Policy on Intellectual Property Right (IPR)
1 Introduction
2 Applications and scenarios
2.1 High definition
television/Three-dimensional television
2.2 Mobile multimedia
2.3 Broadband Internet
3 Satellite systems examples
3.1 17/24 and 21/24 GHz BSS systems
3.2 Integrated MSS systems
3.3 Ka-band broadband systems
4 System implementation methods
4.1 Single and multi-beam satellite
systems
4.2 Digital satellite transmission
system
5 Multi-carrier and multiple access systems
5.1 Basics of multi-carrier
transmission
5.2 Multi-carrier transmission over
a satellite link
5.3 Multi-carrier based multiple
access schemes
6 Peak-to-average power ratio reduction
technologies
6.1 Introduction
6.2 Peak-to-average power ratio
reduction techniques
Block scaling
Channel coding
Partial transmit sequence scheme
Sub-carrier scrambling
Tone reservation
Pulse superposition
Non-linear companding transforms
6.3 CI-OFDM
6.3.1 Introduction
6.3.2 CI-spreading
technology
6.4 Power amplifier linearization: a
technique to reduce the effect of PAPR
7 Channel coding techniques
7.1 Channel coding
7.2 Concatenated codes
7.2.1 Single-level
concatenated codes
7.2.2 Multi-level
concatenated codes
7.3 Turbo codes
7.3.1 Introduction
7.3.2 Convolutional turbo
codes
7.3.3 Block turbo codes
7.3.4 Methods for decoding
turbo codes
MAP (BCJR) algorithm
Max-log-MAP and SOVA
Chase-Pyndiah algorithm
7.4 Low density parity check codes
7.4.1 Introduction
7.4.2 Description
7.4.3 Graphical
representation of LDPC matrices
7.4.4 Decoding LDPC codes:
belief propagation
8 Link rate adaptation
8.1 Constant coding and modulation
8.2 Adaptive coding and modulation
8.3 Hybrid ARQ
9 Standards and transmission methods
9.1 DVB-S
Modulation
Channel coding
9.2 DVB-S2
Modulation
Channel coding
Link adaptation
9.3 DVB-RCS
Forward link
Return link
Continuous carrier operation (mobile option)
9.4 DVB-SH
Architectures
Channel coding and modulation
10 Performance parameters and models
10.1 Performance and spectral
efficiency of a multi-carrier satellite system in linear channels
10.2 Evaluation of CI-OFDM
transmissions in a non-linear satellite channel
10.2.1 System model
10.2.2 Test results
10.3 Performance and spectral
efficiency of CI-OFDM in a non-linear satellite channel
10.3.1 System model
10.3.2 Test results
10.4 Performance of MC-CDMA in a
non-linear satellite channel
10.4.1 System model
10.4.2 BER performance of
non-linear MC-CDMA satellite system
10.4.3 Adaptive operation
of MC-CDMA satellite system
11 Future trends (on-board processing)
11.1 Introduction
11.2 Signal regeneration
11.3 Reducing latency: IP-routing and
caching
11.4 Flexible signals, flexible design:
variable data rates, cross-layer optimization and software-defined radio
11.5 Implementation considerations
and examples
12 Conclusions
13 References