User:Ryan Cooley/DAB: Difference between revisions

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"The EBU and the Eureka 147 DAB (Digital Audio Broadcasting) project set up a joint group in 1992, in order to evaluate the performance of the Eureka 147 DAB system."  
"The EBU and the Eureka 147 DAB (Digital Audio Broadcasting) project set up a joint group in 1992, in order to evaluate the performance of the Eureka 147 DAB system."  
So the WorldDAB Forum decided in June 2005 to start the development of an alternative audio system for DAB ­ the Technical Committee set up the Task Force, New Audio System. The result of 1.5 years of enthusiastic work ­ the norm "Transport of Advanced Audio Coding (AAC) audio" was published by ETSI in February 2007 and was announced publicly as DAB+ at the same time.
Adoption/Stats:  http://www.ebu.ch/en/technical/trev/trev_311-dab_dmb.pdf
  Electronic Program Guide (EPG)
  Intellitext




Line 27: Line 36:
   Inter-Symbol Interference (ISI)
   Inter-Symbol Interference (ISI)
   Fast Fourier Transform (FFT)
   Fast Fourier Transform (FFT)
   differential QPSK - no channel equalization needed
   Differential QPSK  
    no channel equalization needed
    1536 carriers
   Guard Interval  
   Guard Interval  
     1/4th symbol length interval
     1/4th symbol length interval
Line 44: Line 55:
     Temporal:  Between Frames; depth 360ms
     Temporal:  Between Frames; depth 360ms
     Frequency: Interleaving.   
     Frequency: Interleaving.   
  The performance of this modulation scheme in
various channels is described in ETSI 101 758:
Digital Audio Broadcasting (DAB); Signal
strengths and receiver parameters; Targets for
typical operation. For an MPEG-1 Layer II
codec, the C/N for non-audio impairment is
14 dB for the majority of locations in urban and
rural environments and at speeds below
130 km/h.<ref name=dab_indoor>http://www.ebu.ch/trev_299-mason.pdf</ref>
-15 db average loss indoor reception
UEP 3 (~0.5)




Line 70: Line 96:
    
    


  standardised by the European Telecommunications Standards Institute
  "ETSI specification, EN 300 401 (Second Edition) specifies the transmitted DAB signal."
  "ETSI specification, EN 300 401 (Second Edition) specifies the transmitted DAB signal."
'CD quality' using bit-rates of 192 kbit/s or above for stereo
'CD quality' using bit-rates of 192 kbit/s or above for stereo
Line 81: Line 106:
(Mode I) ... permits the use of relatively widely-spaced transmitters, whereas in transmission mode II the  
(Mode I) ... permits the use of relatively widely-spaced transmitters, whereas in transmission mode II the  
However, mode II has fewer radiated carriers; also, for mobile reception in L-Band, the greater frequency seperation of the carriers is intended to reduce the effect of Doppler shifting for reception in moving vehicles, especially at the higher speeds.  There are 1,536 radiated carriers in mode I, and 384 carriers in mode II, in a system bandwidth of about 1.54 MHz.<ref>http://www.bbc.co.uk/rd/pubs/reports/1994-18.pdf</ref>
However, mode II has fewer radiated carriers; also, for mobile reception in L-Band, the greater frequency seperation of the carriers is intended to reduce the effect of Doppler shifting for reception in moving vehicles, especially at the higher speeds.  There are 1,536 radiated carriers in mode I, and 384 carriers in mode II, in a system bandwidth of about 1.54 MHz.<ref>http://www.bbc.co.uk/rd/pubs/reports/1994-18.pdf</ref>
== Data Coding ==
MPEG-1 Layer II audio at 48kHz or 24kHz
A 192kbit/s DAB channel can cost from 2 to 20 million Euros, depending on how well utilized each transmitter is.<ref name=cost>http://www.ebu.ch/en/technical/trev/trev_305-skiold.pdf</ref>




Line 90: Line 123:


   "RDS travel bulletins to interrupt listening,"
   "RDS travel bulletins to interrupt listening,"


== World ==
== World ==


   "100 million people"
   "100 million people" circa 2007
 


== DAB+ ==
== DAB+ ==


   MPEG-4 HE-AAC v2
   MPEG-4 HE-AAC v2
  Reed-Solomon additional ECC 8.3% overhead
  Marginally better fringe reception due to R-S
  Muting instead of artifacts
  Stream and Packet Mode. The ten parity bytes per 110 data bytes ­ equivalent to an over-head of 8.3%­ lead to an ability of correcting up to five erroneous bytes in those 120 bytes (Fig. 9).


   DAB+ was published in February 2007 as ETSI TS 102563 "Digital Audio Broadcasting (DAB); Transport of Advanced Audio Coding (AAC) audio".
   DAB+ was published in February 2007 as ETSI TS 102563 "Digital Audio Broadcasting (DAB); Transport of Advanced Audio Coding (AAC) audio".

Revision as of 04:10, 30 September 2008

Rough Draft. Probably take a month to look like anything.

Digital Audio Broadcasting (DAB, or EUREKA-147) is a standard for transmitting lossy encoded digital audio.


History

In 1988 the E!147 project started.

"The BBC started a new service of Digital Audio Broadcasting on 27 September 1995 in London."

In 1995 the BBC was experimentally broadcasting in DAB.

"The EBU and the Eureka 147 DAB (Digital Audio Broadcasting) project set up a joint group in 1992, in order to evaluate the performance of the Eureka 147 DAB system."

So the WorldDAB Forum decided in June 2005 to start the development of an alternative audio system for DAB ­ the Technical Committee set up the Task Force, New Audio System. The result of 1.5 years of enthusiastic work ­ the norm "Transport of Advanced Audio Coding (AAC) audio" was published by ETSI in February 2007 and was announced publicly as DAB+ at the same time.

Adoption/Stats: http://www.ebu.ch/en/technical/trev/trev_311-dab_dmb.pdf

 Electronic Program Guide (EPG)
 Intellitext



DMB...

DAB+ was published in February 2007


RF

OFDM:

 Multipath, Doppler Shift, Interference.
 Inter-Symbol Interference (ISI)
 Fast Fourier Transform (FFT)
 Differential QPSK 
   no channel equalization needed
   1536 carriers
 Guard Interval 
   1/4th symbol length interval
     copies end of symbol before start of symbol
   Multipath
   Single-Frequency Networks (FSN)
 Synchronization
   Null symbol
   Phase Reference Symbol (PRS)

Frequency-Domain Multipath

(Punctured) Convolutional Coding (COFDM)
   Forward-error correction (FEC)
   Normally; half-rate. == 1.2Mb/s
 Viterbi
 Bit-stream re-ordering; Pre-determined patterns
   Temporal:  Between Frames; depth 360ms
   Frequency: Interleaving.  
 The performance of this modulation scheme in

various channels is described in ETSI 101 758: Digital Audio Broadcasting (DAB); Signal strengths and receiver parameters; Targets for typical operation. For an MPEG-1 Layer II codec, the C/N for non-audio impairment is 14 dB for the majority of locations in urban and rural environments and at speeds below 130 km/h.[1]

-15 db average loss indoor reception

UEP 3 (~0.5)


4 transmission modes, 1,2,4,8KHz wide

 Mode 1: Band III (4x1.54MHz DAB in 7MHz UKTV space)  
   70km max SFN antenna spacing
 Mode 2: L-Band (1452-1492MHz, world) 
   est 17km max SFN antenna spacing
 Mode 3: up to 3GHz for satellite
   est 8km max SFN antenna spacing
 Mode 4: L-Band, sometimes appropriate
   est 35km max SFN antenna spacing

useful payload (0.6 - 1.7 Mbit/s) available. 6 x 192Mb/s MP2 = 1.2Mb/s Fast Information Channel (FIC) - Non-interleaved Multiplex configuration information

 reference frequency and timing information

?Service Information (SI) Main Service Channel (MSC)

 MP2 audio

Packet Demux for datacasts 24ms frames

Data Services


"ETSI specification, EN 300 401 (Second Edition) specifies the transmitted DAB signal."

'CD quality' using bit-rates of 192 kbit/s or above for stereo


Transmission mode I is intended for terrestrial Single Frequency Networks (SFN) and loca-area broadcasting in Bands I, II and III. Transmission mode II is intended to be used for terrestrial local-area broadcasting in Bands I, II, III, IV, V and in the 1,452-1,492 MHz frequency band (i.e. L-Band).

The DAB signal comprises a succession of transmission frames of 96 ms duration in mode I and of 24 ms duration in mode II. Within these transmission frames, the synchronization channel occupies approximately the first 2.544 ms in mode I, and approximately 0.636 ms in mode II.

(Mode I) ... permits the use of relatively widely-spaced transmitters, whereas in transmission mode II the However, mode II has fewer radiated carriers; also, for mobile reception in L-Band, the greater frequency seperation of the carriers is intended to reduce the effect of Doppler shifting for reception in moving vehicles, especially at the higher speeds. There are 1,536 radiated carriers in mode I, and 384 carriers in mode II, in a system bandwidth of about 1.54 MHz.[2]


Data Coding

MPEG-1 Layer II audio at 48kHz or 24kHz

A 192kbit/s DAB channel can cost from 2 to 20 million Euros, depending on how well utilized each transmitter is.[3]


UK

 "The BBC covers 85% of the UK population" [4]
 "In the United Kingdom, 12.5 MHz of Band III spectrum from 217.5 - 230 MHz has been allocated to DAB. This will accommodate seven multiplexes. The BBC has been allocated one of these channels for its national DAB multiplex"
 "RDS travel bulletins to interrupt listening,"


World

 "100 million people" circa 2007


DAB+

 MPEG-4 HE-AAC v2
 Reed-Solomon additional ECC 8.3% overhead
 Marginally better fringe reception due to R-S
 Muting instead of artifacts
 Stream and Packet Mode. The ten parity bytes per 110 data bytes ­ equivalent to an over-head of 8.3%­ lead to an ability of correcting up to five erroneous bytes in those 120 bytes (Fig. 9).


 DAB+ was published in February 2007 as ETSI TS 102563 "Digital Audio Broadcasting (DAB); Transport of Advanced Audio Coding (AAC) audio".
 HE-AAC v2 provides the same perceived audio quality at about one third of the sub-channel bitrate needed by MPEG Audio Layer II.

DAB+ Bullshit[5]

Moser AAC+ Bullshit. Does not mention MP2 at all[6] Ridiculously low AAC bitrates are cited are based on MUSHRA (Multi stimulus hidden reference and anchor) testing, versus ITU-R BS.1116-1 testing for older, higher MP2 bitrates.


CTAAC+ http://www.ebu.ch/trev_291-dietz.pdf DRM http://www.ebu.ch/trev_286-stott.pdf