JP3201709B2 - Compressed video / audio distribution / playback system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system for distributing and reproducing an image / audio signal, and more particularly to a compression system for distributing a compressed image / audio signal as a digital signal from a storage device and performing expansion / reproduction on the reproduction device. The present invention relates to an image / audio distribution / playback system.

[0002]

2. Description of the Related Art Conventionally, as a system for distributing video and audio signals to individual users, a so-called cable television broadcast (C
ATV) is known. In this CATV, a distribution source and a tuner of each user are connected by a cable, and a user selects a channel and watches a program. Most of the conventional CATV signal distribution is performed by analog transmission.

In recent years, the development of digital transmission of video and audio signals has been advanced, and various types of digital modulation methods for signals have been studied. However, various digital video and audio signal formats before modulation are used. And
In particular, there is no unified standard.

As means for reproducing / displaying image / audio signals, an optical disk player for reproducing an optical disk on which image / audio is recorded by an analog recording system, and a video tape recorder are widely used as a general consumer image reproducing apparatus. Also, in recent years, a compact disk read-only memory (CD-ROM) that records digital video and audio signals that have been data-compressed by encoding has been developed to a standard called a video CD that reproduces and displays moving video and audio signals. Compressed signal reproduction devices (video CD players) based on these have been developed.

The purpose of this video CD player is to input and reproduce a reproduction signal from a single CD drive, and does not consider inputting a compressed video / audio signal from a source other than the CD drive.

[0006]

However, there is a problem in the above-mentioned prior art that it is impossible to immediately watch the title that the user wants to view. For example, for a title distributed using CATV, the distribution start time is determined in advance, and the user simply selects a favorite title from a plurality of channels. Of course, the start time of the program is not always the time that the user wants to watch, and the title and the reproduction time are also limited.

[0007] Of course, if a video tape recorder, a video CD player, or the like, which is an image reproducing device existing at the user's hand, can be reproduced by the user at any time. It is necessary to purchase or rent at.
For this reason, it is not always possible to view immediately when the user wants to view, and the cost of purchasing software increases.

Further, since the signal format of the compressed video / audio signal to be distributed is not unified in the above-mentioned prior art, the distribution is performed in a different signal format depending on each distribution source. It is necessary to prepare all the reproducing means corresponding to. Even if a compressed signal reproducing apparatus such as a video CD is spread by itself, the conventional video CD player does not consider input from other than a single CD drive. For this reason, a distribution signal from a distribution source having a large-scale storage device cannot be connected.

[0009] Even if the connection is possible, if the signal format of the compressed signal distributed from the distribution source to the user is different, a new reproducing apparatus corresponding to the signal format is additionally required, and the user side device is required. There is a problem that the cost increases. Furthermore, it is necessary to switch the control of the playback device between playback with a single CD drive and reception and playback of a distribution signal, which causes a cost increase factor of the user side equipment and a complicated operation method. There is.

A first object of the present invention is to construct a compressed video / audio distribution / reproduction system which distributes and reproduces compressed video / audio data so that a user can freely select and view a title at any time.

A second object of the present invention is to share a compressed signal format of distribution data and a compressed signal format of data reproduced from a CD drive, thereby reproducing data from the distribution data and the CD drive. The purpose of the present invention is to realize a reduction in the cost of the entire distribution / playback system and the user-side device and a simplification of the operation method of the user-side device by unifying the signal reproduction mechanism of the present invention and unifying the control method.

A third object of the present invention is to smooth out the flow of compressed video and audio data distributed from a distribution source via relay means, and to provide a playback device which is a user-side terminal with continuous data. It is an object of the present invention to provide a compressed video / audio distribution / reproduction system which enables reproduction.

[0013]

A first object of the present invention is to provide a compressed video / audio distribution / playback system having a storage device, a signal relay device, and a playback device, wherein the storage device stores compressed video / audio signals. Storage means for storing, and transmission means for reading out the compressed signal stored in the storage means and transmitting the compressed signal to the signal relay device, wherein the signal relay device transmits the compressed signal transmitted from the transmission means. Receiving means for receiving, a distribution means for distributing at least a part of the compressed signal of the received compressed signal to the playback device, and a distribution control means for controlling a distribution operation of the distribution means, The playback device includes a distribution signal receiving unit that receives a compressed signal distributed from the distribution unit, and reads the compressed signal from a storage medium that stores moving image and audio compressed signals. And a compressed signal reproducing device that receives a compressed signal from one of the distribution signal receiving means and the storage medium reading device, and expands and reproduces the compressed signal. The playback device outputs a control command of the same form to any one of the storage medium reading device and the distribution control unit, and the storage medium reading device responds to the input control command, Controlling the read operation, wherein the distribution control means controls the distribution operation according to the input control instruction, and converts the control instruction into a second control instruction used in the storage device. And outputs the data to the storage device, and the storage device controls reading and transmission operations by the transmission unit in accordance with the input second control command. It can be achieved by compressing the image voice delivery reproducing system according to symptoms.

The first object is to provide a distribution signal receiving means for receiving a compressed signal distributed from an external compressed signal distribution source, which distributes a specific compressed signal in response to an input control command; A storage medium reading device that reads out the compressed signal from a storage medium that stores a compressed signal of moving image and audio in accordance with a control command of the same format as the control command, the distribution signal receiving unit, and the storage A compressed signal reproducing device that receives a compressed signal from one of the medium reading devices, expands and reproduces the compressed signal, and sends the control command to the storage medium reading device. Two output ports capable of outputting the control command, one of which is connected to the storage medium reading device and the other of which is connected to the external compressed signal distribution source; And a command output destination selecting means for selecting one of the two output ports and outputting the control command via the output port. Can be achieved by the above-described reproducing apparatus.

A second object of the present invention is to provide a storage device having storage means for storing moving image and audio compressed signals, transmitting means for reading and transmitting the compressed signals stored in the storage means, Receiving the compressed signal transmitted from the means, a signal relay device having a distribution means for distributing at least a part of the compressed signal, a receiving means for receiving the compressed signal distributed from the distribution means, and A playback device having a compressed signal playback device for expanding and playing back the compressed signal received by the receiving means, wherein the playback device stores compressed video and audio signals in a predetermined recording format. A storage medium reading device that reads out the compressed signal from a storage medium, wherein the storage unit has the same recording format as the predetermined recording format used in the storage medium. Storing a compressed signal in a format, wherein the compressed signal reproducing device receives a compressed signal from one of the receiving means and the storage medium reading device, and expands and reproduces the compressed signal. This is achieved by a compressed video / audio distribution / reproduction system characterized by the following.

The third object is to provide a storage device for storing moving image and audio compressed signals, a reproducing device for reproducing distributed compressed signals, and a reproducing device for reproducing compressed signals stored in the storage device. A buffer for temporarily storing at least a part of a compressed signal supplied to the apparatus in at least one of the signal relay apparatus and the playback apparatus. A time-averaged inflow rate of a compressed signal supplied to a device having a memory and the buffer memory is set to be higher than a time-averaged outflow rate of a compressed signal output from the device. This is achieved by a compressed video / audio distribution / reproduction system characterized by the above-mentioned features.

[0017]

According to the present invention, there is provided a compressed video / audio distribution / playback system according to the present invention, which comprises a storage device, a signal relay device, and a playback device.

In the storage device, the storage means stores the compressed video and audio signals in the same recording format as a recording format on a storage medium described later. The transmitting means reads and transmits the compressed signal stored in the storage means according to the input second control command.

The second control command to the storage device is a signal relay device that converts and issues a control command from the compressed signal reproducing device.

[0020] The signal relay device receives the data constituted by the compressed signal transmitted from the storage device by the receiving means. The distribution unit distributes the received compressed signal to the reproduction device under the control of the distribution control unit in accordance with the control command sent from the compressed signal reproduction device.

The reproducing apparatus is provided with distribution signal receiving means for receiving the distributed compressed signal, and a storage medium reading device. The compressed signal reproducing device receives a compressed signal from the storage medium reading device or a compressed signal received by the distribution signal receiving means and distributed from the storage device via the signal relay device, and expands and reproduces the compressed signal. . When reproducing the compressed signal from the storage medium reading device, the compressed signal reproducing device issues a control command through an output port connected to the storage medium reading device.

In the case of reproducing a compressed signal distributed from a storage device via a signal relay device, the compressed signal reproducing device performs the above-mentioned operations via an output port connected to the distribution control means of the signal relay device. Issue the same form of control instruction.

According to the above configuration, the operation of distributing the compressed signal stored in the storage device can be controlled by the control command output from the compressed signal reproducing device operated by the user, so that the user can control the operation at any time. You can watch it freely.

In the invention of the means for achieving the second object, the storage means of the storage device stores compressed moving image and audio signals in the same recording format as the storage medium. Further, the playback device includes a storage medium reading device that reads out a compressed signal from the storage medium.

The compressed signal reproducing device accepts a compressed signal having the same signal format and distributed from a storage device via a signal relay device or a compressed signal from a storage medium reading device, and performs common decompression and reproduction processing. Perform

Therefore, the compressed signal reproducing apparatus can perform the same reproducing process regardless of where the input compressed signal is sent from. Further, since both the compressed signal stored in the storage device and the compressed signal stored in the storage medium are stored in the same recording format, the control required for reproduction can be unified, and The circuit configuration required for the reproduction control process can be simplified.

In the invention of the means for achieving the third object, the compressed signal data supplied to the device having the buffer memory is temporarily stored in the buffer memory, and the stored compressed signal data is gradually stored. Output. According to such a configuration, the compressed signal data can be continuously output even when the supply timing and the output timing of the compressed signal data are asynchronous.

Further, the time-averaged inflow rate of the compressed signal data supplied to the apparatus having the buffer memory is higher than the time-averaged outflow rate of the compressed signal data output from the apparatus. By setting, it is possible to always store some compressed signal data in the buffer memory, so that it is possible to continuously output the compressed signal data.

Therefore, according to the present invention, the flow of the compressed signal data is smoothed, and the reproducing apparatus can continuously reproduce the data.

[0030]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a compressed video / audio distribution / reproduction system to which the present invention is applied will be described below with reference to the drawings.

As shown in FIG. 1, the system according to the present embodiment includes a group of compressed video and audio signals (hereinafter abbreviated as title) composed of a predetermined amount of compressed video and audio signals representing specific video and audio information such as a movie. Storage device 1 for recording a plurality of
Receives an operation related to selection of specific image / audio information desired by the user, issues various control commands (hereinafter, collectively referred to as access control commands) in accordance with the operation, and issues the control command. A playback device 100 for playing back a compressed video / audio signal distributed according to the above, and a compressed video of a title corresponding to the video / audio information selected by the user stored in the storage device 1 in response to the access control command A playback device 1 that acquires an audio signal and converts the acquired compressed image / audio signal into an access control command.
00, and a signal relay device 2 for distributing the received signal to 00.

Although FIG. 1 shows one storage device 1, one signal relay device 2 and one reproducing device 100 for the sake of simplicity, one signal relay device is used in this embodiment. It is assumed that the reproducing apparatus 100 is connected to the apparatus 2 by the number of channel multiplexing described later, and a plurality of signal relay apparatuses 2 are connected to one storage apparatus 1.

In this embodiment, an ATM (Asyncronous Transfer Module) for connecting the storage device 1 and the signal relay device 2 is further provided.
de) It has a network 7 and a distribution line 8 that connects the playback device 100 and the signal relay device 2.

The reproducing apparatus 100 includes a signal format converting apparatus 3 for converting the format of the distributed compressed image / audio signal, and a compressed signal reproducing apparatus 4 for reproducing the converted compressed image / audio signal.
And a compressed video and audio signal to be described later on a video CD.
Optical CD-RO stored in a standard recording format
A CD drive 5 for driving an M (Compact Disk-Read Only Memory) and detecting a compressed video and audio signal stored therein, and a television receiver for outputting an image and a sound reproduced by the compressed signal reproducing device 4 6.

The storage device 1 has a hard disk (HDD) 11 in which compressed video and audio signals of a plurality of titles are recorded.
And an ATM interface 12 for asynchronously transferring the packetized compressed video and audio signals through the ATM network 7, thereby realizing high-speed transfer of a large amount of data.

The compressed image / audio signal stored in the hard disk 11 is recorded in the same recording format as the video CD standard in the optical CD-ROM to be read by the CD drive 5.

Here, the video CD used in this embodiment is
The data recording format of CD-ROM according to the standard
This will be described with reference to FIG.

The recording format of the CD-ROM includes a mode 1, a mode 2 form 1, and a mode 2 form 2. In the video CD standard, as shown in FIG. 2, control information for a video CD is recorded in mode 2 form 1 and video / audio data is recorded in mode 2 form 2.

That is, the video and audio signals are
It is encoded and compressed based on the G (Moving Picture Expert Group) standard and is divided into user data in units of 2324 bytes per sector. Furthermore, the recording format of the CD-ROM is
A 12-byte CD-ROM synchronizing signal, a 4-byte header, an 8-byte subheader, a 2324-byte user data, that is, encoded compressed video / audio data, and a 4-byte reserve (or error detection code (ECC)) are added. It has a structure. Further, on an actual disk, the data 2340 bytes after the CD-ROM synchronization signal is scrambled.

The scramble register for performing the above-mentioned scramble processing is a 15-bit shift register for feeding back according to the following polynomial.

X ¹⁵ + X + 1 (Equation 1) As shown in FIG.
It has a bit shift register 301, an exclusive OR gate for feedback (hereinafter, abbreviated as EXOR) 302, and an EXOR gate 303 for data, and operates with a bit clock of input data.

The input data 304 is XORed with the output of the shift register 301 in bit units starting from the least significant bit of the first byte, and the output data 305
Becomes The initial value of this register is preset to, for example, the value shown in FIG. 3 after synchronization by the CD-ROM synchronization signal.

In this embodiment, in order to unify the recording format of the CD-ROM data of the video CD standard, which has been subjected to the scramble processing, the compressed video / audio signal recorded in the storage device 1 includes a CD-ROM. The synchronization signal, header, subheader, and reserve data are added, and scrambling is performed on 2340 bytes of data after the CD-ROM synchronization signal.

The amount of data newly added to the compressed video / audio data to unify with the recording format of the video CD is about 30 B, and the amount of user data (2 kB) is added.
Degree), about 1%. Therefore, the compressed video / audio signal can be stored in the storage device 1 in almost the same storage format as the recording format of the video CD, without substantially changing the amount of the compressed video / audio signal representing the original title.

In this embodiment, the case where an optical CD-ROM is used as a storage medium used in the reproducing apparatus 100 is described, but the present invention is not limited to this. In the present invention, the storage medium is a current optical CD-R.
What is necessary is just to have the same storage capacity as OM,
The type is not limited.

As shown in FIG. 1, the signal relay device 2
It has a TM interface board 21, a CPU 23, a memory 22, a hard disk (HDD) 25, a communication interface 24, a digital modulator 26, and a bus 27 to which the above components are connected.

In the signal relay device 2, data composed of the compressed video / audio signal asynchronously transferred from the storage device 1 by a packet is received via the ATM interface board 21. The received data is reconstructed again into the original compressed video / audio signal format by the predetermined reconstruction process of the CPU 23, and is stored in the memory 22 or the HD.
D25 is temporarily stored.

The communication interface 24 receives an access control command output from the playback device 100 via the CD access control signal path 94.

The access control command is, as described later, a CD.
It has the same format as a command for controlling access to a CD-ROM address to the drive 5, and for example, requests distribution of a specific title, such as a movie or program desired by the user, or temporarily stores a video or audio of the title. It instructs various operations performed by a conventional video player, such as stop, fast forward, and rewind.

Also, according to the received access control command,
When a compressed image / audio signal other than the compressed image / audio signal stored in the memory 22 and the HDD 25 is required, the communication interface 24 converts the access control instruction into a control instruction in a format that can be processed by the storage device 1. And issues the converted control command to the storage device 1 via the ATM interface 21 and the ATM network 7.

The communication interface 24 further receives, via the ATM network 7, various response signals transmitted from the storage device 1 in response to the access control commands, for example, indicating success or failure of the access control commands. This response signal is converted into the same format as the response format of the CD drive 5 and transmitted to the playback device 100 via the CD access control signal path 94.

The CPU 23 includes a communication interface 24
In accordance with the processing procedure defined in accordance with the access control command received in step (1), the compressed video / audio signal temporarily stored in the memory 22 or the HDD 25 or the compressed video / audio signal newly transmitted from the storage device 1 The distribution data is generated using the signal.

The generated distribution data includes a multiplexed compressed video / audio signal for a plurality of channels and a plurality of channel selection signals (hereinafter, referred to as channel selection signals) for selecting each channel. It is. The distribution data is further subjected to digital modulation processing by a digital modulator 26,
It is distributed to the same number of playback devices 100 as the number of channels.

In the present embodiment, the signal relay device 2 generates distribution data from a compressed video / audio signal corresponding to an access control command sent from each reproduction device 100, and transmits the generated distribution data to each reproduction device. 100 distributes through the selected channel.

Here, an example of the channel multiplexing process using the compressed video and audio signals for a plurality of channels and the channel selection process will be described with reference to FIG. FIG. 7 shows a signal (1) obtained by time-division multiplexing of four channels of compressed video and audio signals, and channel select signals 1 to 4 ((2) to (5)) for four channels.

The distribution data on the distribution line 8 is such that each of the compressed video and audio signals of the channels 1 to 4 is divided into a specific unit, for example, a sector unit where the compressed video and audio signal in this embodiment is formally divided. Each of them is time-division multiplexed. Note that numerals 1 to 4 shown in the compressed signal (1) shown in FIG. 7 indicate data units in each channel.

Each of the channel selection signals 1 to 4 is composed of a timing signal transmitted at a timing synchronized with the data unit of the corresponding channel.

According to such a structure of the distribution data, for example, when extracting the distribution data of channel 1,
In the reproducing apparatus 100, only the compressed video / audio signal of the data unit to which the channel selection signal 1 is synchronized is extracted from the distribution data, and the time axis expansion may be performed.

According to the configuration using the channel multiplexing of the present embodiment, the number of signal relay devices 2 required for distribution of the compressed video / audio signal can be reduced, and the access from each reproduction device 100 can be reduced. It becomes possible to respond to a control command in real time.

Also, by performing buffering processing using the memory 22, the storage device 1
Distribution from the signal relay device 2 to the reproduction device 100
It is also possible to adopt a configuration that absorbs the asynchronous nature of data distribution to the server.

That is, as described above, in this embodiment, on the distribution line 7, data is asynchronously burst-transferred in packet units, but on the distribution line 8, data of each channel is time-division multiplexed. Synchronous transfer.

Therefore, in the signal relay device 2, the distribution data from the storage device 1 is received by the ATM interface 21 and reconfigured by the CPU 23, and then sequentially stored in the memory 22 for each channel. Further, while performing the storing operation, the already stored data is subjected to channel multiplexing processing as described above, and is delivered to the reproducing apparatus 100 at a predetermined timing.

To perform the distribution operation to the reproduction apparatus 100, for example, the memory 2 in which the distributed data is secured
2 is opened, and then the operation of sequentially storing data newly delivered from the storage device 1 in the opened area of the memory 22 is repeated.

When data stored in the memory 22 runs out during data distribution to the reproducing apparatus 100, continuous data distribution at a predetermined timing to the reproducing apparatus 100 cannot be maintained. For this reason, the data distribution rate from the storage device 1 is set higher in advance than the data distribution rate to the playback device 100. When the distribution operation from the storage device 1 is performed intermittently, the distribution rate indicates an average distribution rate obtained by averaging a predetermined time interval.

When there is no more free space in the memory 22 during data distribution, the CPU 23 outputs a control command to the storage device 1 to interrupt the data distribution. Then, the control command for executing the restart of the data distribution is output.

The memory 22 is used by dividing the area by the number of channels. However, it is also possible to add and use more memories and HDDs by the number of channels.

In this embodiment, the memory 22 having a high data write / read speed is usually used.
Using the DD 25, or using the memory 22 and the HD
Both of D25 can be used together.

The buffering process described above is performed.
By independently processing the operation of receiving the data distributed from the storage device 1 and the operation of distributing the data to the reproducing device 100 in the signal relay device 2, the asynchronous nature of the data distribution is absorbed, and the continuous operation to the reproducing device 100 is performed. Data distribution can be performed.

Next, the signal format conversion device 3 and the compressed signal reproduction device 4 included in the reproduction device 100 will be described in more detail.

As shown in FIG. 1, the signal format converter 3 includes a digital demodulator 31, a channel selector 32, a time axis converter 33, and a parallel / serial converter 3.
4

The distribution data digitally modulated by the signal relay device 2 and distributed through the distribution line 8 is demodulated by the digital demodulator 31 into a multiplexed compressed video and audio signal for a plurality of channels and a channel select signal. You.

The channel selector 32 uses the channel select signal corresponding to the channel designated by the user, which is input in advance, from among the demodulated multiplexed compressed video / audio signals, as described above. Select the compressed video / audio signal transmitted through the designated channel.

The time axis converter 33 performs a time axis expansion process on the compressed video / audio signal (see FIG. 7) of the selected channel which is divided for each predetermined data unit.
The parallel / serial converter 34 converts the signal format of the compressed video / audio signal expanded in the time axis into serial data corresponding to the input format of the compressed signal reproducing device 4.

The compressed signal reproducing device 4 includes an image decompression processing means (MPEG video decoder) 42, an audio decompression processing means (MPEG audio decoder) 45, a reproduction processing memory 44, and a bus 46 to which each component is connected. And

The compressed signal reproducing device 4 further includes an input data interface 41 having two input ports for receiving the compressed video and audio signals from the CD drive 5 and the signal format converting device 3, respectively. In order to control the decompression and reproduction processing performed in step (a), issue access control commands to the communication interface 24 and the CD drive 5 of the signal relay device 2, and accept response signals sent back in response to the access control commands, respectively. And a central processing unit 43 having the two input / output ports.

The two input ports of the input data interface 41 have a serial data transfer path 91 connected to the output side of the CD drive 5 and a serial data transfer path 92 connected to the output side of the signal format converter 3, respectively. And connected to. The two input / output ports of the central processing unit 43 are connected to a CD drive 5 connected to the CD drive 5, respectively.
The access control path 93 is connected to a CD access control path 94 connected to the communication interface 24 of the signal relay device 2.

The compressed signal reproducing device 4 further switches the two input ports of the input data interface 41 and the two input / output ports of the central processing unit 43 in an interlocked manner, for example, a selecting means realized by a changeover switch. (Not shown).

In this embodiment, the user switches this selection means to reproduce the compressed image / audio signal from the CD drive 5 or to distribute the compressed image / audio signal from the storage device 1 via the signal relay device 2. The compressed video / audio signal to be reproduced.

When the compressed signal reproducing device 4 is combined with the CD drive 5, it corresponds to a so-called video CD player. When operating as a single video CD player, that is, when reproducing a compressed video / audio signal from the CD drive 5, the input data interface 41 is input to the input data interface 41 via the input port and the data transfer path 91 selected by the selection means. Receives a compressed video / audio signal read from the CD drive 5.

The compressed video / audio signal read from the CD drive 5 generally includes a bit clock, serial data,
And a signal composed of a combination of a word clock (also called an LR channel signal). The input data interface 41 is provided with a CD decoder processing means, detects a CD-ROM synchronizing signal from serial data of the input compressed video and audio signal, and further,
By performing the descrambling process, a compressed image / audio signal that can be expanded / reproduced as described later is output.

The access control command for the CD drive 5 from the central processing unit 43 is issued through the input / output port selected by the selection means and the CD access control signal path 93. The access control commands include, for example, a reproduction, stop, pause, seek command, and the like. These access control commands access the CD-ROM address (in units of sectors).

The compressed video / audio signal read from the CD drive 5 and input through the input data interface 41 is processed by the video decompression processing means 42 and the voice decompression processing means 45 in accordance with a predetermined reproduction processing control by the central processing unit 43. , Expanded and reproduced. The reproduced image and audio signals are output to the television receiver 6, where image display and audio output are performed.

On the other hand, when the compressed video / audio signal distributed from the storage device 1 via the signal relay device 2 is reproduced, the input data interface 41 is selected by the selection means.
And the input / output port of the central processing unit 43 are switched.

In this case, the data distributed from the signal relay device 2 is converted into a signal format by the signal format converter 3 and is input to the input data interface 41 via the selected input port and the data transfer path 92. You.

In this embodiment, the recording format of the video CD read by the CD drive 5 and the storage device 1
Since the storage format is the same, the compressed video and audio signal converted by the signal format converter 3 has the same signal format as the compressed video and audio signal from the CD drive 5. Therefore, the compressed image / audio signal distributed from the storage device 1 through the relay device 2 can be reproduced by the compressed signal reproduction device 4 in the same manner as the compressed image / audio signal read by the CD drive 5.

That is, the input data interface 4
1 receives a compressed video / audio signal in the same manner as described above, detects a CD-ROM synchronization signal contained therein,
Further, by performing a descrambling process, a compressed image / audio signal that can be expanded / reproduced as described later is output.

The signal relay device 2 from the central processing unit 43
The access control command to the communication interface 24 of the I / O port is based on the input / output port and CD selected by the selection means.
Issued through access control signal path 94.

The access control command has the same format as that for the CD drive 5 and accesses the compressed video / audio signal data stored in the memory 22 or the HDD 25 of the signal relay device 2 in sector units. Is performed. If there is no corresponding data in the memory 22 or the HDD 25, the access control command is converted into a control command that can be accepted by the storage device 1 and sent to the storage device 1 via the ATM network 7.

The conversion process of the access control command is performed for the following reasons. That is, it is necessary for the storage device 1 to store the compressed video and audio signals corresponding to as many titles as possible. For this reason, a compressed video / audio signal recorded in the same format as the recording format of the CD-ROM, which constitutes one title, is stored and managed as, for example, one file or a plurality of titles as one file. It is reasonable to do. For this reason, it is necessary to convert an access control command in units of sectors issued from the compressed signal reproducing device 4 into a control command in units of files corresponding to a title designated in advance.

According to the access control command sent as described above, the compressed video / audio data distributed from the storage device 1 via the signal relay device 2, converted by the signal format converter 3 and input through the input data interface 41. The signal is decompressed and reproduced according to a predetermined reproduction process control by the central processing unit 43 and output to the television receiver 6 in the same manner as described above.

According to the present embodiment, there is no need to control whether the compressed video / audio signal being reproduced is a distributed video signal or a CD signal from the CD drive 5. By simply switching the destination of the signal and the access control command, the user can specify an arbitrary title, perform reproduction, and perform various operations under exactly the same operation control.

Further, according to the present embodiment, the signal format of the compressed video / audio signal read from the video CD and the signal format of the distributed compressed video / audio signal are shared, so that a single compressed signal reproducing device is used. 4 enables the reproduction of the video CD and the distributed title. Further, it is possible to unify the operation method relating to the reproduction processing in the compressed signal reproduction device 4 and to reduce the cost of the entire compressed video / audio distribution / reproduction system.

In the above embodiment (see FIG. 1), the CD-RO
In order to unify the data format of M, the compressed video and audio signal subjected to the scramble processing is recorded in the storage device 1. However, in the present invention, the compressed video and audio signal that is not subjected to scramble processing is stored in the storage device 1, and after reading out the compressed video and audio signal, the signal scrambling device 2 or the reproduction device 100 performs the scramble processing. It is good also as composition.

[0094] For example, as shown in FIG.
May be added. The scrambler 28 is provided between the digital modulation circuit 26 and the bus 27, and is configured to realize the scramble processing by either hardware or software. Also, as shown in FIG. 5, a similar effect can be obtained by using a configuration in which a scrambler 35 is added to the output side of the parallel / serial conversion circuit 34 of the signal format converter 3.

In the embodiments of FIGS. 1, 4 and 5, the descrambling process is performed by the input data interface 41 of the compressed signal reproducing device 4.
A scramble process was performed on the compressed video / audio signal input to 0. Therefore, instead of the input data interface 41 (see FIG. 1), a configuration may be provided that includes an input data interface capable of selecting the presence or absence of the descrambling process during the reproduction process.

That is, in the compressed image reproducing device 4,
A configuration in which a descrambling process is performed when a compressed image / audio signal from a video CD read from the CD drive 5 is reproduced, and a descrambling process is not performed when a compressed image / audio signal distributed from the storage device 1 is reproduced. And According to such a configuration, it is not necessary to perform a scrambling process on the distributed compressed image / audio signal, and the system configuration can be further simplified.

Next, another embodiment of the compressed video / audio distribution / reproduction system to which the present invention is applied will be described with reference to FIG.

In the embodiment shown in FIG. 1, the multiplexed compressed video and audio signals of a plurality of channels and the channel select signal are digitally modulated on the distribution line 8 from the signal relay device 2 to the signal format converter 3. , One track 8
However, as in this embodiment, the distribution line 8 may be divided into two without performing digital modulation.

That is, the signal relay device 2 of this embodiment is
As shown in FIG. 6, instead of the digital modulation circuit 26 of the embodiment shown in FIG. 1, channel-multiplexed compressed video / audio data (see FIG. 7 (1)) and a channel select signal (FIG. 7 (2) ) To (5)) using different lines.
9 In FIG. 6, the same components as those in FIG. 1 are denoted by the same reference numerals, and description thereof will be omitted.

In the present embodiment, a parallel data line 81 for transmitting channel-multiplexed data and a channel select signal line 82 for transmitting a channel select signal are provided in place of the distribution line 8 in the embodiment of FIG. Have.

Further, the signal format converter 3 of this embodiment
Does not include the digital demodulation circuit 31 of the embodiment of FIG. 1, but directly receives the data sent by the parallel data line 81 and the channel select signal line 82 by the channel selector 32.

The channel selector 32 receives the data distributed to the signal format converter 3 and extracts only the compressed video / audio signal corresponding to the channel specified by the user. The time axis converter 33 performs a time axis expansion process on the extracted compressed video / audio signal. The parallel / serial converter 34 converts the processed compressed video / audio signal into serial data and sends the serial data to the input data interface 41 of the compressed signal reproducing device 4.

According to this embodiment, since the compressed video / audio signal to be distributed is not digitally modulated, a digital modulation / demodulation circuit is not required. For this reason, the circuit configuration of the present embodiment can be further simplified. In this embodiment, for example,
This is particularly effective when the signal relay device 2 serving as the distribution source and the reproducing device 100 disposed in each room are close to each other, such as a hotel, and there is little concern about noise or the like in the distribution line 8. It is a target.

Next, another embodiment of the compressed video / audio distribution / reproduction system to which the present invention is applied will be described with reference to FIG.

As shown in FIG. 8, the system of this embodiment is different from the configuration of the embodiment of FIG.
In addition, another memory is additionally provided, and a first memory 221 and a second memory 222 are provided. The same components as those in the embodiment of FIG. 1 are denoted by the same reference numerals, and detailed description thereof will be omitted.

In the system of this embodiment, the playback device 100
, From the signal format converter 3 to the compressed signal reproducer 4
When the data transmission to the CPU and the predetermined reproduction processing control by the central processing unit 43 are performed asynchronously in time, the asynchronousness is absorbed by the buffering processing by the memory 44 and is transmitted to the reproduction apparatus 100. It is determined whether there is an error in the received data, and if it is determined from the result of the determination that there is an error, retransmission processing of the data is executed at a high speed.

First, the above-described buffering processing will be described.

In the reproducing apparatus 100 of this embodiment, while the data transmitted from the signal format converter 3 is stored in the memory 44 via the input data interface 24, the data already stored in the memory 44 is The data is decompressed / reproduced by a predetermined reproduction processing operation of the central processing unit 43 and output to the television receiver 6.

In the memory 44, the storage areas where the data whose reproduction has been completed are secured are sequentially released, and are used for storing data transmitted from the signal format converter 3 one after another.

In the reproducing apparatus 100 according to the present embodiment, when data stored in the memory 44 runs out during data reproduction, the reproduction processing is interrupted. For this reason, the transmission rate of the data transmitted from the signal relay device 2 through the signal format conversion device 3 is set to be higher than the data consumption rate in the reproduction process. Here, the transmission rate and the consumption rate may be set in advance according to the assumed usage state of the reproducing apparatus 100, or the consumption rate may be detected in real time, and the detected consumption rate may be determined. The transmission rate may be sequentially set based on the transmission rate.

In the process of storing data, the memory 44
When there is no more free space, the central processing unit 43 sends a signal to the signal relay device 2 via the communication interface 24.
A control command for executing the interruption of the data distribution is output, and thereafter, when the memory 44 becomes available, a control instruction for executing the restart of the data distribution is output.

The above buffering process is performed,
By independently processing the operation of receiving the data transmitted from the signal format converter 3 in the compressed signal reproducing device 4 and the operation of reproducing the data by the central processing unit 43, the asynchronous operation between the two operations is absorbed and the compression is performed. Continuous data reproduction in the signal reproducing device 4 can be performed.

Next, the data error detection and retransmission processing described above will be described.

In this embodiment, an error detection means (not shown) is provided in the input data interface 41 of the compressed signal reproducing device 4 in order to detect an error in the received data. In addition,
Instead of providing the error detecting means in the input data interface 41, there is no problem if the error is detected by the central processing means 43 or the dedicated error detecting means is provided in the apparatus.

The data received by the input data interface 41 is stored in the memory 44 if no error is detected after the error detection is performed by the error detecting means. If an error is detected, the data is stored in the memory 44. The control command for causing the data to be retransmitted is output from the central processing unit 43 to the signal relay device 2. afterwards,
When the retransmission data is received, error detection is performed again, and if there is no error, the data is stored in the memory 44, and the storing operation is continued.

As described above, by performing the above-described error detection and retransmission processing, an error in the received data is detected by the compressed signal reproducing device 4, and when an error is detected, the data retransmission processing is performed, whereby the compressed signal reproduction is performed. A continuous reproduction process with proper data in the device 4 can be maintained.

However, if the time until the data is retransmitted is long in the course of the data retransmission processing, the memory 44
There is a possibility that all the stored data may be lost due to the reproduction, so it is necessary to speed up the data retransmission process.

In the present embodiment, a method for increasing the speed of the data retransmission processing by providing the second memory 222 in the signal relay device 2 is employed. Note that the first memory 221 corresponds to FIG.
This is the same as the memory 22 of the embodiment, and has the same operation and effect.

That is, in the embodiment of FIG. 1, the signal relay device 2 stores the data distributed from the storage device 1 in the memory 22 while reproducing the stored data in the reproduction device 1.
However, in the present embodiment, the data distributed from the storage device 1 is stored in the first memory 221, and the data designated to be distributed to the playback device 100 is stored in the first memory 221.
Each time the distribution operation is completed, sequentially, for each channel,
The information is temporarily stored in the second memory 222. When the free space in the second memory 222 is exhausted, the oldest data is deleted and overwritten sequentially.

In the present embodiment, the compressed signal reproducing device 4
When a data error is detected and a control command for causing the data to be retransmitted is issued to the signal relay device 2,
In response to the control command, the signal relay device 2 determines whether data to be retransmitted is stored in the second memory 222, and if the data is stored, the second memory 222
2 and resend the data.

On the other hand, if not stored, the CPU 2
3 converts the control command to generate a second control command to output data from the data to be retransmitted in the storage device 1, and outputs the second control command to the storage device 1.

By the way, after receiving the data, the compressed signal reproducing device 4 ends the error detection within a substantially fixed time. Therefore, by adjusting the capacity of the second memory 222, when a control command for causing the signal relay device 2 to retransmit data is output, data to be retransmitted is stored in the second memory 22.
2 can be present.

As described above, the signal relay device 2 is provided with the second memory 222, in which the data for which the distribution processing has been completed is temporarily stored, and the temporarily stored data is used to store the data. By performing the process of retransmitting data to the playback device 100, the process of retransmitting data from the storage device 1 can be omitted, and the speed of the retransmission process can be increased accordingly.

Although the second memory 222 is used by dividing the area by the number of channels, it is also possible to use the memory by increasing the number of channels by the number of channels.

The first memory 221 and the second memory 222 may be used by dividing one memory into regions.
Further, the HDD 25 can be used as these memories.

[0126]

According to the present invention, it is possible to construct a compressed video / audio distribution / reproduction system which distributes and reproduces compressed video / audio data, which allows a user to freely select and view a title at any time.

Further, according to the present invention, the compressed signal format of the distribution data and the compressed signal format of the reproduced data from the CD drive can be made common, so that the entire system and the reproducing apparatus as the user side device can be used. Cost reduction and simplification of the operation method of the playback apparatus can be realized.

Further, according to the present invention, the flow of the compressed video / audio data distributed from the storage device via the signal relay device is smoothed, and the compressed video / audio data can be continuously reproduced in the reproducing device. A distribution reproduction system can be provided.

[0129]

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of an embodiment of a compressed video / audio distribution / playback system according to the present invention.

FIG. 2 is an explanatory diagram showing a recording format of a CD-ROM.

FIG. 3 is a block diagram illustrating a configuration example of a register that performs scrambling processing.

FIG. 4 is a block diagram showing an embodiment in which a signal relay device performs scrambling processing.

FIG. 5 is a block diagram showing an embodiment in which a scramble process is performed by a signal format converter.

FIG. 6 is a block diagram showing the configuration of another embodiment of the compressed video / audio distribution / playback system according to the present invention.

FIG. 7 is an explanatory diagram showing an example of a channel-multiplexed compressed signal and a channel selection signal.

FIG. 8 is a block diagram showing a configuration of another embodiment of the compressed video / audio distribution / playback system according to the present invention.

[Explanation of symbols]

REFERENCE SIGNS LIST 1 storage device 2 signal relay device 3 signal format conversion device 4 compressed signal reproduction device 5 CD drive 6 television receiver 7 ATM network 8 distribution line (data transmission line) ), 11 ... Hard disk, 12 ...
ATM interface, 21 ATM interface, 22 memory, 23 CPU, 24 communication interface, 25 hard disk, 26 digital modulator, 27 bus, 31 digital demodulator, 32 channel selector, 33 time axis Converter, 34 ... parallel /
Serial converter, 41 ... input data interface,
42 image decompression processing means 43 central processing unit 44
Memory, 45: voice expansion processing means, 46: bus, 91,
92: serial data transfer path, 93, 94: CD access control signal path, 221: first memory, 222: second memory.

──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Takashi Takeuchi 292 Yoshida-cho, Totsuka-ku, Yokohama-shi, Kanagawa Prefecture Inside the Multimedia System Development Division, Hitachi, Ltd. (72) Inventor Toshiyuki Oda Yoshida-cho, Totsuka-ku, Yokohama-shi, Kanagawa 292 Hitachi Systems, Ltd. Multimedia System Development Division (72) Inventor Hiroaki Takahashi 292 Yoshida-cho, Totsuka-ku, Yokohama-shi, Kanagawa Prefecture Hitachi, Ltd.Information Imaging Business Unit (72) Inventor Yasuhiro Sato Totsuka, Yokohama-shi, Kanagawa Prefecture Subdivision Yoshida-cho 292 address Hitachi, Ltd. information video business section (56) references Patent flat 7-95322 (JP, a) (58 ) investigated the field (Int.Cl. ^7, DB name) H04N 5/91 - 5/956 G11B 20/10-20/12 H04N 7/14-7/173

Claims (18)

(57) [Claims] 1. A compressed video / audio distribution / playback system including a storage device, a signal relay device, and a playback device, wherein the storage device includes a storage unit that stores a compressed signal of a moving image and a voice; Transmitting means for reading out the stored compressed signal and transmitting the compressed signal to the signal relay device; the signal relay device receiving means for receiving the compressed signal transmitted from the transmitting means; and A distribution unit that distributes at least a part of the compressed signal of the signal to the reproduction device; and a distribution control unit that controls a distribution operation of the distribution unit. Distribution signal receiving means for receiving the compressed signal, a storage medium reading device for reading the compressed signal from a storage medium in which the moving image and audio compressed signals are stored, and the distribution And a compressed signal reproducing device for receiving a compressed signal from one of the signal receiving means and the storage medium reading device, and decompressing and reproducing the compressed signal. Is output to one of the storage medium reading device and the distribution control unit. The storage medium reading device controls a reading operation in accordance with the input control command. The distribution control means controls the distribution operation in accordance with the input control command, converts the control command into a second control command used in the storage device, and outputs the second control command to the storage device, Wherein the storage device controls read and transmission operations by the transmission means in response to the input second control command. Stem. 2. The compressed signal reproducing device according to claim 1, wherein the compressed signal reproducing device is connected to each of the storage medium reading device and the distribution control means, and is capable of outputting the control command.
Compression, comprising: an output port; and instruction output destination selection means for receiving an external operation, selecting one of the two output ports, and outputting the control instruction via the output port. Video and audio distribution and playback system. 3. A storage device having storage means for storing a compressed signal of a moving image and a sound, a storage means having a transmission means for reading out and transmitting the compressed signal stored in the storage means, and transmitting from the transmission means. A signal relay device having a distribution unit that receives the compressed signal and distributes at least a part of the compressed signal; a reception unit that receives the compressed signal distributed from the distribution unit; and a reception unit that receives the compressed signal. A reproducing apparatus having a compressed signal reproducing apparatus for expanding and reproducing the compressed signal, wherein the reproducing apparatus performs the compression from a storage medium in which moving image and audio compressed signals are stored in a predetermined recording format. A storage medium reading device that reads a signal, wherein the storage unit compresses the data by using the same recording format as the predetermined recording format used in the storage medium. The compressed signal reproduction device receives a compressed signal from one of the receiving unit and the storage medium reading device,
A compressed video / audio distribution / reproduction system for expanding and reproducing the compressed signal. 4. The storage medium according to claim 2, wherein the storage medium from which the compressed signal is read by the storage medium reading device stores a compressed signal of a moving image and a sound in a predetermined recording format. Wherein the storage device stores the compressed signal in the same recording format as the predetermined recording format used in the storage medium. 5. The signal relay device according to claim 4, wherein the distribution means of the signal relay device distributes the multiplexed compressed signals for a plurality of channels and a plurality of channel selection signals for selecting each of the channels. The playback device selects one of the plurality of channel selection signals included in the compressed signal received by the distribution signal receiving unit, and uses the channel selection signal to perform the multiplexing. Channel selecting means for selecting the compressed signal of one channel from among the compressed signals of a plurality of channels, and inputting the selected compressed signal of one channel to the input signal of the compressed signal reproducing apparatus. And a signal format conversion means for converting the format into a format. 6. The multiplexed compressed signal distributed by the distribution means according to claim 5, wherein the compressed signal for each channel is time-division multiplexed in sector units of a predetermined time length. Wherein the channel selection signal comprises a timing signal synchronized with the sector of the corresponding channel. 7. The reproducing apparatus according to claim 5, wherein the number of the reproducing apparatuses is the same as the number of the channels, and the signal relay apparatus transmits the compressed signals of the plurality of channels to the reproducing apparatuses of the same number as the number of the channels. A compressed image / audio distribution / reproduction system for distributing a compressed signal in which a plurality of channel selection signals are multiplexed. 8. The signal relay device according to claim 5, wherein the distribution unit of the signal relay device transfers the compressed signal in parallel, and the signal format conversion unit of the reproduction device converts the compressed signal transmitted in parallel to the compressed signal. A compressed video / audio distribution / playback system, which converts a video signal into a serial signal. 9. The storage medium according to claim 4, wherein the storage medium is an optical CD-ROM, and the predetermined recording format is a recording format of a video CD stored on a CD-ROM. The compressed signal of the moving image and the audio stored in the compressed signal is subjected to scramble processing, and the compressed signal reproducing device performs an input interface processing means for performing a decoding process and a descrambling process on the received compressed signal. Image decompression processing means and audio decompression processing means for performing decompression processing on the compressed signal after the decoding processing and descrambling processing, and a central processing unit and memory for controlling the decompression processing. Compressed image audio distribution and reproduction system. 10. The storage device according to claim 9, wherein the storage means of the storage device stores the unscrambled compressed signal in the same recording format as that of the storage medium. The relay device, for the compressed signal not subjected to the scrambling process received by the receiving means,
A compressed video / audio distribution / reproduction system, further comprising a scramble processing unit for performing the scrambling process and distributing the processed compressed signal by the distribution unit. 11. The storage device according to claim 9, wherein the storage means of the storage device stores the unscrambled compressed signal in the same recording format as the recording format of the storage medium. The apparatus further includes a scramble processing unit that performs the scramble process on the compressed signal that has not been subjected to the scramble process and that is received by the distribution signal receiving unit, and sends the processed compressed signal to the compressed signal reproduction device. A compressed video / audio distribution / playback system, characterized in that: 12. The storage device according to claim 9, wherein the storage means of the storage device stores the unscrambled compressed signal in the same recording format as the recording format of the storage medium. The input interface processing means of the device, when the received compressed signal is the scrambled compressed signal output from the storage medium reading device, performs the descrambling process on the received compressed signal, If the signal is a compressed signal that has not been subjected to the scramble processing and is output from the distribution signal receiving means, the descrambling processing is not performed. 13. A distribution signal receiving means for receiving a compressed signal distributed from an external compressed signal distribution source, for distributing a specific compressed signal in response to an input control command, A storage medium reading device that reads the compressed signal from a storage medium storing a moving image and audio compressed signal in accordance with a control command of the same format; and any one of the distribution signal receiving unit and the storage medium reading device A compressed signal reproducing device that receives a compressed signal from one side, decompresses and reproduces the compressed signal, and sends the control command to the storage medium reading device. Two output ports capable of outputting the control command, the other output ports being connected to the external compressed signal distribution source, respectively, to the reading device; Only the selected one of the two output ports, via its output port, the reproducing apparatus of the compressed image and sound delivery reproducing system characterized by comprising an instructions output destination selecting means for outputting the control command. 14. The buffer according to claim 1, wherein at least one of the signal relay device and the reproducing device has a buffer memory for temporarily storing at least a part of a compressed signal supplied to the device. A compressed image characterized in that a time-averaged inflow rate of a compressed signal supplied to a device having a memory is set higher than a time-averaged outflow rate of a compressed signal output from the device. Audio distribution and playback system. 15. A storage device for storing compressed video and audio signals, a reproducing device for reproducing distributed compressed signals, and a signal relay for distributing compressed signals stored in said storage device to said reproducing device. In a compressed video and audio distribution reproduction system having a device, at least one of the signal relay device and the reproduction device has a buffer memory for temporarily storing at least a part of a compressed signal supplied to the device, time averaged inflow rate of the compressed signals to be supplied to the apparatus having the buffer memory, which is set higher than the time-averaged flow out rate of the compressed signal output from the device, the buffer memory A device that detects the size of the free area of the buffer memory,
Determine whether the size of the empty area is larger than the predetermined
Determining means for determining when an empty area is smaller than the predetermined size.
Interrupts the supply operation to the source of the compressed signal.
Issue a control command to execute
It is determined that there is an empty area, and the supply of the compressed signal
When the supply operation is interrupted, the supply of the compression signal
Issue a control instruction to start the supply operation
And a management means for performing the above operation. 16. A reproducing apparatus according to claim 14, wherein said reproducing apparatus specifies a compressed signal to be distributed.
Together, it issues the first control command to execute the distribution.
The signal relay device comprises: the buffer memory;
And a distribution unit that distributes the
Distribution control means for controlling a distribution operation, wherein the distribution control means receives the first control instruction, and the first control instruction is
Specify that the compressed signal to be delivered is the buffer
It is determined whether the data is stored in the memory, and it is determined that the data is stored in the buffer memory.
The corresponding compressed signal is transmitted to the
If it is determined that the content is not stored in the buffer memory,
In this case, the first control command is
A second control command used in the storage device;
Compressed video / audio distribution / reproduction characterized by output to device
system. 17. The reproduction device according to claim 14, wherein the distributed compression signal has an error.
Error detecting means for detecting whether
If more errors are detected,
The third control command for executing the retransmission of the compressed signal
The signal relay device distributes the compressed signal to the playback device.
Distribution means for controlling the distribution operation of the distribution means
Control means, and the compressed signal which has been distributed by the distribution means.
And a second buffer memory for temporarily storing the third control command , wherein the distribution control means receives the third control command, and the third control command is
Indicates that the compressed signal to be retransmitted is in the second buffer memory.
Is determined to be stored in the second buffer memory.
In this case, the corresponding compressed signal is
Distribution to the playback device, and it is determined that the content is not stored in the second buffer memory.
In this case, the third control command is
Converted to a fourth control command used in the storage device,
Compressed video and audio distribution output to a storage device
Shin reproduction system. 18. The method according to claim 14, wherein the playback device specifies a compressed signal to be distributed.
Together, it issues the first control command to execute the distribution.
The signal relay device includes: the buffer memory;
Temporarily saves compressed signals that have been distributed by means
A second buffer memory for distributing the compressed signal to the playback device;
Distribution means for communicating and controlling the distribution operation of the distribution means
Distribution control means, wherein the distribution control means receives the first control command, and the first control command is
Specify that the compressed signal to be delivered is the buffer
Stored in the memory or the second buffer memory
And it is determined that the data is stored in any of the buffer memories.
If so, the corresponding compressed signal is sent to the distribution means.
Distribution to the playback device, and determines that the data is not stored in any of the buffer memories.
In this case, the first control command is transmitted to the corresponding control command.
Into a second control command used in the storage device,
Compressed video and audio output to the storage device
Delivery and playback system.