US20020114359A1 - Transmission system - Google Patents
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- US20020114359A1 US20020114359A1US10/047,282US4728202AUS2002114359A1US 20020114359 A1US20020114359 A1US 20020114359A1US 4728202 AUS4728202 AUS 4728202AUS 2002114359 A1US2002114359 A1US 2002114359A1
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Classifications
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04H—BROADCAST COMMUNICATION
- H04H20/00—Arrangements for broadcast or for distribution combined with broadcast
- H04H20/86—Arrangements characterised by the broadcast information itself
- H04H20/88—Stereophonic broadcast systems
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- G11B20/00—Signal processing not specific to the method of recording or reproducing; Circuits therefor
- G11B20/00086—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy
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- G11B20/00—Signal processing not specific to the method of recording or reproducing; Circuits therefor
- G11B20/00086—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy
- G11B20/00166—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy involving measures which result in a restriction to authorised contents recorded on or reproduced from a record carrier, e.g. music or software
- G11B20/00181—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy involving measures which result in a restriction to authorised contents recorded on or reproduced from a record carrier, e.g. music or software using a content identifier, e.g. an international standard recording code [ISRC] or a digital object identifier [DOI]
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- G11B20/00086—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy
- G11B20/0021—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy involving encryption or decryption of contents recorded on or reproduced from a record carrier
- G—PHYSICS
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- G11B20/00086—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy
- G11B20/0021—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy involving encryption or decryption of contents recorded on or reproduced from a record carrier
- G11B20/00485—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy involving encryption or decryption of contents recorded on or reproduced from a record carrier characterised by a specific kind of data which is encrypted and recorded on and/or reproduced from the record carrier
- G11B20/00492—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy involving encryption or decryption of contents recorded on or reproduced from a record carrier characterised by a specific kind of data which is encrypted and recorded on and/or reproduced from the record carrier wherein content or user data is encrypted
- G11B20/00507—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy involving encryption or decryption of contents recorded on or reproduced from a record carrier characterised by a specific kind of data which is encrypted and recorded on and/or reproduced from the record carrier wherein content or user data is encrypted wherein consecutive physical data units of the record carrier are encrypted with separate encryption keys, e.g. the key changes on a cluster or sector basis
- G—PHYSICS
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- G11B20/00086—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy
- G11B20/00731—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy involving a digital rights management system for enforcing a usage restriction
- G11B20/00746—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy involving a digital rights management system for enforcing a usage restriction wherein the usage restriction can be expressed as a specific number
- G—PHYSICS
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- G11B20/00086—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy
- G11B20/00731—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy involving a digital rights management system for enforcing a usage restriction
- G11B20/00746—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy involving a digital rights management system for enforcing a usage restriction wherein the usage restriction can be expressed as a specific number
- G11B20/00753—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy involving a digital rights management system for enforcing a usage restriction wherein the usage restriction can be expressed as a specific number wherein the usage restriction limits the number of copies that can be made, e.g. CGMS, SCMS, or CCI flags
- G11B20/00768—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy involving a digital rights management system for enforcing a usage restriction wherein the usage restriction can be expressed as a specific number wherein the usage restriction limits the number of copies that can be made, e.g. CGMS, SCMS, or CCI flags wherein copy control information is used, e.g. for indicating whether a content may be copied freely, no more, once, or never, by setting CGMS, SCMS, or CCI flags
- G11B20/00775—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy involving a digital rights management system for enforcing a usage restriction wherein the usage restriction can be expressed as a specific number wherein the usage restriction limits the number of copies that can be made, e.g. CGMS, SCMS, or CCI flags wherein copy control information is used, e.g. for indicating whether a content may be copied freely, no more, once, or never, by setting CGMS, SCMS, or CCI flags wherein said copy control information is encoded in an encryption mode indicator [EMI]
- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B20/00—Signal processing not specific to the method of recording or reproducing; Circuits therefor
- G11B20/00086—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy
- G11B20/00731—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy involving a digital rights management system for enforcing a usage restriction
- G11B20/00818—Circuits for prevention of unauthorised reproduction or copying, e.g. piracy involving a digital rights management system for enforcing a usage restriction wherein the usage restriction limits the signal quality, e.g. by low-pass filtering of audio signals or by reducing the resolution of video signals
- G—PHYSICS
- G11—INFORMATION STORAGE
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- G11B20/00—Signal processing not specific to the method of recording or reproducing; Circuits therefor
- G11B20/10—Digital recording or reproducing
- G11B20/10527—Audio or video recording; Data buffering arrangements
Definitions
- the present inventionrelates to a transmission system for transmitting real time data, typified by digital audio data.
- MOSTMedia Oriented Synchronous Transfer
- FIGS. 11 ( a ) and 11 ( b )are diagrams illustrating a data structure of a frame included in data to be transmitted.
- the frameis composed of a preamble 501 , a boundary descriptor 502 , a synchronous channel area 503 , an asynchronous channel area 504 , a control frame 505 , a frame control data 506 and a parity 507 .
- the cycle of the frameis not limited to 44.1 kHz but it may be 48 kHz.
- the preamble 501 , the boundary descriptor 502 and the synchronous channel area 503 in the frameare described, while the asynchronous channel area 504 , the control frame 505 , the frame control data 506 and the parity 507 will not be described here because they are not directly associated with the present invention.
- the preamble 501is 4-bit data having a determined pattern, which is used by a transmission apparatus and a receiving apparatus performing transmission to detect boundaries of frames.
- the boundary descriptor 502is 4-bit data, which indicates how many pieces of 4-byte block data constitutes the synchronous channel area 503 and is used to show the boundary between the synchronous channel area 503 and the asynchronous channel area 504 .
- the synchronous channel area 503is data having the length of 0-480 bits, which length is decided by the boundary descriptor 502 .
- the synchronous channel area 503is used for transmission of real time data such as audio.
- the real time datais data each having time restriction and transmission of the real time data requires that the transmission delay time should be definable.
- the data constituting the synchronous channel area 503are allocated to the transmission apparatus and the receiving apparatus in byte units as time slots. That is, the data constituting the synchronous channel area 503 can use maximum 60 time slots as the synchronous channel area.
- the time slots which are to be used for transmissionare previously allocated to the transmission apparatus and the receiving apparatus, and a group of time slots used for one transmission is defined as a logical channel.
- the transmission apparatustransmits data using the allocated time slots, and the receiving apparatus receives data of the allocated time slots.
- Using one time slot in the MOST methodcorresponds to transmission of data at a transmission rate of 352.8 kbps.
- data of a compact disk (CD) having a transmission rate of 1.4112 Mbpscan be transmitted by using 4 time slots of the synchronous channel area 503 .
- FIG. 12is a diagram for explaining a method for transmitting digital audio data using the conventional synchronous channel.
- a method for transmitting 2-channel audio data which are recorded on a CD or the likeis determined, while a data transmission method for transmitting multi-channel audio data which are recorded on a DVD-Video or a DVD-Audio, or audio data having a higher sampling frequency or a longer quantization word length is not determined and thus the multi-channel data cannot be transmitted.
- the present inventionhas for its object to provide a transmission system which can transmit multi-channel audio data in a DVD-Audio or the like efficiently on a transmission line using a fixed length frame according to the MOST method or the like, and implement copyright protection of audio data.
- a transmission systemcomprising: a transmission apparatus for transmitting audio data of multi channels and auxiliary data required for playback of the audio data; and a receiving apparatus for receiving the audio data and the auxiliary data which are transmitted by the transmission apparatus, in which the auxiliary data include channel assignment information of the audio data.
- the auxiliary datafurther includes sampling frequency information.
- the auxiliary datafurther includes quantization bit information.
- the channel assignment information of the audio datais based on DVD-Audio standards.
- the transmission apparatuscomprises a multiplexer for multiplexing the audio data and the auxiliary data to create multiplexed data
- the receiving apparatuscomprises a demultiplexer for receiving the multiplexed data transmitted from the transmission apparatus, and demultiplexing the data into audio data and auxiliary data.
- the transmission apparatuswhen transmitting audio data having various sampling frequencies to the receiving apparatus, the transmission apparatus multiplexes and transmits first-generated audio data first.
- the dataare time divided into transmission frames, and as for transmission of the audio data, prescribed bits are assigned to each transmission frame.
- a method for transmitting the audio data and the auxiliary datacomplies with a MOST method.
- a transmission systemcomprising a transmission apparatus for transmitting digital data and auxiliary data required for playback of the digital data; and a receiving apparatus for receiving the digital data and the auxiliary data which are transmitted from the transmission apparatus
- the transmission apparatuscomprises: a multiplexer for multiplexing the digital data and the auxiliary data to create block data which is composed of n frames as a multiple of a predetermined encryption unit; and an encryptor for encrypting the block data in the predetermined encryption unit to create encrypted data
- the receiving apparatuscomprises: a decoder for decoding the encrypted data transmitted from the transmission apparatus; and a demultiplexer for demultiplexing the block data decoded by the decoder into digital data and auxiliary data.
- the predetermined encryption unitis 8 bytes.
- the multiplexermultiplexes copyright protect information as information for protecting copyright concerning the digital data, in plural frames within the block data.
- the copyright protection informationincludes at least copy permission information indicating whether copying of the digital data is permitted or not, in a first one of the frames in which the information is multiplexed.
- the copyright protect informationincludes copy permission information indicating whether copying of the digital data is permitted or not, copy times information indicating how many times of copying is permitted when the copying is permitted, copy quality information indicating the quality of copying when the copying is permitted, and audio transaction information indicating whether special audio access control is performed or not.
- the dataare time divided into transmission frames, and as for transmission of the digital data and the auxiliary data, prescribed bits are assigned to each transmission frame.
- a method for transmitting the digital data and the auxiliary datacomplies with a MOST method.
- a transmission apparatuswhich receives audio data and copyright protect information that is information for protecting copyright of the audio data, and generates a periodic signal with eight transmission frames as one cycle, comprising: a first multiplexer means for multiplexing the copyright protect information in synchronization with the periodic signal; an encryptor means for performing encryption in synchronization with the periodic signal; and a second multiplexer means for multiplexing periodic information indicating information of the periodic signal in synchronization with the periodic signal.
- a method for transmitting the datacomplies with a MOST method.
- a receiving apparatuswhich receives audio data and copyright protect information, from a transmission apparatus which receives the audio data and the copyright protect information that is information for protecting copyright of the audio data and generates a periodic signal with eight transmission frames as one cycle, comprising: a first demultiplexer means for generating a periodic signal on the basis of periodic information as information of the periodic signal detected from the received data; a decoder means for performing decoding in synchronization with the periodic signal; and a second demultiplexer means for demultiplexing the copyright protect information in synchronization with the periodic signal.
- a method for transmitting the datacomplies with a MOST method.
- FIG. 1is a block diagram illustrating a structure of a transmission system according to a first embodiment of the present invention.
- FIG. 2is a diagram for explaining block data which are transmitted by the transmission system of the first embodiment.
- FIG. 3is a diagram for explaining copyright protect information included in the block data of FIG. 2.
- FIG. 4is a diagram for explaining AUX data included in the block data of FIG. 2.
- FIG. 5is a diagram for explaining channel assignment information in the AUX data of FIG. 4.
- FIG. 6is a diagram for explaining a data transmission method by the transmission system of the first embodiment.
- FIGS. 7 ( a ) to 7 ( c )are diagrams for explaining structures of audio samples at respective quantization word lengths.
- FIG. 8is a diagram for explaining a method for transmitting data that is composed of frames of various cycles.
- FIG. 9is a block diagram illustrating a structure of another transmission system which is different from that shown in FIG. 1.
- FIG. 10is a diagram illustrating another example of block data transmitted by the transmission system of the first embodiment.
- FIGS. 11 ( a ) and 11 ( b )are diagrams for illustrating a data structure of a frame included in data to be transmitted.
- FIG. 12is a diagram for explaining a data transmission method according to a conventional transmission system.
- FIGS. 1 to 10an embodiment of the present invention will be described with reference to FIGS. 1 to 10 .
- FIG. 1is a block diagram illustrating a structure of a transmission system according to the present invention.
- reference numeral 21denotes a digital audio output apparatus
- numeral 22denotes a transmission apparatus
- numeral 23denotes a receiving apparatus
- numeral 24denotes a digital audio playback apparatus.
- Numeral 51denotes a multiplexer means.
- Numeral 52denotes an encryptor means.
- Numeral 53denotes a communication means.
- Numeral 61denotes a communication means.
- Numeral 62denotes a decoder means.
- Numeral 63denotes a demultiplexer means.
- the digital audio output apparatus 21is an apparatus for outputting digital audio data, typified by a drive of a DVD-Audio, and it outputs digital audio data and related auxiliary data which are recorded on a disc.
- the multiplexer means 51multiplexes the audio data and the auxiliary data which are outputted by the digital audio output apparatus 21 , and outputs multiplexed data.
- the encryptor means 52carries out an encryption process in predetermined data units (this data unit is defined as an encryption unit) according to the conventional encryption method and, when the encryption unit is 8 bytes, encrypts digital data as an encryption target every 8 bytes.
- the communication means 53receives the data encrypted by the encryptor means 52 , and transmits the encrypted data to the communication means 61 on the receiving apparatus 23 side.
- the communication means 61receives the signal transmitted by the communication means 53 on the transmission apparatus 22 side, and outputs the signal to the decoder means 62 .
- the communication means 53 and the communication means 61transmit the data using the synchronous channel area according to the MOST method as described in the prior art.
- encryption units8 bytes.
- the decoder means 62should insure the correct synchronization of the data of the encryption unit selected by the encryptor means 52 and recognize the data.
- the demultiplexer means 63receives the data outputted from the decoder means 62 , demultiplexes the data into audio data and auxiliary data, and outputs the demultiplexed data.
- the digital audio playback apparatus 24is typically an apparatus that is constituted by a digital amplifier and a speaker, and it receives the audio data and the auxiliary data outputted from the receiving apparatus 23 , plays back the audio data, and outputs audible audio.
- FIG. 2is a diagram for explaining block data to be transmitted from the transmission apparatus 22 to the receiving apparatus 23 according to the first embodiment.
- one blockis composed of 8 frames, i.e., frames 1 to 8 , and in each of the frames 1 to 8 , the 1st byte is a header 101 , the 2nd byte is auxiliary data 102 , and “n” bytes from the 3rd byte is audio data 103 .
- Each of the frames 1 to 8corresponds to a frame of a prescribed cycle (a frame every 44.1 kHz or 48 kHz in the MOST method) on a transmission line.
- Each of the frames 1 to 8include data of time slots which are used by the communication means 53 of the transmission apparatus 22 for transmission of data.
- the time slots used by the communication means 53are reserved before data transmission, and information indicating which time slot is to be used is shared by the communication means 53 and the communication means 61 . Further, for the time slots used by the communication means 53 , 2 bytes composed of the header 101 and the auxiliary data 102 , as well as the audio data 103 are reserved. For example, when the audio data 103 transmitted by the respective frames 1 to 8 is 30 bytes, 32-byte time slots are reserved.
- the frames 1 and 2 in the block dataare sync bits, each frame entirely indicating a synchronous pattern.
- the 2nd and 3rd bits of the frame 3are an EMI (Encryption Mode Indicator) and the 4th bit is an OE (Odd/Even), and the EMI and the OE are bits defined in the DTCP.
- the above-mentioned sync, EMI and OEare multiplexed in a non-encrypted area 120 that is not encrypted.
- the syncis data used for finding the head of the block data, and the length or pattern of the sync is not limited to that shown here but it may be arbitrarily set.
- the auxiliary data 102includes copyright protect information indicating a copyright holder of the audio data 103 or whether copying of the audio data is permitted or not, and AUX data (auxiliary information) required for playback of the audio data, such as the sampling frequency, quantization word length and channel assignment information of the audio data 103 .
- the copyright protect information of the DVD-Audiois described in “DVD Specifications for Read-Only Part4. Audio Specification Version 1.2”.
- the copyright protect informationis composed of 3-byte data, and consists of copy permission information (audio_copy_permission), information of times of copying (audio_copy_number), copy quality information (audio_quality), audio transaction information (audio_transaction), ISRC status information (ISRC_Status), ISRC number information (UPC_EAN_ISRC_number), and ISRC data information (UPC_EAN_ISRC_data).
- FIG. 3shows an example of arrangement of respective information of the copyright protect information.
- Copyright protect information 1is copy control information, and it consists of 2-bit copy permission information, 3-bit copying times information, 2-bit copy quality information, and 1-bit audio transaction information.
- the copy permission informationis information indicating whether copying is permitted or not. To be more specific, “00” indicates that copying is permitted, “10” indicates that copying is permitted by the number of times indicated by the copying times information, and “11” indicates that copying is not permitted.
- the copying times informationis information indicating how many times of copying is permitted when the copying is permitted. “000” indicates copying is permitted once, “001” indicates twice, “010” indicates 4 times, “011” indicates 6 times, “100” indicates 8 times, “101” indicates 10 times, and “111” indicates that the number of times of copying is unlimited.
- the copy quality informationis information indicating the audio quality of copying when the copying is permitted. “00” indicates that the number of channels is two or less, the sampling frequency is 48 kHz or less, and the quantization word length is 16 bits or less. “01” indicates that the number of channels is two or less and there is no restriction on the sampling frequency or the quantization word length. “10” indicates that there is no restriction on the number of channels, the sampling frequency, or the quantization word length.
- the audio transaction informationis a flag indicating whether specific audio access control is performed or not. “0” indicates that no access control is performed and “1” indicates that the access control is not reserved for the future in the present circumstances.
- Copyright protect information 2is ISRC information (music information), and consists of 3-bit ISRC status information and 5-bit ISRC number information.
- Copyright protect information 3is ISRC information and consists of 8-bit ISRC data information.
- the ISRC status informationis status information of an ISRC, which is used to find a position at which the ISRC information is changed. “001” indicates the start position of music, “010” indicates an intermediate position, i.e., indicates that there is no change in the ISRC information, and “100” indicates the end position.
- the ISRC number informationindicates a number for identifying the music.
- the copy permission information, the copying times information, the copy quality information, and the audio transaction informationbe multiplexed at an earlier position in the auxiliary data 102 . Thereby, it is possible to decide earlier how to process the audio information on the receiving end.
- the arrangement of the respective informationmay be an arbitrary arrangement as long as it is decided between the transmission apparatus and the receiving apparatus.
- the copyright protect informationis not limited to the above-mentioned type but arbitrary information decided in a recording medium or a broadcasting system can be employed.
- AUX 1consists of a quantization word length 1 of 4 bits and a quantization word length 2 of 4 bits.
- the quantization word length 1is data indicating the quantization word length of Channel group 1 and the quantization word length 2 is data indicating the quantization word length of Channel group 2 , and “0” indicates 16 bits, “1” indicates 20 bits, and “3” indicates 24 bits, respectively.
- AUX 2consists of a sampling frequency 1 of 4 bits and a sampling frequency 2 of 4 bits.
- the sampling frequency 1is data indicating the sampling frequency of Channel group 1 and the sampling frequency 2 is data indicating the sampling frequency of Channel group 2 , and “0” indicates 48 kHz, “1” indicates 96 kHz, “2” indicates 192 kHz, “4” indicates 44.1 kHz, “5” indicates 88.2 kHz, and “6” indicates 176 kHz, respectively.
- AUX 3consists of channel assignment information of 5 bits and a reserved area of 3 bits. The channel assignment information indicates channel assignment of multi-channel audio data 103 .
- FIG. 5is a diagram for explaining the channel assignment information of multi-channel audio data in the DVD-Audio. (Reference: “Standardization of DVD-Audio” by Shinbo et al. in Matsushita Technical Journal Vol. 45, No. 6, December 1999 )
- FIG. 6is a diagram for explaining a digital audio data transmission method utilizing a synchronous channel.
- Cdenotes a center channel
- L and Rdenote left and right channels
- Lf and Rfdenote left and right front channels
- Ls and Rsdenote left and right rear channels or surround channels
- Lfedenotes a low frequency effects channel
- Sdenotes a surround channel, respectively.
- the value of the channel assignment informationcan specify multi-channel audio data which is transmitted to each of channels CH 1 to CH 6 , and the channel group 1 or 2 to which each data belongs.
- the audio data 103 in the block datais transmitted according to the value of the channel assignment information, with the respective audio samples of channels CH 1 to CHn being arranged successively as shown in FIG. 6.
- the value of “n”depends on the value of the channel assignment information.
- the respective audio data 103 of CHxconsists of “m” audio samples depending on the value of the sampling frequency of its channel group.
- the audio data 103belongs to the channel group 1 , and the sampling frequency 1 is 96 kHz, the audio data consists of two audio samples.
- the sampling frequencyis 192 kHz
- the audio dataconsists of four audio samples.
- the number of bits X of each audio samplecorresponds to the quantization word length of the channel group of each audio sample.
- FIGS. 7 ( a ) to 7 ( c )are diagrams for explaining structures of audio samples at respective quantization word lengths.
- an audio sampleis mapped successively from a higher byte (x-th byte) to a lower byte ((x+n)-th byte).
- x-th bytea higher byte
- (x+n)-th byte)a lower byte
- 8 bitsare mapped to the x-th higher byte (Hi byte) and 8 bits are mapped to the (x+1)-th lower byte (Lo byte), whereby the audio sample is transmitted using the time slot of 2 bytes in total.
- the audio samples of respective quantization word lengthscan be transmitted from an MSB (Most Significant Bit) first successively in the following order: Hi byte, Mid byte, and Lo byte.
- MSBMobile Bit
- the transmission orderis not limited to this but the data may be transmitted from a LSB (Least significant Bit) first successively in the reverse order.
- the audio samplemay be mapped to any bit positions within the constituting bytes. In FIG. 7( b ), excess bits in the (x+2)-th byte are made blank, while the blank can be eliminated by mapping two of 20-bit samples to 5 bytes.
- FIG. 8is a diagram for explaining a method for transmitting data that is composed of frames of various cycles.
- the abscissarepresents time when audio samples of each cycle (48 kHz, 96 kHz, 192 kHz) are transmitted.
- the sampling frequency of data to be transmittedis 48 kHz
- one audio sample (A 1 )is transmitted per one frame.
- the sampling frequencyis 96 kHz
- two audio samples (B 1 , B 2 )are transmitted per one frame.
- the sampling frequencyis 192 kHz
- four audio samplesare transmitted per one frame.
- the normalizationis performed such that the audio sample of each channel is located at the top position in the frame and the audio samples are transmitted successively from earlier-generated audio samples.
- the audio samples A 1 , B 1 and C 1are transmitted at the first transmission
- the audio sample C 2is transmitted at the second transmission
- the audio samples B 2 and C 3are transmitted at the third transmission
- the audio sample C 4is transmitted at the fourth transmission.
- numeral 71denotes a digital audio output apparatus
- numeral 72denotes a transmission apparatus
- numeral 73denotes a receiving apparatus
- numeral 74denotes a digital audio playback apparatus
- Numeral 80denotes an encryption unit.
- Numeral 81denotes a first multiplexer means.
- Numeral 82denotes an encryptor means.
- Numeral 83denotes a second multiplexer means.
- Numeral 84denotes a control means.
- Numeral 85denotes a communication means.
- Numeral 90denotes a decoding unit.
- Numeral 91denotes a communication means.
- Numeral 92denotes a first demultiplexer means.
- Numeral 93denotes a decoder means.
- Numeral 94denotes a second demultiplexer means.
- Numeral 95denotes a control means.
- the digital audio output apparatus 71receives a clock outputted by the communication means 85 and outputs audio data as well as outputs copyright protect information and auxiliary information concerning audio as auxiliary data, in synchronization with the clock.
- the first multiplexer means 81receives the audio data, the auxiliary information and the copyright protect information outputted from the digital audio output apparatus 71 , multiplexes these data, and outputs multiplexed data.
- the encryptor means 82receives the multiplexed data from the first multiplexer means 81 , encrypts areas of audio data 103 and auxiliary data 102 on the basis of an encryption key (which will be described later) inputted from the control means 84 , and outputs encrypted data.
- the second multiplexer means 83receives the encrypted data from the encryptor means 82 , receives an EMI and an OE (header information 101 ) from the control means 84 , and multiplexed these data.
- the above-mentioned first multiplexer means 81 , the encryptor means 82 , and the second multiplexer means 83are referred to as the encryption unit 80 .
- the first multiplexer means 81 , the encryptor means 82 , and the second multiplexer means 83operate in synchronization with the same periodic signal. That is, each periodic signal indicates the cycle of a block and the same processes are carried out in the section of each periodic signal. For example, when the start position of the periodic signal is the start position of a block, the encryptor means 82 makes the start position of the periodic signal coincide with the start position of the encryption unit. Then, the second multiplexer means 83 multiplexes Sync data at the start position of the periodic signal.
- the cycle of the periodic signaldepends on how many transmission frames constitutes one block, and for example when one block consists of eight transmission frames, the periodic signal is generated in synchronization with eight transmission frames.
- the periodic signalmay be generated by any apparatus, or supplied from outside.
- the control means 84is constituted by a CPU, and receives the copyright protect information outputted from the digital audio output apparatus 71 , judges on the basis of the information whether the encryption is performed or not, and when performing the encryption outputs the encryption key to the encryptor means 82 .
- the control meansfurther outputs the EMI and the OE as information indicating how to perform the encryption, to the second multiplexer means 83 .
- the communication means 85outputs the clock, which is synchronized with a transmission clock of the transmission line, to the digital audio output apparatus 71 as well as receives the multiplexed data from the second multiplexer means 83 , and transmits the encrypted data to the communication means 91 on the receiving apparatus 73 side.
- the communication means 91outputs a clock to the digital audio playback apparatus 74 , receives the encrypted data transmitted from the communication means 85 on the transmission apparatus 72 side, synchronizes the data with the clock, and transmits the data to the first demultiplexer means 92 .
- the first demultiplexer means 92receives the data outputted from the communication means 91 , demultiplexes the EMI and the OE from the received data, transmits the EMI and the OE to the control means 95 , and transmits other data to the decoder means 93 .
- the decoder means 93receives the data outputted from the first demultiplexer means 92 , receives an encryption key from the control means 95 , and carries out the decoding process in encryption units.
- the second demultiplexer means 94receives the data outputted from the decoder means 93 , demultiplexes the data into audio data and copyright protect information, transmits the audio data to the digital audio playback apparatus 74 , and transmits the copyright protect information to the control means 95 .
- the above-mentioned first demultiplexer means 92 , the decoder means 93 and the second demultiplexer means 94are referred to as the decoding unit 90 .
- the first demultiplexer means 92 , the decoder means 93 , and the second demultiplexer means 94operate in synchronization with the same periodic signal. This periodic signal is generated by seeing Sync data on the transmission line. For example, when the start position of the periodic signal is the start position of a block, the decoder means 93 makes the start position of the periodic signal coincide with the start position of the encryption unit, like in the case of the encryptor means 82 .
- the control means 95is constituted by a CPU, and it receives the EMI and the OE from the data outputted by the communication means 91 , and outputs the encryption key to the decoder means 93 on the basis of these information.
- the control meansfurther receives the copyright protect information from the decoded data, and control processes, such as copying of audio data, on the basis of the information.
- the transmission apparatus 72transmits data in synchronization with the clock outputted from the communication means 85 , whereby conversion of a clock of audio data is not required, the circuit scale can be reduced, and further deterioration of the audio quality can be prevented.
- the first multiplexer means 81 , the encryptor means 82 and the second multiplexer means 83may be constituted integrally as the encryption unit 80 by one semiconductor chip. Further, the encryption unit 80 and the communication means 85 may be constituted by one semiconductor chip.
- the first demultiplexer means 92 , the decoder means 93 , and the second demultiplexer means 94may be constituted integrally as the decoding unit 90 by one semiconductor chip. Further, the decoding unit 90 and the communication means 91 may be constituted by one semiconductor chip.
- the clocks of the transmission apparatus 72 and the receiving apparatus 73are supplied through the transmission line, while when any apparatus is a clock source of the transmission line, it supplies the clock to the transmission line.
- the transmission method for transmitting the channel assignment information, the sampling frequency information and the quantization word length information of multi-channel audio datais decided, whereby transmission of the multi-channel audio data, which has not been performed conventionally, is enabled. Since the header information is sent block by block at the transmission of the multi-channel audio data, efficient data transmission at smaller bands can be realized, with relative to the prior art transmission system by which the header information is transmitted frame by frame.
- the copyright protect informationcan be multi-transmitted at smaller bands. Further, since one block is composed of eight frames and the encryption in eight byte units is carried out block by block, the encryption can be performed up to the last byte, regardless of the length of the audio data 103 .
- the transmission order of audio samplesis decided such that first-generated audio samples are transmitted first, whereby the amounts of memory required for waiting for timing of transmission/receiving of data, which are necessary on the transmission end and the receiving end, can be reduced.
- the transmissionis performed under time restriction, while it may be performed in the order of channel numbers, or successively from audio samples of upper bytes to audio samples of lower bytes.
- Other transmission methodscan be employed as long as the order in which data are transmitted is uniquely defined.
- the drive of the DVD-Audiois employed as the digital audio output apparatus 21 .
- any apparatus which outputs arbitrary digital audio datamay be applied thereto, such as a drive of a recording medium such as a CD, a MD, a DAT and a DVD-Video, a tuner which receives digital audio broadcasts of digital TV broadcasting or digital radio, an AD converter which converts analog audio into digital audio and outputs the digital audio, and a PC which plays back audio data received via Internet.
- data of the receiving apparatus 23is outputted to the digital audio playback apparatus 24 , while any apparatus which utilizes digital audio may be used, such as an apparatus for recording digital audio and an apparatus for editing digital audio.
- the transmission method according to the MOST formatis employed, while the present invention can be applied to any transmission method by which time slots are included in frames of a prescribed cycle, and a transmission apparatus and a receiving apparatus for performing transmission use the time slots which are previously allocated thereto, to perform the transmission.
- a transmission methodthere is a D2B optical (Reference: “The D2B Optical Bus—An Integration platform for Car Entertainment and Telematic Systems”, by Peter Mros, Proc. of World Congress on Intelligent Transport Systems Technical Sessions, October 1997).
- the transmission lineis not limited to the time slot type but the present invention can be applied to any transmission line of IEEE 1394 or the like.
- the AUX datais not limited to the example shown in FIG. 4, while any format data may be employed, as long as it is composed of sampling frequency information, quantization word length information and channel assignment information, and the arrangement of audio data that is to be transmitted is defined.
- the respective data of the sampling frequency information, the quantization word length information and the channel assignment informationmay be transmitted by arbitrary frames, whereby an arbitrary number of bits representing necessary information can be used and thus an arbitrary value can be employed.
- any data which is required for playback of audio data to be transmittedcan be included, such as conditions for reduction of the sampling frequency or the quantization word length, and the presence or absence of emphasis. When the sampling frequency or the quantization word length has a fixed value, that information is unnecessary and can be omitted.
- the AUX datais multiplexed with audio data and transmitted by the synchronous channel.
- the AUX datamay be transmitted by an asynchronous channel or the like.
- the asynchronous channelis an area that is used to transmit data which does not require time restriction.
- the asynchronous channelthere are a control channel and an Asynchronous channel, defined in the MOST.
- data transmitted by the control channelthere are operation command information (playback, fast forward and the like), and menu information (program list and the like).
- data transmitted by the Asynchronous channelthere are map data and Internet data (IP packet).
- the format of the block datais not limited to that shown in FIG. 2.
- one blockis composed of eight frames correspondingly to eight bytes of the encryption unit, while one block may consists of “a multiple of 8” frames, as shown in FIG. 10.
- one blockis composed of 16 frames, the first bytes of first 8 frames are assumed to be the header, and the first bytes of latter 8 frames are assumed to be areas for auxiliary data.
- the encryption unitis not limited to 8 bytes but may be “n” bytes other than 8, and in this case the number of frames constituting one block is set to be a multiple of “n”.
- the structure of the blockis not limited to the above-mentioned structures. Any structure is possible as long as the total amount of data in the encryption area included in frames which are selected as a block is a multiple of the encryption unit. In this case, the same effects can be obtained by using a block that is composed of an arbitrary number of frames.
- the transmission of respective audio samplesis performed according to the arrangement shown in FIG. 6, while it is not limited to this arrangement. As long as in which position in a frame each audio sample of each channel is arranged is decided between the transmission apparatus and the receiving apparatus, the audio samples may be arranged arbitrarily. The arrangement can be decided according to previously decided rules, or an arrangement method may be shared before the transmission of audio data.
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Abstract
Description
- The present invention relates to a transmission system for transmitting real time data, typified by digital audio data.[0001]
- As an example of methods for transmitting data recorded on a conventional compact disc (CD) or the like, there is a method called MOST (Media Oriented Synchronous Transfer). (Reference: Patrick Heck et al., “Media Oriented Synchronous Transfer—A Network Protocol for High Quality, Low Cost Transfer of Synchronous, Asynchronous, and Control Data on Fiber Optics”, Presented AES 103rd, September 1997, Preprint 4551.)[0002]
- Hereinafter, the conventional data transmission method according to the MOST method will be described with reference to FIGS. 11 and 12.[0003]
- FIGS.[0004]11(a) and11(b) are diagrams illustrating a data structure of a frame included in data to be transmitted.
- As shown in FIG. 11([0005]a), according to the conventional transmission method, data are transmitted in frames, which are transmitted at 44.1 kHz, i.e., once every 22.67 msec. The data length of one frame is 512 bits. As shown in FIG. 11(b), the frame is composed of a preamble501, a
boundary descriptor 502, a synchronous channel area503, an asynchronous channel area504, acontrol frame 505, aframe control data 506 and aparity 507. Here, the cycle of the frame is not limited to 44.1 kHz but it may be 48 kHz. - Here, the preamble[0006]501, the
boundary descriptor 502 and the synchronous channel area503 in the frame are described, while the asynchronous channel area504, thecontrol frame 505, theframe control data 506 and theparity 507 will not be described here because they are not directly associated with the present invention. - The preamble[0007]501 is 4-bit data having a determined pattern, which is used by a transmission apparatus and a receiving apparatus performing transmission to detect boundaries of frames. The
boundary descriptor 502 is 4-bit data, which indicates how many pieces of 4-byte block data constitutes the synchronous channel area503 and is used to show the boundary between the synchronous channel area503 and the asynchronous channel area504. - The synchronous channel area[0008]503 is data having the length of 0-480 bits, which length is decided by the
boundary descriptor 502. The synchronous channel area503 is used for transmission of real time data such as audio. Here, the real time data is data each having time restriction and transmission of the real time data requires that the transmission delay time should be definable. - The data constituting the synchronous channel area[0009]503 are allocated to the transmission apparatus and the receiving apparatus in byte units as time slots. That is, the data constituting the synchronous channel area503 can use maximum 60 time slots as the synchronous channel area. The time slots which are to be used for transmission are previously allocated to the transmission apparatus and the receiving apparatus, and a group of time slots used for one transmission is defined as a logical channel. The transmission apparatus transmits data using the allocated time slots, and the receiving apparatus receives data of the allocated time slots. Using one time slot in the MOST method corresponds to transmission of data at a transmission rate of 352.8 kbps. To be more specific, data of a compact disk (CD) having a transmission rate of 1.4112 Mbps can be transmitted by using 4 time slots of the synchronous channel area503.
- FIG. 12 is a diagram for explaining a method for transmitting digital audio data using the conventional synchronous channel.[0010]
- In this figure, contents of time slots in[0011]
respective frames bit audio samples frames bit audio samples - According to the conventional transmission method, a method for transmitting 2-channel audio data which are recorded on a CD or the like is determined, while a data transmission method for transmitting multi-channel audio data which are recorded on a DVD-Video or a DVD-Audio, or audio data having a higher sampling frequency or a longer quantization word length is not determined and thus the multi-channel data cannot be transmitted.[0012]
- In addition, according to the conventional transmission method, when data are encrypted for copyright protection typified by DTCP (Digital Transmission Content Protection Specification), there are following two problems. The first one is that when commonly used encryption in 8-byte units is performed in the transmission apparatus, data of each frame according to the conventional transmission method is not always a multiple of 8 bytes and thus the encryption is not completed within the frame. The second problem is that although copyright protect information is supposed to be transmitted according to the DTCP, its transmission method is not determined in the conventional transmission method.[0013]
- The present invention has for its object to provide a transmission system which can transmit multi-channel audio data in a DVD-Audio or the like efficiently on a transmission line using a fixed length frame according to the MOST method or the like, and implement copyright protection of audio data.[0014]
- Other objects and advantages of the present invention will become apparent from the detailed description and specific embodiments described are provided only for illustration since various additions and modifications within the spirit and scope of the invention will be apparent to those of skill in the art from the detailed description.[0015]
- According to a 1st aspect of the present invention, there is provided a transmission system comprising: a transmission apparatus for transmitting audio data of multi channels and auxiliary data required for playback of the audio data; and a receiving apparatus for receiving the audio data and the auxiliary data which are transmitted by the transmission apparatus, in which the auxiliary data include channel assignment information of the audio data.[0016]
- According to a 2nd aspect of the present invention, in the transmission system of the 1st aspect, the auxiliary data further includes sampling frequency information.[0017]
- According to a 3rd aspect of the present invention, in the transmission system of the 1st aspect, the auxiliary data further includes quantization bit information.[0018]
- According to a 4th aspect of the present invention, in the transmission system of the 1st aspect, the channel assignment information of the audio data is based on DVD-Audio standards.[0019]
- According to a 5th aspect of the present invention, in the transmission system of the 1st aspect, the transmission apparatus comprises a multiplexer for multiplexing the audio data and the auxiliary data to create multiplexed data, and the receiving apparatus comprises a demultiplexer for receiving the multiplexed data transmitted from the transmission apparatus, and demultiplexing the data into audio data and auxiliary data.[0020]
- According to a 6th aspect of the present invention, in the transmission system of the 1st aspect, when transmitting audio data having various sampling frequencies to the receiving apparatus, the transmission apparatus multiplexes and transmits first-generated audio data first.[0021]
- According to a 7th aspect of the present invention, in the transmission system of the 1st aspect, according to a method for transmitting the audio data and the auxiliary data, the data are time divided into transmission frames, and as for transmission of the audio data, prescribed bits are assigned to each transmission frame.[0022]
- According to an 8th aspect of the present invention, in the transmission system of the 1st aspect, a method for transmitting the audio data and the auxiliary data complies with a MOST method.[0023]
- According to a 9th aspect of the present invention, there is provided a transmission system comprising a transmission apparatus for transmitting digital data and auxiliary data required for playback of the digital data; and a receiving apparatus for receiving the digital data and the auxiliary data which are transmitted from the transmission apparatus, in which the transmission apparatus comprises: a multiplexer for multiplexing the digital data and the auxiliary data to create block data which is composed of n frames as a multiple of a predetermined encryption unit; and an encryptor for encrypting the block data in the predetermined encryption unit to create encrypted data, and the receiving apparatus comprises: a decoder for decoding the encrypted data transmitted from the transmission apparatus; and a demultiplexer for demultiplexing the block data decoded by the decoder into digital data and auxiliary data.[0024]
- According to a 10th aspect of the present invention, in the transmission system of the 9th aspect, the predetermined encryption unit is 8 bytes.[0025]
- According to an 11th aspect of the present invention, in the transmission system of the 9th aspect, the multiplexer multiplexes copyright protect information as information for protecting copyright concerning the digital data, in plural frames within the block data.[0026]
- According to a 12th aspect of the present invention, in the transmission system of the 11th aspect, the copyright protection information includes at least copy permission information indicating whether copying of the digital data is permitted or not, in a first one of the frames in which the information is multiplexed.[0027]
- According to a 13th aspect of the present invention, in the transmission system of the 11th aspect, the copyright protect information includes copy permission information indicating whether copying of the digital data is permitted or not, copy times information indicating how many times of copying is permitted when the copying is permitted, copy quality information indicating the quality of copying when the copying is permitted, and audio transaction information indicating whether special audio access control is performed or not.[0028]
- According to a 14th aspect of the present invention, in the transmission system of the 9th aspect, according to a method for transmitting the digital data and the auxiliary data, the data are time divided into transmission frames, and as for transmission of the digital data and the auxiliary data, prescribed bits are assigned to each transmission frame.[0029]
- According to a 15th aspect of the present invention, in the transmission system of the 9th aspect, a method for transmitting the digital data and the auxiliary data complies with a MOST method.[0030]
- According to a 16th aspect of the present invention, there is provided a transmission apparatus which receives audio data and copyright protect information that is information for protecting copyright of the audio data, and generates a periodic signal with eight transmission frames as one cycle, comprising: a first multiplexer means for multiplexing the copyright protect information in synchronization with the periodic signal; an encryptor means for performing encryption in synchronization with the periodic signal; and a second multiplexer means for multiplexing periodic information indicating information of the periodic signal in synchronization with the periodic signal.[0031]
- According to a 17th aspect of the present invention, in the transmission apparatus of the 16th aspect, a method for transmitting the data complies with a MOST method.[0032]
- According to an 18th aspect of the present invention, there is provided a receiving apparatus which receives audio data and copyright protect information, from a transmission apparatus which receives the audio data and the copyright protect information that is information for protecting copyright of the audio data and generates a periodic signal with eight transmission frames as one cycle, comprising: a first demultiplexer means for generating a periodic signal on the basis of periodic information as information of the periodic signal detected from the received data; a decoder means for performing decoding in synchronization with the periodic signal; and a second demultiplexer means for demultiplexing the copyright protect information in synchronization with the periodic signal.[0033]
- According to a 19th aspect of the present invention, in the receiving apparatus of the 18th aspect, a method for transmitting the data complies with a MOST method.[0034]
- FIG. 1 is a block diagram illustrating a structure of a transmission system according to a first embodiment of the present invention.[0035]
- FIG. 2 is a diagram for explaining block data which are transmitted by the transmission system of the first embodiment.[0036]
- FIG. 3 is a diagram for explaining copyright protect information included in the block data of FIG. 2.[0037]
- FIG. 4 is a diagram for explaining AUX data included in the block data of FIG. 2.[0038]
- FIG. 5 is a diagram for explaining channel assignment information in the AUX data of FIG. 4.[0039]
- FIG. 6 is a diagram for explaining a data transmission method by the transmission system of the first embodiment.[0040]
- FIGS.[0041]7(a) to7(c) are diagrams for explaining structures of audio samples at respective quantization word lengths.
- FIG. 8 is a diagram for explaining a method for transmitting data that is composed of frames of various cycles.[0042]
- FIG. 9 is a block diagram illustrating a structure of another transmission system which is different from that shown in FIG. 1.[0043]
- FIG. 10 is a diagram illustrating another example of block data transmitted by the transmission system of the first embodiment.[0044]
- FIGS.[0045]11(a) and11(b) are diagrams for illustrating a data structure of a frame included in data to be transmitted.
- FIG. 12 is a diagram for explaining a data transmission method according to a conventional transmission system.[0046]
- Hereinafter, an embodiment of the present invention will be described with reference to FIGS.[0047]1 to10.
- FIG. 1 is a block diagram illustrating a structure of a transmission system according to the present invention.[0048]
- In FIG. 1,[0049]
reference numeral 21 denotes a digital audio output apparatus, numeral22 denotes a transmission apparatus, numeral23 denotes a receiving apparatus, and numeral24 denotes a digital audio playback apparatus.Numeral 51 denotes a multiplexer means.Numeral 52 denotes an encryptor means.Numeral 53 denotes a communication means.Numeral 61 denotes a communication means.Numeral 62 denotes a decoder means.Numeral 63 denotes a demultiplexer means. - The digital[0050]
audio output apparatus 21 is an apparatus for outputting digital audio data, typified by a drive of a DVD-Audio, and it outputs digital audio data and related auxiliary data which are recorded on a disc. - The multiplexer means[0051]51 multiplexes the audio data and the auxiliary data which are outputted by the digital
audio output apparatus 21, and outputs multiplexed data. The encryptor means52 carries out an encryption process in predetermined data units (this data unit is defined as an encryption unit) according to the conventional encryption method and, when the encryption unit is 8 bytes, encrypts digital data as an encryption target every 8 bytes. - The communication means[0052]53 receives the data encrypted by the encryptor means52, and transmits the encrypted data to the communication means61 on the receiving apparatus23 side. The communication means61 receives the signal transmitted by the communication means53 on the transmission apparatus22 side, and outputs the signal to the decoder means62. The communication means53 and the communication means61 transmit the data using the synchronous channel area according to the MOST method as described in the prior art.
- The decoder means[0053]62 receives the data outputted from the communication means61, and carries out a decoding process in encryption units (=8 bytes). When a synchronization between the transmission apparatus22 and the receiving apparatus23 cannot be obtained, and when the data of the encryption unit at the encryption and the data of the encryption unit at the decoding deviate from each other or when part of the data of the encryption unit lacks, the encrypted data cannot be decoded by the decoder means62 correctly. That is, the decoder means62 should insure the correct synchronization of the data of the encryption unit selected by the encryptor means52 and recognize the data. The demultiplexer means63 receives the data outputted from the decoder means62, demultiplexes the data into audio data and auxiliary data, and outputs the demultiplexed data.
- The digital[0054]
audio playback apparatus 24 is typically an apparatus that is constituted by a digital amplifier and a speaker, and it receives the audio data and the auxiliary data outputted from the receiving apparatus23, plays back the audio data, and outputs audible audio. - FIG. 2 is a diagram for explaining block data to be transmitted from the transmission apparatus[0055]22 to the receiving apparatus23 according to the first embodiment.
- As shown in FIG. 2, one block is composed of 8 frames, i.e., frames[0056]1 to8, and in each of the
frames 1 to8, the 1st byte is aheader 101, the 2nd byte isauxiliary data 102, and “n” bytes from the 3rd byte isaudio data 103. Each of theframes 1 to8 corresponds to a frame of a prescribed cycle (a frame every 44.1 kHz or 48 kHz in the MOST method) on a transmission line. Each of theframes 1 to8 include data of time slots which are used by the communication means53 of the transmission apparatus22 for transmission of data. - Here, the time slots used by the communication means[0057]53 are reserved before data transmission, and information indicating which time slot is to be used is shared by the communication means53 and the communication means61. Further, for the time slots used by the communication means53, 2 bytes composed of the
header 101 and theauxiliary data 102, as well as theaudio data 103 are reserved. For example, when theaudio data 103 transmitted by therespective frames 1 to8 is 30 bytes, 32-byte time slots are reserved. - The[0058]
frames frame 3 are an EMI (Encryption Mode Indicator) and the 4th bit is an OE (Odd/Even), and the EMI and the OE are bits defined in the DTCP. The above-mentioned sync, EMI and OE are multiplexed in anon-encrypted area 120 that is not encrypted. The sync is data used for finding the head of the block data, and the length or pattern of the sync is not limited to that shown here but it may be arbitrarily set. - The[0059]
auxiliary data 102 includes copyright protect information indicating a copyright holder of theaudio data 103 or whether copying of the audio data is permitted or not, and AUX data (auxiliary information) required for playback of the audio data, such as the sampling frequency, quantization word length and channel assignment information of theaudio data 103. - In FIG. 2, it is assumed as an example that the 2nd bytes of the[0060]
frames 1 to3 are copyright protect information and the 2nd bytes of theframes 4 to8 are AUX data, while of course arbitrary data can be transmitted using eight bytes. - The copyright protect information of the DVD-Audio is described in “DVD Specifications for Read-Only Part4. Audio Specification Version 1.2”. The copyright protect information is composed of 3-byte data, and consists of copy permission information (audio_copy_permission), information of times of copying (audio_copy_number), copy quality information (audio_quality), audio transaction information (audio_transaction), ISRC status information (ISRC_Status), ISRC number information (UPC_EAN_ISRC_number), and ISRC data information (UPC_EAN_ISRC_data).[0061]
- FIG. 3 shows an example of arrangement of respective information of the copyright protect information.[0062]
- Copyright protect[0063]
information 1 is copy control information, and it consists of 2-bit copy permission information, 3-bit copying times information, 2-bit copy quality information, and 1-bit audio transaction information. - The copy permission information is information indicating whether copying is permitted or not. To be more specific, “00” indicates that copying is permitted, “10” indicates that copying is permitted by the number of times indicated by the copying times information, and “11” indicates that copying is not permitted.[0064]
- The copying times information is information indicating how many times of copying is permitted when the copying is permitted. “000” indicates copying is permitted once, “001” indicates twice, “010” indicates 4 times, “011” indicates 6 times, “100” indicates 8 times, “101” indicates 10 times, and “111” indicates that the number of times of copying is unlimited.[0065]
- The copy quality information is information indicating the audio quality of copying when the copying is permitted. “00” indicates that the number of channels is two or less, the sampling frequency is 48 kHz or less, and the quantization word length is 16 bits or less. “01” indicates that the number of channels is two or less and there is no restriction on the sampling frequency or the quantization word length. “10” indicates that there is no restriction on the number of channels, the sampling frequency, or the quantization word length.[0066]
- The audio transaction information is a flag indicating whether specific audio access control is performed or not. “0” indicates that no access control is performed and “1” indicates that the access control is not reserved for the future in the present circumstances.[0067]
- Copyright protect[0068]
information 2 is ISRC information (music information), and consists of 3-bit ISRC status information and 5-bit ISRC number information. Copyright protectinformation 3 is ISRC information and consists of 8-bit ISRC data information. - The ISRC status information is status information of an ISRC, which is used to find a position at which the ISRC information is changed. “001” indicates the start position of music, “010” indicates an intermediate position, i.e., indicates that there is no change in the ISRC information, and “100” indicates the end position.[0069]
- The ISRC number information indicates a number for identifying the music.[0070]
- It is desirable that the copy permission information, the copying times information, the copy quality information, and the audio transaction information be multiplexed at an earlier position in the[0071]
auxiliary data 102. Thereby, it is possible to decide earlier how to process the audio information on the receiving end. - The arrangement of the respective information may be an arbitrary arrangement as long as it is decided between the transmission apparatus and the receiving apparatus. Further, the copyright protect information is not limited to the above-mentioned type but arbitrary information decided in a recording medium or a broadcasting system can be employed.[0072]
- Next, an example of the AUX data arrangement is shown in FIG. 4.[0073]
- [0074]
AUX 1 consists of aquantization word length 1 of 4 bits and aquantization word length 2 of 4 bits. Thequantization word length 1 is data indicating the quantization word length ofChannel group 1 and thequantization word length 2 is data indicating the quantization word length ofChannel group 2, and “0” indicates 16 bits, “1” indicates 20 bits, and “3” indicates 24 bits, respectively.AUX 2 consists of asampling frequency 1 of 4 bits and asampling frequency 2 of 4 bits. Thesampling frequency 1 is data indicating the sampling frequency ofChannel group 1 and thesampling frequency 2 is data indicating the sampling frequency ofChannel group 2, and “0” indicates 48 kHz, “1” indicates 96 kHz, “2” indicates 192 kHz, “4” indicates 44.1 kHz, “5” indicates 88.2 kHz, and “6” indicates 176 kHz, respectively. Further,AUX 3 consists of channel assignment information of 5 bits and a reserved area of 3 bits. The channel assignment information indicates channel assignment ofmulti-channel audio data 103. - FIG. 5 is a diagram for explaining the channel assignment information of multi-channel audio data in the DVD-Audio. (Reference: “Standardization of DVD-Audio” by Shinbo et al. in Matsushita Technical Journal Vol. 45, No. 6, December 1999 ) FIG. 6 is a diagram for explaining a digital audio data transmission method utilizing a synchronous channel.[0075]
- In FIG. 5, C denotes a center channel, L and R denote left and right channels, Lf and Rf denote left and right front channels, Ls and Rs denote left and right rear channels or surround channels, Lfe denotes a low frequency effects channel, and S denotes a surround channel, respectively.[0076]
- As shown in FIG. 5, the value of the channel assignment information can specify multi-channel audio data which is transmitted to each of channels CH[0077]1 to CH6, and the
channel group - The[0078]
audio data 103 in the block data is transmitted according to the value of the channel assignment information, with the respective audio samples of channels CH1 to CHn being arranged successively as shown in FIG. 6. Here, the value of “n” depends on the value of the channel assignment information. Further, therespective audio data 103 of CHx consists of “m” audio samples depending on the value of the sampling frequency of its channel group. For example, when the frequency band of the transmission line is 48 kHz, theaudio data 103 belongs to thechannel group 1, and thesampling frequency 1 is 96 kHz, the audio data consists of two audio samples. When the sampling frequency is 192 kHz, the audio data consists of four audio samples. The number of bits X of each audio sample corresponds to the quantization word length of the channel group of each audio sample. - FIGS.[0079]7(a) to7(c) are diagrams for explaining structures of audio samples at respective quantization word lengths.
- Initially, it is assumed that an audio sample is mapped successively from a higher byte (x-th byte) to a lower byte ((x+n)-th byte). For example, in the case of an audio sample of 16-bit quantization word length as shown in FIG. 7([0080]a), 8 bits are mapped to the x-th higher byte (Hi byte) and 8 bits are mapped to the (x+1)-th lower byte (Lo byte), whereby the audio sample is transmitted using the time slot of 2 bytes in total.
- In the case of an audio sample of 20-bit quantization word length as shown in FIG. 7([0081]b), 8 bits are mapped to the x-th Hi byte, 8 bits are mapped to the (x+1)-th middle byte (Mid byte), 4 bits are mapped to the (x+2)-th Lo byte, and remaining 4 bits are reserved in an empty state. Thus, in the case of the 20-bit audio sample, the audio sample is transmitted using the time slot of 3 bytes in total.
- In the case of an audio sample of 24-bit quantization word length as shown in FIG. 7([0082]c), 8 bits are mapped to the x-th Hi byte, 8 bits are mapped to the (x+1)-th Mid byte, and 8 bits are mapped to the (x+2) Lo byte, whereby the audio sample is transmitted using the time slot of 3 bytes in total.
- As described above, the audio samples of respective quantization word lengths can be transmitted from an MSB (Most Significant Bit) first successively in the following order: Hi byte, Mid byte, and Lo byte. However, the transmission order is not limited to this but the data may be transmitted from a LSB (Least significant Bit) first successively in the reverse order. Further, the audio sample may be mapped to any bit positions within the constituting bytes. In FIG. 7([0083]b), excess bits in the (x+2)-th byte are made blank, while the blank can be eliminated by mapping two of 20-bit samples to 5 bytes.
- FIG. 8 is a diagram for explaining a method for transmitting data that is composed of frames of various cycles. In FIG. 8, the abscissa represents time when audio samples of each cycle (48 kHz, 96 kHz, 192 kHz) are transmitted.[0084]
- According to the MOST method, when the sampling frequency of data to be transmitted is 48 kHz, one audio sample (A[0085]1) is transmitted per one frame. When the sampling frequency is 96 kHz, two audio samples (B1, B2) are transmitted per one frame. When the sampling frequency is 192 kHz, four audio samples (C1, C2, C3, C4) are transmitted per one frame.
- For example, when the audio sample of 48-kHz sampling frequency, the audio sample of 96 kHz sampling frequency and the audio sample of 192 kHz sampling frequency are mixed and transmitted, the normalization is performed such that the audio sample of each channel is located at the top position in the frame and the audio samples are transmitted successively from earlier-generated audio samples. To be more specific, in the above-mentioned example, the audio samples A[0086]1, B1 and C1 are transmitted at the first transmission, the audio sample C2 is transmitted at the second transmission, the audio samples B2 and C3 are transmitted at the third transmission, and the audio sample C4 is transmitted at the fourth transmission.
- Next, another transmission system will be described with reference to FIG. 9.[0087]
- In FIG. 9, numeral[0088]71 denotes a digital audio output apparatus, numeral72 denotes a transmission apparatus, numeral73 denotes a receiving apparatus, and numeral74 denotes a digital audio playback apparatus.
Numeral 80 denotes an encryption unit.Numeral 81 denotes a first multiplexer means.Numeral 82 denotes an encryptor means.Numeral 83 denotes a second multiplexer means.Numeral 84 denotes a control means.Numeral 85 denotes a communication means.Numeral 90 denotes a decoding unit.Numeral 91 denotes a communication means.Numeral 92 denotes a first demultiplexer means.Numeral 93 denotes a decoder means.Numeral 94 denotes a second demultiplexer means.Numeral 95 denotes a control means. - The digital[0089]
audio output apparatus 71 receives a clock outputted by the communication means85 and outputs audio data as well as outputs copyright protect information and auxiliary information concerning audio as auxiliary data, in synchronization with the clock. - The first multiplexer means[0090]81 receives the audio data, the auxiliary information and the copyright protect information outputted from the digital
audio output apparatus 71, multiplexes these data, and outputs multiplexed data. The encryptor means82 receives the multiplexed data from the first multiplexer means81, encrypts areas ofaudio data 103 andauxiliary data 102 on the basis of an encryption key (which will be described later) inputted from the control means84, and outputs encrypted data. The second multiplexer means83 receives the encrypted data from the encryptor means82, receives an EMI and an OE (header information101) from the control means84, and multiplexed these data. The above-mentioned first multiplexer means81, the encryptor means82, and the second multiplexer means83 are referred to as theencryption unit 80. Here, the first multiplexer means81, the encryptor means82, and the second multiplexer means83 operate in synchronization with the same periodic signal. That is, each periodic signal indicates the cycle of a block and the same processes are carried out in the section of each periodic signal. For example, when the start position of the periodic signal is the start position of a block, the encryptor means82 makes the start position of the periodic signal coincide with the start position of the encryption unit. Then, the second multiplexer means83 multiplexes Sync data at the start position of the periodic signal. In addition, the cycle of the periodic signal depends on how many transmission frames constitutes one block, and for example when one block consists of eight transmission frames, the periodic signal is generated in synchronization with eight transmission frames. Here, the periodic signal may be generated by any apparatus, or supplied from outside. - The control means[0091]84 is constituted by a CPU, and receives the copyright protect information outputted from the digital
audio output apparatus 71, judges on the basis of the information whether the encryption is performed or not, and when performing the encryption outputs the encryption key to the encryptor means82. The control means further outputs the EMI and the OE as information indicating how to perform the encryption, to the second multiplexer means83. - The communication means[0092]85 outputs the clock, which is synchronized with a transmission clock of the transmission line, to the digital
audio output apparatus 71 as well as receives the multiplexed data from the second multiplexer means83, and transmits the encrypted data to the communication means91 on the receivingapparatus 73 side. - The communication means[0093]91 outputs a clock to the digital
audio playback apparatus 74, receives the encrypted data transmitted from the communication means85 on thetransmission apparatus 72 side, synchronizes the data with the clock, and transmits the data to the first demultiplexer means92. - The first demultiplexer means[0094]92 receives the data outputted from the communication means91, demultiplexes the EMI and the OE from the received data, transmits the EMI and the OE to the control means95, and transmits other data to the decoder means93. The decoder means93 receives the data outputted from the first demultiplexer means92, receives an encryption key from the control means95, and carries out the decoding process in encryption units. The second demultiplexer means94 receives the data outputted from the decoder means93, demultiplexes the data into audio data and copyright protect information, transmits the audio data to the digital
audio playback apparatus 74, and transmits the copyright protect information to the control means95. The above-mentioned first demultiplexer means92, the decoder means93 and the second demultiplexer means94 are referred to as thedecoding unit 90. Here, the first demultiplexer means92, the decoder means93, and the second demultiplexer means94 operate in synchronization with the same periodic signal. This periodic signal is generated by seeing Sync data on the transmission line. For example, when the start position of the periodic signal is the start position of a block, the decoder means93 makes the start position of the periodic signal coincide with the start position of the encryption unit, like in the case of the encryptor means82. - The control means[0095]95 is constituted by a CPU, and it receives the EMI and the OE from the data outputted by the communication means91, and outputs the encryption key to the decoder means93 on the basis of these information. The control means further receives the copyright protect information from the decoded data, and control processes, such as copying of audio data, on the basis of the information.
- As described above, the[0096]
transmission apparatus 72 transmits data in synchronization with the clock outputted from the communication means85, whereby conversion of a clock of audio data is not required, the circuit scale can be reduced, and further deterioration of the audio quality can be prevented. The first multiplexer means81, the encryptor means82 and the second multiplexer means83 may be constituted integrally as theencryption unit 80 by one semiconductor chip. Further, theencryption unit 80 and the communication means85 may be constituted by one semiconductor chip. The first demultiplexer means92, the decoder means93, and the second demultiplexer means94 may be constituted integrally as thedecoding unit 90 by one semiconductor chip. Further, thedecoding unit 90 and the communication means91 may be constituted by one semiconductor chip. - Here, the clocks of the[0097]
transmission apparatus 72 and the receivingapparatus 73 are supplied through the transmission line, while when any apparatus is a clock source of the transmission line, it supplies the clock to the transmission line. - While here the case where the start position of the periodic signal is made coincide with the start position of the block has been described, it is needless to say that as long as positions of the periodic signal and the block or the periodic signal and the encryption unit are synchronized with each other, any positional relationship is possible.[0098]
- As described above, according to the transmission system of the first embodiment, the transmission method for transmitting the channel assignment information, the sampling frequency information and the quantization word length information of multi-channel audio data is decided, whereby transmission of the multi-channel audio data, which has not been performed conventionally, is enabled. Since the header information is sent block by block at the transmission of the multi-channel audio data, efficient data transmission at smaller bands can be realized, with relative to the prior art transmission system by which the header information is transmitted frame by frame.[0099]
- Further, according to the transmission system of the first embodiment, when multi-channel audio data of the DVD-Audio or the like is transmitted, the copyright protect information can be multi-transmitted at smaller bands. Further, since one block is composed of eight frames and the encryption in eight byte units is carried out block by block, the encryption can be performed up to the last byte, regardless of the length of the[0100]
audio data 103. - The transmission order of audio samples is decided such that first-generated audio samples are transmitted first, whereby the amounts of memory required for waiting for timing of transmission/receiving of data, which are necessary on the transmission end and the receiving end, can be reduced. Here, the transmission is performed under time restriction, while it may be performed in the order of channel numbers, or successively from audio samples of upper bytes to audio samples of lower bytes. Other transmission methods can be employed as long as the order in which data are transmitted is uniquely defined.[0101]
- In this first embodiment, the drive of the DVD-Audio is employed as the digital[0102]
audio output apparatus 21. However, any apparatus which outputs arbitrary digital audio data may be applied thereto, such as a drive of a recording medium such as a CD, a MD, a DAT and a DVD-Video, a tuner which receives digital audio broadcasts of digital TV broadcasting or digital radio, an AD converter which converts analog audio into digital audio and outputs the digital audio, and a PC which plays back audio data received via Internet. - In this first embodiment, data of the receiving apparatus[0103]23 is outputted to the digital
audio playback apparatus 24, while any apparatus which utilizes digital audio may be used, such as an apparatus for recording digital audio and an apparatus for editing digital audio. - Further, in this first embodiment, the transmission method according to the MOST format is employed, while the present invention can be applied to any transmission method by which time slots are included in frames of a prescribed cycle, and a transmission apparatus and a receiving apparatus for performing transmission use the time slots which are previously allocated thereto, to perform the transmission. As an example of such transmission method, there is a D2B optical (Reference: “The D2B Optical Bus—An Integration platform for Car Entertainment and Telematic Systems”, by Peter Mros, Proc. of World Congress on Intelligent Transport Systems Technical Sessions, October 1997). Further, the transmission line is not limited to the time slot type but the present invention can be applied to any transmission line of IEEE 1394 or the like.[0104]
- The AUX data is not limited to the example shown in FIG. 4, while any format data may be employed, as long as it is composed of sampling frequency information, quantization word length information and channel assignment information, and the arrangement of audio data that is to be transmitted is defined. The respective data of the sampling frequency information, the quantization word length information and the channel assignment information may be transmitted by arbitrary frames, whereby an arbitrary number of bits representing necessary information can be used and thus an arbitrary value can be employed. Further, in addition to the sampling frequency information, the quantization word length information and the channel assignment information, any data which is required for playback of audio data to be transmitted can be included, such as conditions for reduction of the sampling frequency or the quantization word length, and the presence or absence of emphasis. When the sampling frequency or the quantization word length has a fixed value, that information is unnecessary and can be omitted.[0105]
- Further, the AUX data is multiplexed with audio data and transmitted by the synchronous channel. However, at the insertion of a disc, or at the top of music or when the state of the music is changed, or at established periods, the AUX data may be transmitted by an asynchronous channel or the like. Here, the asynchronous channel is an area that is used to transmit data which does not require time restriction. As examples of the asynchronous channel, there are a control channel and an Asynchronous channel, defined in the MOST. As examples of data transmitted by the control channel, there are operation command information (playback, fast forward and the like), and menu information (program list and the like). Further, as examples of data transmitted by the Asynchronous channel, there are map data and Internet data (IP packet).[0106]
- Furthermore, the format of the block data is not limited to that shown in FIG. 2. In this first embodiment, one block is composed of eight frames correspondingly to eight bytes of the encryption unit, while one block may consists of “a multiple of 8” frames, as shown in FIG. 10. Further, it is also possible that one block is composed of 16 frames, the first bytes of first 8 frames are assumed to be the header, and the first bytes of latter 8 frames are assumed to be areas for auxiliary data. The encryption unit is not limited to 8 bytes but may be “n” bytes other than 8, and in this case the number of frames constituting one block is set to be a multiple of “n”. Further, the structure of the block is not limited to the above-mentioned structures. Any structure is possible as long as the total amount of data in the encryption area included in frames which are selected as a block is a multiple of the encryption unit. In this case, the same effects can be obtained by using a block that is composed of an arbitrary number of frames.[0107]
- The transmission of respective audio samples is performed according to the arrangement shown in FIG. 6, while it is not limited to this arrangement. As long as in which position in a frame each audio sample of each channel is arranged is decided between the transmission apparatus and the receiving apparatus, the audio samples may be arranged arbitrarily. The arrangement can be decided according to previously decided rules, or an arrangement method may be shared before the transmission of audio data.[0108]
Claims (19)
1. A transmission system comprising: a transmission apparatus for transmitting audio data of multi channels and auxiliary data required for playback of the audio data; and a receiving apparatus for receiving the audio data and the auxiliary data which are transmitted by the transmission apparatus, wherein
the auxiliary data include channel assignment information of the audio data.
2. The transmission system ofclaim 1 wherein
the auxiliary data further includes sampling frequency information.
3. The transmission system ofclaim 1 wherein
the auxiliary data further includes quantization bit information.
4. The transmission system ofclaim 1 wherein
the channel assignment information of the audio data is based on DVD-Audio standards.
5. The transmission system ofclaim 1 wherein
the transmission apparatus comprises a multiplexer for multiplexing the audio data and the auxiliary data, to create multiplexed data, and
the receiving apparatus comprises a demultiplexer for receiving the multiplexed data transmitted from the transmission apparatus, and demultiplexing the data into audio data and auxiliary data.
6. The transmission system ofclaim 1 wherein
when transmitting audio data having various sampling frequencies to the receiving apparatus, the transmission apparatus multiplexes and transmits first-generated audio data first.
7. The transmission system ofclaim 1 wherein
according to a method for transmitting the audio data and the auxiliary data, the data are time divided into transmission frames, and
as for transmission of the audio data, prescribed bits are assigned to each transmission frame.
8. The transmission system ofclaim 1 wherein
a method for transmitting the audio data and the auxiliary data complies with a MOST method.
9. A transmission system comprising a transmission apparatus for transmitting digital data and auxiliary data required for playback of the digital data; and a receiving apparatus for receiving the digital data and the auxiliary data which are transmitted from the transmission apparatus, wherein
the transmission apparatus comprises:
a multiplexer for multiplexing the digital data and the auxiliary data, to create block data which is composed of n frames as a multiple of a predetermined encryption unit; and
an encryptor for encrypting the block data in the predetermined encryption unit, to create encrypted data, and
the receiving apparatus comprises:
a decoder for decoding the encrypted data transmitted from the transmission apparatus; and
a demultiplexer for demultiplexing the block data decoded by the decoder into digital data and auxiliary data.
10. The transmission system ofclaim 9 wherein
the predetermined encryption unit is 8 bytes.
11. The transmission system ofclaim 9 wherein
the multiplexer multiplexes copyright protect information as information for protecting copyright concerning the digital data, in plural frames within the block data.
12. The transmission system ofclaim 11 wherein
the copyright protection information includes at least copy permission information indicating whether copying of the digital data is permitted or not, in a first one of the frames in which the information is multiplexed.
13. The transmission system ofclaim 11 wherein
the copyright protect information includes copy permission information indicating whether copying of the digital data is permitted or not, copy times information indicating how many times of copying is permitted when the copying is permitted, copy quality information indicating the quality of copying when the copying is permitted, and audio transaction information indicating whether special audio access control is performed or not.
14. The transmission system ofclaim 9 wherein
according to a method for transmitting the digital data and the auxiliary data, the data are time divided into transmission frames, and
as for transmission of the digital data and the auxiliary data, prescribed bits are assigned to each transmission frame.
15. The transmission system ofclaim 9 wherein
a method for transmitting the digital data and the auxiliary data complies with a MOST method.
16. A transmission apparatus which receives audio data and copyright protect information that is information for protecting copyright of the audio data, and generates a periodic signal with eight transmission frames as one cycle, comprising:
a first multiplexer means for multiplexing the copyright protect information in synchronization with the periodic signal;
an encryptor means for performing encryption in synchronization with the periodic signal; and
a second multiplexer means for multiplexing periodic information indicating information of the periodic signal in synchronization with the periodic signal.
17. The transmission apparatus ofclaim 16 wherein
a method for transmitting the data complies with a MOST method.
18. A receiving apparatus which receives audio data and copyright protect information, from a transmission apparatus which receives the audio data and the copyright protect information that is information for protecting copyright of the audio data and generates a periodic signal with eight transmission frames as one cycle, comprising:
a first demultiplexer means for generating a periodic signal on the basis of periodic information as information of the periodic signal detected from the received data;
a decoder means for performing decoding in synchronization with the periodic signal; and
a second demultiplexer means for demultiplexing the copyright protect information in synchronization with the periodic signal.
19. The receiving apparatus ofclaim 18 wherein
a method for transmitting the data complies with a MOST method.
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Also Published As
| Publication number | Publication date |
|---|---|
| US7965744B2 (en) | 2011-06-21 |
| US20060239302A1 (en) | 2006-10-26 |
| US20110196681A1 (en) | 2011-08-11 |
| EP1223696A3 (en) | 2003-12-17 |
| US8837533B2 (en) | 2014-09-16 |
| EP1223696A2 (en) | 2002-07-17 |
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