Recommendation ITU-R BO.1130-5
INTELLECTUAL PROPERTY RIGHTS
Annex 1 Annex description of digital BSS (sound) systems
1 Summary of Digital
System B
2 Summary of Digital System DS
3 Summary of Digital System DH
4 Summary of Digital System E
Annex 2 Digital System B
1 Introduction
2 System overview
3 System description
3.1 Transmitter
3.1.1 Input
interfaces
3.1.2 Audio
encoding
3.1.3 Programme
multiplexing
3.1.4 Error
correction encoding
3.1.5 Interleaving
3.1.6 Frame
synchronization
3.1.7 Training
sequence insertion
3.1.8 Modulation
3.2 Receiver
3.2.1 Demodulation
3.2.2 Frame
synchronization
3.2.3 Equalization
3.2.4 Training
sequence deletion
3.2.5 De-Interleaving
3.2.6 Error
correction decoding
3.2.7 Programme
demultiplexing
3.2.8 Audio
decoding
3.2.9 Output
interfaces
4 Performance
4.1 AWGN channel
4.2 Satellite channel
4.2.1 Time
diversity
4.2.2 Satellite
diversity
4.3 Single frequency
network
4.3.1 Channel
models
4.3.2 Equalizer
performance
Annex 3 Digital System DS
1 Introduction
2 System overview
3 MPEG Layer III audio coding
algorithm
3.1 General
3.2 MPEG-1 Layer III
3.3 MPEG-2 Layer III
(half sampling rate extension)
3.4 MPEG-2.5 Layer III
(extension toward very low sampling rates)
3.5 Layer III audio
quality – status and future improvements
4 Radio receiver operation
and interfaces
4.1 Receiver operation
4.1.1 Antenna
options
4.1.2 Front
end filtering
4.1.3 Limitations
due to receiver linearity (IP3)
4.1.4 Tuning
to a TDM carrier
4.1.5 Demodulation
4.1.6 TDM
frame synchronization
4.1.7 Demultiplexing
a BC
4.1.8 FEC
decoding a BC: Viterbi + de-interleave + RS
4.2 SCH functions:
service types, subscription services
4.3 Decoding an audio
service
4.4 Overall RF/IF
selectivity
4.5 Receive BER
objectives and margins
4.6 Receiver
protection against interference/augmentation strategies
5 Link budgets
5.1 Processing
transponder
5.2 Transparent
transponder
Bibliography
Annex 4 Digital System DH
1 Introduction
2 System overview
2.1 Layer structure of
Digital System DH
2.2 Satellite
broadcast segment
2.2.1 Service
layer
2.2.2 Transport
layer
2.3 MCM implementation
2.4 MCM waveform
parameters
2.5 Time diversity
delay between early and late broadcast channels
2.6 Receiving
scenarios of hybrid satellite/terrestrial signals
2.6.1 Outer
region – Dominantly satellite reception region
2.6.2 Intermediate
region – Mix of satellite and terrestrial signals region
2.6.3 Inner
region – Dominant use of the terrestrial signal
2.6.4 Vehicle
transiting through the regions
2.7 Receiver
architecture
Annex 5 Digital System E
1 Introduction
2 System overview
3 Physical layer and
modulation
3.1 Frequency band
3.2 Bandwidth
3.3 Polarization
3.4 Modulation
3.4.1 Modulation
of carrier
3.4.2 Symbol
mapping
3.5 Chip rate
3.6 Signature sequence
and spreading sequence
3.7 Data spreading
3.8 Roll-off factor
3.9 The number of CDM
channels
4 Channel coding
4.1 Error correction
coding
4.1.1 Outer
code
4.1.2 Inner
code
4.2 Interleaving
4.2.1 Byte-wise
interleaving
4.2.2 Bit-wise
interleaving
4.3 Pilot channel
4.3.1 Frame
and super frame
4.3.2 Pilot
symbol
5 Service multiplexing
6 Source coding
6.1 Audio source
coding
6.2 Data coding
7 Example of an application
of Digital System E
7.1 Satellite link
7.1.1 Spectrum
7.1.2 BER
vs. C/N0 performances under
AWGN environment
7.2 Gap filler
7.2.1 Direct
amplifying gap filler
7.2.2 Frequency
conversion gap filler
7.3 Experimental
results of high-speed vehicular receptions
7.4 Receiver model