JP4428463B2 - Video / audio data playback method - Google Patents

Description

  The present invention relates to an apparatus for reproducing image and audio data from a recording medium on which image and audio signal data generated using high-efficiency encoding means are recorded.

  The amount of image data is large. Therefore, when the image signal is digitally recorded on the medium, it is efficient to record the image and sound data compressed by the high-efficiency encoding means on the medium. The compression is performed by removing redundancy or the like. Such a recording medium reproducing apparatus is disclosed in, for example, Japanese Patent Laid-Open No. 6-165125. The outline of the reproducing apparatus disclosed in the publication will be described below.

  The playback apparatus is configured to include a decoding means for compressed image and audio compressed data. The recording medium is a disc type.

  The data read from the disk is supplied to the decoding means via the buffer means, where it is decrypted. The decoded image and audio signal are output to the outside. The reading of data from the disk is controlled based on the data occupancy rate in the buffer means. As a result, the code amount per predetermined time is not constant, and can be applied to image data that has been subjected to variable rate encoding that varies in a partial portion.

JP-A-6-165125

  However, in the conventional video, information equipment, etc., the data structure, storage method, etc. are different for each apparatus. Therefore, it is difficult to handle the same data between different types of devices. Now that multimedia is being integrated by integrating all media, a system configuration that can provide interoperability across recording media, broadcasting, communication, and the like is strongly desired for user convenience.

  High-efficiency encoding is effective not only when information is recorded on the medium but also when an image signal is broadcast or communicated in a digital manner.

  An object of the present invention is to provide a recording medium reproducing apparatus having interoperability with broadcasting and communication.

The present invention has been made to achieve the above object, and is described in, for example, the claims.
The present invention is provided as a solution .

As described above, according to the present invention, it is possible to realize a reproduction method that provides interoperability with broadcasting and communication .

1 is a block diagram showing a configuration of a video / audio data reproducing apparatus according to a first embodiment of the present invention; FIG. It is a figure which shows an example of the reproduction | regeneration data transmission method of the reproducing apparatus of the video / audio data of this invention. It is a block diagram which shows the example of the reproduction | regeneration system of video / audio data of this invention. It is a block diagram which shows the structure of the reproducing apparatus of the video / audio data which is the 2nd Example of this invention. It is a block diagram which shows the structure of the reproducing apparatus of the video / audio data which is the 3rd Example of this invention. It is a block diagram which shows the example of the decoder display apparatus in the reproduction | regeneration system of video / audio data of this invention. It is a block diagram which shows the structure of the reproducing apparatus of the video / audio data which is the 4th Example of this invention. It is a block diagram which shows the structure of the reproducing apparatus of the video / audio data which is the 5th Example of this invention.

  Embodiments of the present invention will be described below with reference to the accompanying drawings.

First Embodiment A digital video / audio data reproducing apparatus (video disc player) according to a first embodiment will be described with reference to FIG. In FIG. 1, reference numeral 1 denotes an optical disc serving as a recording medium. Similarly, reference numeral 2 denotes a rotation driving unit of the optical disc 1, 3 denotes a pickup, 4 denotes a tracking control unit of the pickup 3, 5 denotes a reproduction signal processing circuit, 6 denotes a memory, 7 denotes a memory control circuit, Indicates a transmission packet generation circuit, 9 indicates a pack header analysis circuit, 10 indicates a comparison circuit, 11 indicates a reference clock generation circuit, and 12 indicates a transmission bus interface.

  On the optical disc 1, image data, audio data, and their additional data (for example, directory information such as audio data) are integrated and recorded. These data are recorded in a state where the code amount is compressed by high-efficiency encoding. A recording track is formed in a spiral shape on the optical disc 1, and the above-described data is recorded according to the recording track.

  The rotation drive unit 2 rotates the optical disc 1 so that the linear velocity is constant, for example.

  The pickup 3 reads the data recorded on the optical disc 1 by irradiating the optical disc 1 with laser light and detecting the reflected light. At this time, the tracking control unit 4 controls the position of the pickup 3 so that the track on which desired data is recorded is irradiated with the laser beam.

  The reproduction signal processing circuit 5 is configured to include an error correction circuit, performs error correction on the reproduction data read by the pickup 3, and sends it to the memory 6. The reproduction data is sent to the memory 6 in response to a data request (request) from the memory control circuit 7. The reproduction signal processing circuit 5 manages the continuity of the reproduction data to be transmitted, and outputs reproduction track information to be traced to the tracking control unit 4 so that desired reproduction data can be transmitted.

  The memory 6 is a first-in first-out (FIFO) type memory. The memory 6 outputs the stored reproduction data to the transmission packet generation circuit 8 and the pack header analysis circuit 9 in accordance with an instruction from the memory control circuit 7.

  By the way, the reproduction data read from the optical disc 1 and stored in the memory 6 is, as shown in FIG. 2A, a pack header, a video packet composed of video data, and an audio packet composed of audio data. And an additional data packet made up of additional data. The pack header includes header information that integrates reproduction clock information, bit rate information, and the like. Furthermore, one or more packets of each of these data are collected to form a pack. FIG. 2A shows reproduction data in time series. In FIG. 2A, the data located on the left side is the data read first from the disk 1, and is also read from the memory 6 first.

  The transmission packet generation circuit 8 converts the reproduction data sent from the memory 6 into a transmission packet, and sends out the transmission packet to the transmission bus via the transmission bus interface 12. FIG. 2B shows the output state of the transmission packet generation circuit 8 together with the reading time. FIG. 2C is an enlarged view of the time axis of FIG.

  The transmission bus (see FIG. 1) has bidirectionality, receives not only playback data but also various commands sent from the outside (for example, playback and stop commands for the optical disc 1), and Used to send status information back to these commands.

  On the other hand, the pack header analysis circuit 9 analyzes clock information (reproduction clock information) and bit rate information included in the pack header in the reproduction data input from the memory 6. Then, the analysis result of the recovered clock information is sent to the comparison circuit 10. Also, the analysis result of the bit rate information is sent to the memory control circuit 7. Note that the pack header analysis circuit 9 regards the maximum bit rate as the bit rate information for the reproduction data encoded by the variable rate.

  The comparison circuit 10 compares the above-described recovered clock information with the reference clock information generated by the reference clock generation circuit 11 including the self-running oscillator, and outputs the result to the memory control circuit 7. That is, in the initialization operation performed after power-on (or after returning from the other mode to the normal reproduction mode), the comparison circuit 10 displays the reproduction clock information contained in the pack header read first at that time. The preset value of the reference clock information is used. Thereafter, the preset value of the reference clock information is compared with the regenerated clock information sent sequentially. The comparison circuit 10 outputs the comparison result to the memory control circuit 7.

  The memory control circuit 7 controls reading from the memory 6 and the like based on the bit rate information and the comparison result input from the comparison circuit 10. The control is performed so that the average transmission bit rate for each predetermined section (for example, the section from T1 to T2 in FIG. 2B) substantially matches the bit rate information on the output of the transmission packet generation circuit 8. Is. For example, consider a case where the time indicated by the reproduction clock information is T1. At this time, if the time indicated by the reference clock information has not yet reached T1, the memory control unit 7 stops reading the reproduction data from the memory 6. Further, from time T1, reading of reproduction data for one pack to which the pack header including the reproduction information belongs is started. In this case, reading is intermittently performed according to the bit rate information. As a result, the reproduction data is divided into a size corresponding to one transmission packet and read from the memory 6 (see FIGS. 2B and 2C).

  An example of a digital video / audio data reproduction system including the video disc player of this embodiment is shown in FIG.

  This system is configured by integrating a video disc player 500, a broadcast receiver 200, a communication receiver 300, a video tape recorder 400, a video camera 600, and a decoder / display device 100.

  The decoder / display apparatus 100 includes a pointing device 101, a decryption card 102, a transmission bus interface 103, buffers 104 and 105, a video decoder 106, an audio decoder 107, a pointing device interface 108, an IC card interface unit 109, a display, and a speaker. The display unit 110 includes a transmission bus terminator 601.

  The transmission bus starting from the decoder / display device 100 is connected to the video disc player 500 in a daisy chain via the broadcast receiver 200, the communication receiver 300, and the video tape recorder 400. Further, the video disc player 500 is also connected to the video camera 600. Note that the connection order of these devices 100 to 600 is not limited to this figure.

  When the broadcast receiver 200, the communication receiver 300, the video tape recorder 400, the video disc player 500, the video camera 600, and the like receive or reproduce the audio and video data, they are encoded and output to the transmission bus.

  The transmission bus transmits audio and video data to the decoder / display device 100. Data input through the transmission bus is input to the video decoder 106 and the audio decoder 107 via the transmission bus interface 103 and the buffers 104 and 105. The video decoder 106 and the audio decoder 107 decode the encoded data and display them on the display unit 110 as image data and audio data.

  Data such as audio and video may be scrambled for concealment. The decryption card 102 is used to release this concealment. The decryption card 102 stores information for releasing the scramble. By inserting this into the IC card interface 109, the scramble is released.

  A user command instructed by using the pointing device 101 is transmitted to a predetermined device among the broadcast receiver 200 to the video camera 600 via the pointing device interface 108, the transmission bus interface 103, and the transmission bus. Thus, for example, the user can instruct the broadcast receiver 200 to receive a specific channel, or can instruct the video disc player 500 to perform operations such as play and stop. As a result, there is no need to prepare a control device such as a remote controller for each device. Further, all the devices can be controlled by one pointing device 101 without manually switching the audio and video output of each device.

  In this system, since it is not necessary to provide the video decoder 106 and the audio decoder 107 in each apparatus, the total cost of the system can be reduced.

  In addition, if video and audio data stored on the optical disc 1 is scrambled, it cannot be displayed without the decryption card 102. Thereby, even if the data stored in the optical disk 1 is illegally copied using the video tape recorder 400, the copied data can be made substantially meaningless.

  A second embodiment of the present invention will be described.

  Similar to the playback device of the first embodiment (FIG. 1), the playback device of the second embodiment is also assumed to be used by being connected to the transmission bus of the system of FIG.

  The configuration of the digital video / audio data reproducing apparatus of the second embodiment is shown in FIG. Blocks having the same functions as those in the first embodiment (FIG. 1) are assigned the same numbers. A portion denoted by reference numeral 13 is an additional data extraction / transmission packet generation circuit. Similarly, reference numeral 14 denotes an audio data extraction / transmission packet generation circuit, 15 denotes a video data extraction / transmission packet generation circuit, 16 denotes a pack header analysis / transmission packet generation circuit, and 17 denotes a remultiplexing circuit.

Each of the circuits 13 to 16 extracts only data having a specific content (type) from the reproduction data, and generates a transmission packet including only the extracted data. For example, the additional data extraction / transmission packet generation circuit 13 extracts only the additional data from the data sent from the memory 6. Further, the additional data transmission packet is generated by appropriately collecting the extracted additional data. Then, the additional data transmission packet is output to the remultiplexing circuit 17 .

Similarly, the audio data extraction / transmission packet generation circuit 14 extracts audio data to generate an audio data transmission packet, and outputs this to the remultiplexing circuit 17 . In addition, the video data extraction / transmission packet generation circuit 15 extracts video data to generate a video data transmission packet, and outputs this to the remultiplexing circuit 17 .

  Similarly, the audio data extraction / transmission packet generation circuit 14 extracts audio data to generate an audio data transmission packet, and outputs this to the remultiplexing circuit 14. Further, the video data extraction / transmission packet generation circuit 15 extracts video data to generate a video data transmission packet, and outputs this to the remultiplexing circuit 14.

The remultiplexing circuit 17 remultiplexes the additional data, audio data, video data, and pack header information that are packetized in transmission packets in units of transmission packets. Then, the signal obtained by the remultiplexing is transmitted via the transmission bus interface 12.

  The re-multiplexing circuit 14 re-multiplexes the additional data, audio data, video data, and pack header information that have been made into transmission packets in units of transmission packets. Then, the signal obtained by the remultiplexing is transmitted via the transmission bus interface 12.

  On the other hand, the pack header analysis / transmission packet generation circuit 16 extracts clock information and bit rate information from the pack header in the same manner as the pack header analysis circuit 9 (see FIG. 1) shown in the first embodiment. The clock information is sent directly to the comparison circuit 10 and the bit rate information is sent directly to the memory control circuit 7.

  In the present embodiment, since the transmission packet is generated separately for each type of data (audio data, video data, pack header), the configuration of the transmission packet to be generated is changed to the transmission format of broadcasting or communication. It can be changed to suit. For example, the transmission packet length can be determined, or a transmission packet header can be added to each transmission packet. Therefore, it is possible to output a bit stream (for example, Transport Stream in MPEG) having the same format as the received data for broadcasting or communication. As a result, the decoder / display device 100 obtains the data input through the transmission bus from the origin of the data (for example, data obtained by reproducing a recording medium or by receiving a broadcast or the like). The video data and audio data can be decoded by the same method and means (decoders 106 and 107). Therefore, it helps to simplify the decoder / display device 100.

  A third embodiment of the present invention will be described.

  The reproducing apparatus of the third embodiment is characterized in that the data reading operation from the disk is controlled in accordance with an instruction (request) from the outside.

  The configuration of the digital video / audio data reproducing apparatus of this embodiment is shown in FIG. Reference numeral 18 denotes a reproduction data request detection circuit. Blocks having the same functions as those in the first embodiment (FIG. 1) are assigned the same numbers.

  Reading of data from the disk 1 is performed by the pickup 3, the reproduction signal processing circuit 5 and the like in accordance with an instruction from the memory control circuit 7 '. The read data is stored in the memory 6. However, the memory control circuit 7 'according to the present embodiment operates according to a request input from the outside.

  The reproduction data read from the memory 6 in accordance with the instruction from the memory control circuit 7 'is sent to the external transmission bus via the transmission packet generation circuit 8 and the transmission bus interface 12 as in the first embodiment.

  On the other hand, a request signal for reproduction data is sent from the transmission bus in addition to a general command.

When the playback device of the present embodiment is connected to the transmission bus of the decoder / display device 100 (see FIG. 3 ), a part of the decoder / display device 100 (video decoder 106 , audio decoder 107, etc.) is used. ) Need to be changed. That is, it is necessary to change a part of the decoding procedure between the case of decoding the reception data of the broadcast receiver 200 and the communication receiver 300 and the case of decoding the reproduction data of the video disc player 500 or the like.

  When the playback device of the present embodiment is connected to the transmission bus of the decoder / display device 100 (see FIG. 2), a part of the decoder / display device 100 (video decoder 102, audio decoder 104, etc.) is used. ) Need to be changed. That is, it is necessary to change a part of the decoding procedure between the case where the reception data of the broadcast receiver 200 and the communication receiver 300 is decoded and the case where the reproduction data such as a video disc player is decoded.

  A decoder / display device 100 'corresponding to the third embodiment is shown in FIG. Compared to the decoder / display device 100 (see FIG. 3), the decoder / display device 100 'has a buffer occupancy rate check circuit 111 added thereto. The buffer occupancy rate check circuit 111 monitors the availability of the buffers 104 and 105. When there is room to write new data in the buffers 104 and 105, the above-described request signal is transmitted via the transmission bus interface 103.

  The reproducing apparatus of the third embodiment does not require the pack header analysis circuit 9, the clock information comparison circuit 12, and the like, so that the cost can be reduced.

  A fourth embodiment of the present invention will be described.

  In the fourth embodiment, transmission packet generation, pack header analysis, and the like are performed using a microprocessor. That is, in the present embodiment, the microprocessor 20 described later functions as the memory control circuit 7, the transmission packet generation circuit 8, the pack header analysis circuit 9, and the comparator 10 in the first embodiment.

  The configuration of the playback apparatus of the present embodiment is as shown in FIG. A portion denoted by reference numeral 19 is a second memory. Similarly, reference numeral 20 denotes a microprocessor, and 21 denotes a system interface. The blocks having the same functions as those in the first embodiment (FIG. 1) are given the same numbers. In the following description, for the sake of convenience, the memory 6 is referred to as “first memory 6”.

  The microprocessor 20 obtains a reference clock from the reference clock generation circuit 11 in addition to its own operation clock (for example, 27 MHz). Therefore, the microprocessor 20 holds reference clock information therein. The microprocessor 20 uses the reference clock information and the like to basically perform read data read control from the memory 6 by the same method as in the first embodiment.

  The microprocessor 20 outputs the address designation to the first memory 6 through the address bus. The first memory 6 reads the data stored at the address and outputs it to the data bus. The microprocessor 20 stores the data output to the data bus in the second memory 19. In this case, the microprocessor 20 discriminates video data, audio data, additional data, and pack header included in the data, and makes it possible to easily distinguish them on the second memory 19. . For example, these are divided for each type of data (video data, audio data, pack header) and stored in different storage areas.

  Further, when the data read from the first memory 6 is a pack header, the microprocessor 20 analyzes the reproduction clock information and the bit rate information included in the pack header, and the data is obtained from the obtained address. Is read.

  When the microprocessor 20 reads out each data stored in the second memory 19, the microprocessor 20 converts these data into transmission packets. The microprocessor 20 sends the transmission packet to the transmission bus via the transmission bus interface 12.

  The system controller interface 21 detects a command sent via the transmission bus and the transmission bus interface 12 and sends it to a system controller (not shown) of the playback apparatus. Conversely, status information sent from the system controller is sent to the transmission bus via the transmission bus interface 12.

  In this embodiment, the microprocessor 20 performs read control of the first memory 6 and transmission packetization of all data. Therefore, the cost can be significantly reduced as compared with the first embodiment (see FIG. 1).

  A fifth embodiment of the present invention will be described.

  The configuration of the digital video / audio data reproducing apparatus of this embodiment is shown in FIG.

  Blocks having the same functions as those in the first embodiment (FIG. 1) and the fourth embodiment (FIG. 7) are assigned the same numbers.

  The fifth embodiment is different from the fourth embodiment in that the rotation drive unit 2, the tracking control unit 4, and the reproduction signal processing circuit 5 are connected to the address bus and data bus of the microprocessor 20. Different. Another difference is that the second memory 19 is not provided. Here, the first memory 6 is simply referred to as “memory 6”.

  In this embodiment, the microprocessor 20 stores the reproduction data from the reproduction signal processing circuit 5 directly in the memory 6. In this case, the reproduction data can be restored as it is in the time order.

  Thereafter, the microprocessor 20 reads the reproduction data from the memory 6. The reproduction data is packetized at the time of reading. If the read data is a pack header, the microprocessor 20 compares the reference clock information with the recovered clock information included in the pack header. Then, reading from the memory 6 is controlled based on the comparison result and the bit rate information.

  The microprocessor 20 also monitors the data occupation rate in the memory 6. When there is room to write data in the memory 6, the microprocessor 20 instructs to read new data. That is, the tracking control unit 4 is instructed to indicate information (reproduction track information) indicating a track in which data to be read by the pickup 3 is written, and new data is written from the reproduction signal processing circuit 5 to the memory 6.

  The microprocessor 20 is also connected to the rotation drive unit 2. Therefore, the microprocessor 20 also plays a role as a system controller that controls each unit based on commands such as start and stop input via the transmission bus interface 12.

  In the present embodiment, a memory corresponding to the memory 19 in the fourth embodiment is not necessary. Further, since read data read control, transmission packetization, and system control are performed by a single microprocessor, the cost can be further reduced as compared with the fourth embodiment (FIG. 7).

Further, the first to fifth embodiments described above are video disk players using a disk as a recording medium. However, the scope of application of the present invention is not limited to this. The present invention can also be applied to a video tape reproducing apparatus using a tape medium.
This embodiment can also be expressed as follows.
This embodiment provides a recording medium reproducing apparatus having interoperability with broadcasting and communication.
The first aspect of the invention was made to achieve the timing of regeneration.
Including a header having reproduction clock information indicating bit rate and bit rate information,
And a playback device of a recording medium on which encoded video / audio data is recorded.
A data reading means for reading video / audio data from the recording medium;
Memory means for temporarily storing the read reproduction data, and reproduction data from the memory means.
Memory control means for controlling reading of the data, and reproduction data read from the memory means.
The header included in the data is analyzed, and the recovered clock information and the bit rate information are
The header information analyzing means to be extracted and the video / audio data are read from the memory means.
Reference clock information generation that generates reference clock information that is used as a judgment criterion
Means, the recovered clock information extracted by the header information analyzing means, and the reference clock
Clock information comparing means for comparing information and reproduced data read from the memory means
Interface means for sending out to the outside of the playback device, the memory control means,
The comparison result obtained by the clock information comparison means and the header information analysis means extracted above
Based on the bit rate information, the reproduction data read from the memory means is controlled.
Therefore, a video / audio data reproducing apparatus is provided.
The memory control means at the timing indicated by the recovered clock information
Reads the playback data corresponding to the header containing the lock information from the memory means.
In addition, the reading is intermittent according to the bit rate information.
And are preferred.
Transmission packet generation means for packetizing the reproduction data read from the memory means
The interface means packetized by the transmission packet generation means
It is preferable that the reproduction data is transmitted.
The transmission packet generation means separates video data and audio data into separate packets.
It is preferable that
The interface means accepts an input command from the outside.
It is preferable.
The header information analysis means, the reference clock information generation means, and the clock information comparison
And at least one of the means preferably comprises a microprocessor.
That's right.
It is preferable that the transmission packet generation unit includes a microprocessor.
.
As a second aspect of the present embodiment, encoded video / audio data is recorded.
Read out video / audio data from the recording medium
Data reading means and data read by the data reproducing means (referred to as “reproduced data”).
A memory means for temporarily storing (b) and sending reproduction data to the outside of the reproduction apparatus,
Interface that accepts externally input commands and playback data request signals
And the memory means based on the request signal of the reproduction data received by the interface
Having a memory control means for controlling reading of reproduction data from the video
A playback device for audio data is provided.
The memory control means preferably includes a microprocessor.
Transmission packet generating means for packetizing the reproduced data, and the interface means
The reproduction data packetized by the transmission packet generation means is sent out
It is preferable.
It is preferable that the transmission packet generation unit includes a microprocessor.
.
As a third aspect of the present embodiment, encoded video / audio data is recorded.
A recording medium reproducing device and means for decoding the encoded video / audio data
And a decoding device having an output device capable of outputting sound and / or images
In the reproduced video / audio data reproducing system, the reproducing device includes a memory.
The encoded video / audio data is read from the recording medium and the memo is recorded.
Once stored in the memory, and then sent to the decoding device at a predetermined timing.
The decoder device includes a memory, and is encoded and sent sequentially from the playback device.
Video / audio data is temporarily stored in the memory and then decoded.
Output as voice and / or image, and the decoder device further includes the above
An operation command signal is sent to a playback device, and the playback device further includes the decoding device.
A video characterized by operating according to a command signal sent from a digital device.
An audio data playback system is provided.
The first aspect will be described.
The data reading means reads video / audio data from the recording medium and
Store in a row. The interface means externally reads the reproduction data read from the memory means.
Send it out. If the transmission packet generation unit is included, the interface unit transmits the transmission packet.
The transmission packet generator sends out the packetized reproduction data. The transmission packet generation means is
When video data and audio data are separated into separate packets,
It can be adapted to a transmission method such as communication.
The header information analysis means includes a header included in the reproduction data read from the memory means.
And the recovered clock information and bit rate information are extracted. On the other hand, the reference clock information
The information generating means determines the timing for reading video / audio data from the memory means.
Quasi reference clock information is generated. Clock information comparison means, header information analysis
The recovered clock information extracted by the means is compared with the reference clock information. Memory control means
The bit rate extracted by the comparison result by the clock information comparison means and the header information analysis means
Based on the data information, reading of the reproduction data from the memory means is controlled. That is, memory
The control means includes the reproduction clock information at the timing indicated by the reproduction clock information.
The reproduction data corresponding to the header that has been read is started to be read from the memory means. in this case
The reading is interrupted according to the bit rate information. As a result, the recovered clock information
The transmission bit rate matches the reproduced bit rate information.
Like that.
The interface means may accept an input of a command input from the outside.
Good.
In a circuit that includes a microprocessor, header information analysis means, reference clock information
Equipment cost can be reduced by combining generation means, clock information comparison means, and transmission packet generation means.
Can be reduced.
The operation of the second aspect of the present embodiment will be described. The data reading / reproducing means reads from the recording medium.
Video / audio data is read out and stored in the memory means.
The interface means externally reproduces the reproduction data read from the memory means.
Is sent out. If the transmission packet generating means is provided, the interface means is
The transmission packet generator sends out the packetized reproduction data. Also interface hand
The stage accepts externally input commands and reproduction data request signals.
The memory control means executes a memo based on the reproduction data request signal received by the interface.
The reproduction data read from the recording means is controlled.
It should be noted that the transmission packet generating means and the memory control are added to the circuit including the microprocessor.
If it also serves as a means, the apparatus cost can be reduced.
A third aspect of the present embodiment will be described.
The playback device reads the encoded video / audio data from the recording medium.
Once stored in the memory, it is sent to the decoding device at a predetermined timing. Decoder device
The video / audio data that is sequentially encoded from the playback device
Once stored in memory. This is then decoded and output as audio and / or images from the output device.
Output.
Also, the decoder device sends an operation command signal to the playback device. Playback device, decoder
It operates according to the command signal sent from the device.
As described above, the video / audio data reproducing device of this embodiment is encoded.
Video / audio data can be sent as is. The decoder / display device
Similar to decoding received data sent by the communication decoder, data overflow and overflow
It is possible to decode the playback data of the video / audio data playback device without underflow.
It becomes possible.

  Further, the first to fifth embodiments described above are video disk players using a disk as a recording medium. However, the scope of application of the present invention is not limited to this. The present invention can also be applied to a video tape reproducing apparatus using a tape medium.

  DESCRIPTION OF SYMBOLS 1 ... Disk, 5 ... Reproduction signal processing circuit, 6 ... Memory, 7 ... Memory control circuit, 8 ... Transmission packet generation circuit, 9 ... Pack header analysis circuit, 10 ... Comparison circuit, 11 ... Reference clock generation circuit, 12 ... Transmission Bus interface circuit 13 Additional data extraction / transmission packet generation circuit 14 Audio data extraction / transmission packet generation circuit 15 Video data extraction / transmission packet generation circuit 16 Pack pack analysis / transmission packet generation circuit 18 Request detection circuit, 19 ... memory, 20 ... microprocessor, 100 ... decoder / display device, 500 ... video disc player

Claims (5)

In a playback method of a recording medium that includes a header having playback clock information indicating playback timing and is encoded and recorded with video / audio data,
A data read step for reading the encoded video / audio data from the recording medium;
A memory step for temporarily storing the read reproduction data;
A memory control step for controlling reading of reproduction data in the memory step;
A header information analysis step of analyzing a header included in the reproduction data read in the memory step and extracting the reproduction clock information;
A reference clock information generating step for generating reference clock information which is a determination criterion of timing for reading out the video / audio data in the memory step;
A clock information comparison step for comparing the recovered clock information extracted by the header information analysis step with the reference clock information;
A packet generation step for packetizing the reproduction data read in the memory step;
With
The memory control step, on the basis of the comparison result of the clock information comparing step, controlling the reading of the reproduction data in the memory step,
A video / audio data reproduction method characterized by the above. In claim 1,
The header has bit rate information,
In the header information analysis step, the header is analyzed, the bit rate information is extracted,
The memory control step controls reading of reproduction data in the memory step based on the bit rate information extracted in the header information analysis step;
A video / audio data reproduction method characterized by the above. In the memory control step, at the timing indicated by the reproduction clock information, the reproduction data corresponding to the header included in the reproduction clock information is started to be read by the memory step, and the reading is performed according to the bit rate information. Controlling to be intermittent,
The method for reproducing video / audio data according to claim 2. The packet generation step is to separate video data and audio data into separate packets;
The method for reproducing video / audio data according to claim 1, wherein: At least one of the header information analysis step, the reference clock information generation step, and the clock information comparison step is executed by a microprocessor;
5. The method for reproducing video / audio data according to claim 1, wherein:

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