an embodiment of the present invention capable of reproducing the above video CD will be described. The reproducing apparatus of the embodiment accommodates five video CDs and CD-DAs and can selectively reproduce the so-called changer video C.
It is a D player.

The appearance of this reproducing apparatus is shown in FIG. 1
Indicates the main body of the reproducing apparatus. Reference numeral 2 is a disc loading section provided on the front panel of the reproducing apparatus 1 and from which the disc tray 30 shown in FIG. Disc tray 30
Can mount five discs arranged side by side in the plane direction, and the disc to be reproduced is selected by rotating in a roulette shape. Reference numeral 3 denotes a display unit formed by a liquid crystal panel or the like, which displays the operating state of the reproducing apparatus, the mode, the number of the selected disc, the playing time, and the like.

Various keys for user's operation are provided on the front panel. Reference numeral 4 is a power on / off key. Reference numeral 5 is a reproduction key. This playback key also serves as a selection key (selection enter key) during playback control operation. 6 is a pause key, 7 is a stop key,
Reference numeral 8 is an eject key.

Reference numeral 9 is a disk selection key. Five disk selection keys "D1" to "D5" are prepared and correspond to five disks stored on the disk tray. For example, if the "D1" key is pressed,
The disc stored in the first storage position on the disc tray is loaded to the position of the internal optical head,
Will be played.

Reference numerals 10 and 11 are keys for operating the AMS, that is, 10 is a cue key in the direction of a smaller track number (rear cue key), and 11 is a cue key in the direction of a larger track number (forward). Cue key). Further, the rear cue key 10 also serves as a pre-ski, and is used for the pre-vibration operation during the playback control operation. Further, the front cue key 11 also serves as a next key, and is used for the next operation in the playback control operation. Reference numeral 12 denotes a return key, which is used for a return operation during playback control operation.

Reference numeral 13 denotes a +/- selection key, which is used for a selection operation on the menu screen during the playback control operation. That is, the +/- selection keys 13 are used to select an option number on the menu screen, and when a certain option number is designated, a selection operation is performed using the playback key 5, whereby the selection for the menu is completed. Become.

Reference numeral 14 is a disk skip key, and 15 is a disk exchange key. Reference numerals 16 to 19 are play mode selection keys, and 16 is a normal reproduction mode key. When the disc to which the playback control function is added is played back, if the normal playback mode key 16 is pressed, the playback control operation is automatically started. Reference numeral 17 is a shuffle reproduction mode key, and 18 is a program reproduction mode key. Reference numeral 19 is a PBC off key, and the PBC off key 19 turns off the PBC mode. That is, when a disc with a playback control function is loaded, the PBC
When the off key 19 is pressed, the menu reproduction operation in the PBC mode is changed to the normal continuous reproduction operation.

Reference numerals 20 and 21 are operation keys for index search, and 20 is an index + search key (IDX
+ Key), 21 is an index-search key (IDX-
Key). IDX + key 21 or IDX- key 22
By the operation of, the user can execute access to the index point in the track. Two
2, 23, 24 are operation keys for digest play, 22 is an all-disc digest key,
Reference numeral 23 is a disc digest key, and 24 is a track digest key. Operations associated with these key operations will be described later.

Reference numeral 25 is an infrared receiver. When a command signal is transmitted by infrared rays from a remote commander (not shown), it is received by the infrared reception section 25, converted into an electric signal, and taken into the internal system controller as operation information.

[6. Circuit Block of Reproducing Device] FIG. 2 shows an internal configuration of the reproducing device. In FIG. 2, reference numeral 30 is a disc tray. The disc tray 30 is provided with storage positions 30 ₁ to 30 ₅ so that _five discs can be loaded. The disc tray 30 is configured to be rotated by a motor 31, and a certain storage position 30 _x is sent to the position of the optical head 34 by this rotation operation. That is, the disk loaded in the storage position 30 _x is loaded in the position of the optical head 34. Reference numeral 32 denotes a disk position sensor, and the output of the disk position sensor 32 allows the system controller 53 to know the current loading state, that is, which storage position 30 _x is at the position of the optical head 34.

The loaded disk is chucked so as to be rotationally driven by the spindle motor 33. And the disk is the spindle motor 33
While being rotated by, the optical head 34 irradiates the laser light, and the reflected light reads the information.

The optical head 34 is equipped with a laser diode as a laser output means, an optical system including a polarization beam splitter and an objective lens, and a detector for detecting reflected light. The objective lens 34a is a two-axis mechanism 3
It is held by 4b so as to be displaceable in the radial direction of the disc and in the direction in which it comes in and out of contact with the disc. Reference numeral 35 denotes a sled mechanism that drives the optical head 34 in the disk radial direction.

The information detected from the disc by the optical head 34 by the reproducing operation is supplied to the RF amplifier 36. The RF amplifier 36 extracts a reproduction RF signal, a tracking error signal, a focus error signal, etc., by processing the supplied information. And the extracted reproduction R
The F signal is supplied to the decoder unit 38, where EFM demodulation and error correction are performed. In addition, P and Q channel subcode data are extracted and supplied to the system controller 53.

Further, the tracking error signal and the focus error signal are supplied to the servo circuit 37. The servo circuit 37 supplies the supplied tracking error signal and focus error signal, the track jump command from the system controller 53, the access command, and the spindle motor 3
Various servo drive signals are generated based on the rotational speed detection information of 3 to control the biaxial mechanism 34b and the sled mechanism 35 to perform focus and tracking control, and to control the spindle motor 33 to a constant linear velocity (CLV).

Reference numeral 39 is a CD-ROM decoder. The disc being played is a so-called CD-ROM such as a video CD.
, The CD-ROM decoder 39 performs a decoding process according to the CD-ROM format. Then, among the signals decoded by the CD-ROM decoder 39, various disc information recorded on the above-mentioned video CD data track (track # 1) is taken into the RAM 53a of the system controller 53.

The audio data decoded by the CD-ROM decoder 39 is supplied to the MPEG audio decoder 40. The MPEG audio decoder 40 performs decoding and outputs a decoded audio signal at a predetermined timing while using the audio RAM 41. Further, the video data decoded by the CD-ROM decoder 39 is the MPEG video decoder 4
2 is supplied. The MPEG video decoder 42 performs decoding and decoding video signal output (RGB output) at a predetermined timing while using the video RAM 43.

Reference numeral 44 is a switch section which can be switched according to the type of the disc to be reproduced. When the disc being played back is a CD-DA, a digital audio signal is obtained by the decoder unit 38 performing a decoding process such as EFM demodulation and CIRC as the playback signal.
During CD-DA reproduction, the system controller 53 connects the switch unit 44 to t ₁ terminal. Therefore, the digital audio signal from the decoder unit 38 is converted into an analog audio signal by the D / A converter 45, and is output from the audio output terminal 46 to an external device such as an amplifier circuit or an amplifier in the subsequent stage.

When the disc being reproduced is a video CD, audio data is obtained from the MPEG audio decoder 40. During reproduction of the video CD, the system controller 53 connects the switch section 44 to the t ₂ terminal. Therefore, the digital audio signal from the MPEG audio decoder 40 is converted into an analog audio signal by the D / A converter 45, and the audio output terminal 4
6 is output to an external device such as an amplifier circuit or an amplifier in the subsequent stage.

When reproducing a video CD, RGB video data is obtained as an output of the MPEG video decoder 42. This RGB image data is converted into RGB by the D / A converter 47.
It is an analog signal. Then, the RGB signals are supplied to the RGB / NTSC encoder 48, and the RGB signals are converted into NTSC composite video signals. And the switch section 49
Is supplied to the t ₂ terminal of the.

During reproduction of the video CD, the system controller 53 connects the switch section 49 to the t ₂ terminal, so that the NTSC composite video signal is OS.
The video signal is supplied from the video output terminal 51 to the monitor device or the like via the D processing unit 50, and the video output is executed. By the operation of the OSD processing unit 50 based on the instruction from the system controller 53, a predetermined character can be displayed on the output video.

By the way, the disc to be reproduced is a CD-D.
If it is A and is CD-G, still image data is read from the R to W channels of the subcode. This still image data is stored in the CD-G decoder 52.
To be decoded and output as an NTSC composite video signal (still image). CD-DA during reproduction, the switch section 49 is connected to t ₁ terminal, thus the video signal reproduced from the CD-G is the OSD processing unit 50
Is supplied to the monitor device or the like from the video output terminal 51 via the, and video output is executed. Also in this case, the OSD processing unit 5
With 0, a predetermined character can be displayed on the output video.

Reference numeral 54 is a RAM, which is a backup power source 5.
5, the memory data is backed up.
The RAM 54 stores data that should not be lost when the power is turned off. Of course, an EEP-ROM or the like may be used.

Reference numeral 56 denotes an operation input section for user operation, which corresponds to the various operation keys (5 to 24) shown in FIG. 1 and the infrared receiving section 25 (and remote commander). Also, when performing playback from a disc,
The management information recorded on the disc, that is, the TOC and subcode data is read out, and the system controller 53
However, the system controller 53 displays the reproduction time on the display unit 3 according to the management information.

[7. Track Digest Operation] The track digest operation in the reproducing apparatus having the above configuration will be described. As described above, the playback device 1 is provided with the all-disc digest key 22, the disc digest key 23, and the track digest key 24 for digest play. here,
Before describing the track digest operation, the all-disk digest operation and the disk digest operation will be briefly described.

First, the all disk digest operation is as follows.
This is a function provided in the changer type reproducing apparatus as in this embodiment. In the changer type reproducing apparatus, it is often difficult to know what the contents of the discs stored in the storage positions 30 ₁ to 30 ₅ are. For this purpose, an all-disc digest key 22 is prepared, and when this is operated, the reproducing apparatus 1 extracts representative video data from each of the discs stored in the respective storage positions 30 ₁ to 30 ₅ , and 1 The screen is divided and displayed on the screen.

For example, the all-disc digest screen is formed as shown in FIG. That is, the storage position 30 ₁ ~
Corresponding to 30 ₅ , the display areas of the disks 1 to 5 are set in one screen, and one piece of video data is reduced and displayed in each area. In this case, disc 1 and disc 3 are playback control (PBC)
This is a functional disc, and for example, the menu image displayed first during PBC operation is output as a representative image. Further, the disc 2 is a disc having no PBC function, and for example, the first I picture of the track # 2 or the like is selected and output as the representative image.

Further, a case where no disc is loaded in the storage section 30 ₄ is shown, and therefore, the characters “NO DISC” are displayed in the display area of the disc 4. Further, since the disk 5 is a CD-DA and there is no video data, predetermined video data indicating the CD-DA is output. Note that FIG. 6B shows PB.
For the disc with C function, I instead of the menu screen
The case where a picture is selected as a representative image is shown.

When the all disc digest key 22 is operated, the system controller 5 of the reproducing apparatus 1 is operated.
By controlling the 3 to output the all-disc digest screen as shown in FIG. 6A or 6B, the user can know at a glance what disc is stored.

Next, in the disc digest operation, one representative image is selected from each track of a certain disc, and the contents of the disc are displayed by the user by reducing and displaying the list on one screen. It allows you to check at a glance.

For example, when a disk containing 9 tracks is designated as tracks # 2 to # 10 and the disk digest operation key 23 is operated, representative video data from each track of the disk, for example, the first I of the track. The picture data is read and reduced and displayed in the display areas set as TK1 to TK9 as shown in FIG. In this example, the display area is prepared for only 9 tracks, but for a disc having 10 tracks or more, the representative image of the 10th track and thereafter may be displayed by the paging operation of the screen. Of course, the display area may be divided into a larger number.

With such a disc digest screen, the user can confirm the contents of the disc for each track. For example, when the desired track is found on the disc digest screen, the track is designated and the reproduction operation is performed. By doing so, it is possible to easily enjoy the reproduction of the desired video content.

In addition to these digest plays, a track digest operation is prepared, but this embodiment is characterized by this track digest operation. That is, the track digest is to extract a plurality of representative video data for a certain track and display it on one screen in the same manner as other digest play, so that the contents of the track can be easily confirmed. In particular, this embodiment is characterized in that the video data corresponding to the index point is selected as the representative image when the index point is set in the track. Hereinafter, the track digest operation will be described in detail.

The process of the track digest operation by the system controller 53 of this embodiment is shown in FIG. It is assumed that the user has specified a certain track and pressed the track digest operation key 24 with the disk loaded at the position of the optical head 34 (F10
0). Then, the system controller 53 first displays the video R
The area where the output video in AM53 is stored is initialized (F101). The output image stored in the video RAM 53 is directly encoded as an image output in the NTSC system and supplied to the monitor device from the terminal 51.
At this point, the output image is in a blue screen, for example.

Next, the system controller 53 confirms the entry table for the disc (F102).
Each data of the video CD data track recorded as track # 1 on the loaded disc is read at the time of loading and stored in the RAM 53a. Therefore, in this step F102, the RAM 53
The entry table, which is one of the data of the video CD data track taken in by a, will be confirmed.

First, let us consider a case where the entry table of the loaded disc is as shown in FIG. 4A and the target track of the track digest is the track # 3. FIG.
In the entry table of (a), only one entry is recorded for each track. In other words, each entry is the start position (S
P ₂ , SP ₃ , SP ₄ ...) are shown.

When the system controller 53 confirms the entry for the track # 3, it finds that there is only one entry which is the entry ET ₃ . As described above, if there is only one entry for a certain track, the index point is not set, and if there are two or more entries, the second and subsequent indexes indicate the respective index points. It is set. Therefore, in this case, for track # 3, the start position S
Only P ₃ is recorded, and so-called index point is not set.

If the index point is not set, the process proceeds from step F103 to F113. Then, the system controller 53 first calculates the reproduction time of the track. To calculate the playback time of track # 3, the data (addresses AMIN, ASEC, AFR) of the start position SP ₄ of track # 4 on the entry table is calculated.
It is sufficient to subtract the data (addresses AMIN, ASEC, AFRM) at the start position SP ₃ of track # 3 from M). Alternatively, the start position of each track is AMIN, ASEC, AFR as TOC information as in CD-DA.
Since it is recorded in the form of M, it may be calculated using it.

When the reproduction time of the track is calculated, the points PT _{1 to} P for dividing the track 3 into 9 are calculated based on the calculated reproduction time.
Calculate the address of T ₉ . In the case of FIG. 4A, the reproduction time of track # 3 is calculated to be 04 minutes 30 seconds 00 frames.

When the head of the track is 0 minutes 0 seconds, the 9 division points of the 4 minutes 30 seconds track are, for example, 0 minutes 0 seconds, 0 minutes 30 seconds, 1 minute 0 seconds, 1 minute 30 seconds and 2 minutes. 0 seconds,
It is set to 2 minutes 30 seconds, 3 minutes 0 seconds, 3 minutes 30 seconds, and 4 minutes 0 seconds. Therefore, in the case of track # 3, since the address of the start position is 05 minutes 00 seconds 00 frame, point PT ₁
Each address of PT ₉ is PT ₁ : 05 minutes 00 seconds 00 frame PT ₂ : 05 minutes 30 seconds 00 frame PT ₃ : 06 minutes 00 seconds 00 frame PT ₄ : 06 minutes 30 seconds 00 frame PT ₅ : 07 minutes 00 Second 00 frame PT ₆ : 07 minutes 30 seconds 00 frame PT ₇ : 08 minutes 00 seconds 00 frame PT ₈ : 08 minutes 30 seconds 00 frame PT ₉ : 9 minutes 09.00 seconds frame.

After setting the addresses of the points PT _{1 to} PT ₉ , the variable n is set to 1 (F115) and the variable m is set to 1 (F116). Then, in step F117, the optical head 34 is made to access the address of the point PT _(n) , and the reading of data from the disk is executed. Therefore, first, the data reading operation is executed from the point PT _1, which is 05 minutes 00 seconds 00 frame. Here, the system controller 53 monitors whether or not one piece of I picture data is read by the reading operation from the point PT ₁ and the I picture data is decoded by the MPEG video decoder 42 (F11).
8).

When one piece of I picture data can be decoded, reduction processing is executed for it and the reduction I
The picture data is pasted on the video RAM 43 as data corresponding to the area AR _(m) in the output video data (F119). That is, the reduced I-picture data obtained by the reading operation from the point PT ₁ is set as the data of the display area AR ₁ .

Next, if the variable n is not 9 in step F120, the variable n is incremented (F121), the variable m is incremented (F122), and the process returns to step F117.
Therefore, this time, the optical head 34 causes the point PT ₂
That is, the data reading operation from the 05:30:30 frame is executed. Then, one piece of I picture data is read by the reading operation from the point PT ₂ , and when the I picture data is decoded by the MPEG video decoder 42 (F118), the reduction processing is executed on the I picture data to reduce the I picture. The data is pasted on the video RAM 43 as data corresponding to the area AR _(m) of the output video data.
(F119). That is, the reduced I-picture data obtained by the reading operation from the point PT ₂ is set as the data in the display area AR ₂ .

The above processing is repeated until the variable n = 9 in step F120, and when the variable n = 9, the processing ends. At this point, the track digest screen as shown in FIG. 5A is output on the display screen. That is, the I picture data extracted from each of the points PT _{1 to} PT ₉ is reduced and the areas AR _{1 to} A
A state of being divided display on R _9. This allows the user to confirm the contents of track # 3.

Next, when the entry table is checked in step F102, the entry table read from the loaded disc is in the state as shown in FIG. 4B, and the track digest operation in step F100 is performed. Consider a case where the target track is track # 3.

In the entry table of FIG. 4B, seven entries ET ₂ to ET ₈ are recorded for track # 3. So entry ET ₂ is track #
3 shows the starting position SP ₃ and further entry ET ₃ ~
ET ₈ indicates the index points (IDX _{31 to} IDX ₃₆ ) of track # 3, respectively. When the system controller 53 confirms the entry for track # 3, there are a plurality of entries,
In other words, it can be determined that the index point is set, and in this case, the process is
Continue from F103 to F104.

First, the system controller 53 holds the number of entries corresponding to track # 3 as nMAX. In the case of FIG. 4B, the number of entries nMAX = 7. Next, the entry number of the first entry for the target track, Track # 3, is set as a variable n (F105). In this case, since the first entry for track # 3 is entry ET ₂ , the variable n = 2. Also, the variable m is set to 1 (F106).

Then, in step F107, the optical head 34 is made to access the address of the entry ET _(n) to execute the reading of data from the disk. Therefore, first, the data reading operation is executed from the frame of 05 minutes 11 seconds 10 recorded as the entry ET ₂ .
Here, the system controller 53 uses the entry ET ₂
One piece of I-picture data is read by the read operation from the address defined as
In step S108, it is monitored whether the I picture data is decoded (F108).

When one piece of I picture data can be decoded, reduction processing is executed for it and the reduction I
The picture data is pasted on the video RAM 43 as data corresponding to the area AR _(m) in the output video data (F109). That entry ET _2, i.e. reduced I-picture data obtained by the reading operation from the starting position SP ₃ of the track # 3, it is to be set as the data of the display area AR _1.

Next, in step F110, if the variable n is not equal to the number of entries nMAX, the variable n is incremented (F111), the variable m is incremented (F112), and the process returns to step F107. Therefore, since n = 3 this time,
The optical head 34 executes the data reading operation from the 08:28:01 frame which is the entry ET ₃ . Then, by the read operation from the entry ET ₃ , that is, the first index point IDX ₃₁ of the track # 3, one piece of I picture data is read and M
When the I picture data is decoded by the PEG video decoder 42 (F108), reduction processing is performed on the I picture data, and the reduced I picture data corresponds to the area AR _(m) of the output video data on the video RAM 43. Paste as data (F10
9). That is, the reduction I obtained by the reading operation from the first index point point (entry ET ₃ )
The picture data is set as the data of the display area AR ₂ .

The above processing is performed in step F110 in which variable n = nM.
It is repeated until it becomes AX. In this case, since the number of entries is 7, I picture data is fetched from each of the entries ET _{2 to} ET ₈ and the video RAM 4
The process ends when it is pasted on item 3.

At this point, the track digest screen as shown in FIG. 5B is output on the display screen. That is, the I picture data extracted from the start position SP ₁ of track # 3 and the index points IDX _{31 to} IDX ₃₆ , which are shown as entries ET _{2 to} ET ₈ , are reduced and divided and displayed in areas AR ₁ to AR _7. It will be in a state of being.

This allows the user to confirm the contents of track # 3. Moreover, in this case, since it is the video data of the index points set by the disc manufacturer, the contents of the disc can be represented more accurately. Also, in this case, after checking the image of each index point, IDX + key 20 or I
The DX-key 21 can be used to execute an access operation to a desired index, so that a desired scene in the track can be reproduced more easily and quickly.

In this embodiment, the screen division number is AR ₁
Although AR ₉ is divided into 9 divisions, in this case, when 9 or more index points are set for a certain track, it cannot be displayed on one screen. In such a case, the I-picture video corresponding to the ninth and subsequent index points may be displayed according to the paging operation of the screen. The number of screen divisions is 10
It goes without saying that the number may be set to more than or equal to 8 or less than or equal to 8.

[0094]

As described above, the reproducing apparatus of the present invention extracts the video data corresponding to the index point when the index point is set in the target track during the track digest operation. Since the track digest video data is generated, the output track digest video is an appropriate video for checking the content, and the effect that the user can recognize the track content more accurately and easily is there. Further, since the image of each index point can be confirmed, a so-called index search operation can be used to easily select a scene to be reproduced and to quickly reproduce it, so that usability is significantly improved.

When the index point is not set on the target track, the extraction point is set by a predetermined calculation process to extract the video data and generate the track digest video data. The track digest operation can be executed corresponding to a recording medium for which points are not set.

[Brief description of drawings]

FIG. 1 is an explanatory diagram of an appearance of a reproducing device according to an embodiment of the present invention.

FIG. 2 is a block diagram of a reproducing apparatus according to an embodiment.

FIG. 3 is a flowchart of processing during a track digest operation according to the embodiment.

FIG. 4 is an explanatory diagram of an example of an entry table of a disc that is a target of a track digest operation in the embodiment.

FIG. 5 is an explanatory diagram of a track digest screen according to the embodiment.

FIG. 6 is an explanatory diagram of an all-disc digest screen according to the embodiment.

FIG. 7 is an explanatory diagram of a disc digest screen according to the embodiment.

FIG. 8 is an explanatory diagram of a XA specification format of a CD-ROM.

FIG. 9 is an explanatory diagram of video data of a video CD.

FIG. 10 is an explanatory diagram of an image size of a video CD.

FIG. 11 is an explanatory diagram of a track structure of a video CD.

FIG. 12 is an explanatory diagram of a structure on a disc of a video CD.

FIG. 13 is an explanatory diagram of a video CD information area of a video CD.

FIG. 14 is an explanatory diagram of a video CD entry table.

[Explanation of symbols]

 1 Playback Device 3 Display 5 Playback Key (Select Key) 20 IDX + Key 21 IDX- Key 22 All Disk Digest Operation Key 23 Disk Digest Operation Key 24 Track Digest Operation Key 30 Disk Tray 34 Optical Head 36 RF Amplifier 37 Servo Circuit 38 Decoder 39 CD-ROM Decoder 40 MPEG Audio Decoder 41 Audio RAM 42 MPEG Video Decoder 43 Video RAM 45, 47 D / A Converter 48 RGB / NTSC Encoder 50 OSD Processor 52 CD-G Decoder 53 System Controller 54 RAM 56 Operation Unit

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁶ Identification code Office reference number FI technical display location 9463-5D G11B 27/00 D

Claims (2)

[Claims] 1. A reproducing apparatus capable of performing a reproducing operation corresponding to a recording medium in which video data is recorded in track units, wherein track information on tracks on the recording medium is added with index information for further dividing the tracks. Detecting means for detecting whether or not there is a track, a track digest operating means for outputting a track digest screen for a certain track, and an index for the corresponding track by the detecting means when the operation by the track digest operating means is executed. If the presence of information is determined, the data is read from the playback position indicated as each index information, the required video data corresponding to each index information is read, and each read video data is reduced. Displayed on one screen A playback device comprising: a video output control unit capable of generating and outputting the eject video data. 2. The image output control means, when the operation by the track digest operation means is executed, if the detecting means determines that index information does not exist for the corresponding track, the corresponding track is n. Each playback position to be divided is calculated by a predetermined calculation process, data is read from each calculated playback position, the required video data corresponding to each playback position is read, and each read video data is Each reduced to 1
The reproducing apparatus according to claim 1, wherein the reproducing apparatus is configured to generate and output track digest video data displayed on the screen.