Andreas F. Molisch
Wireless Communications
Andreas F. Molisch
Wireless Communications
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Wireless Communications, Second Edition has been fully updated throughout with new material including three new chapters on ad-hoc networks, WiMAX and LTE. It provides a self-contained all-encompassing current treatment of the area, covering topics such as directional channel modelling, multi-user detection, MIMO systems, and 3G standards. In addition, the author has combined mathematical derivations with intuitive explanations of the physical facts in order to help students (including self-study readers) to acquire a deeper understanding of the facts.
Wireless Communications, Second Edition has been fully updated throughout with new material including three new chapters on ad-hoc networks, WiMAX and LTE. It provides a self-contained all-encompassing current treatment of the area, covering topics such as directional channel modelling, multi-user detection, MIMO systems, and 3G standards. In addition, the author has combined mathematical derivations with intuitive explanations of the physical facts in order to help students (including self-study readers) to acquire a deeper understanding of the facts.
Produktdetails
- Produktdetails
- Wiley - IEEE
- Verlag: Wiley & Sons; Ieee Press
- 2. Aufl. 2010.
- Erscheinungstermin: November 2010
- Gewicht: 1610g
- ISBN-13: 9780470741870
- ISBN-10: 0470741872
- Artikelnr.: 30589120
- Herstellerkennzeichnung Die Herstellerinformationen sind derzeit nicht verfügbar.
- Wiley - IEEE
- Verlag: Wiley & Sons; Ieee Press
- 2. Aufl. 2010.
- Erscheinungstermin: November 2010
- Gewicht: 1610g
- ISBN-13: 9780470741870
- ISBN-10: 0470741872
- Artikelnr.: 30589120
- Herstellerkennzeichnung Die Herstellerinformationen sind derzeit nicht verfügbar.
- Preface List of abbreviations
- List of symbols
PART I INTRODUCTION
1 Applications and requirements of wireless services
1.1 History
1.2 Types of services
1.3 Requirements for the services
1.4 Economic and social aspects
2 Technical challenges of wireless communications
2.1 Multipath propagation
2.2 Spectrum limitations
2.3 Limited energy
2.4 User mobility 3 Noise-and interference-limited systems
3.1 Introduction
3.2 Noise-limited systems
3.3 Interference-limited systems
PART II WIRELESS PROPAGATION CHANNELS
4 Propagation mechanisms
4.1 Free space attenuation
4.2 Reflection and transmission
4.3 Diffraction
4.4 Scattering by rough surfaces
4.5 Waveguiding
4.6 Appendices Further reading
5 Statistical description of the wireless channel
5.1 Introduction
5.2 The time-invariant two-path model
5.3 The time-variant two-path model
5.4 Small-scale fading without a dominant component
5.5 Small-scale fading with a dominant component
5.6 Doppler spectra and temporal channel variations
5.7 Temporal dependence of fading
5.8 Large-scale fading
5.9 Appendices
6 Wideband and directional channel characterization
6.1 Introduction
6.2 The causes of delay dispersion
6.3 System-theoretic description of wireless channels
6.4 The WSSUS model
6.5 Condensed parameters
6.6 Ultrawideband channels
6.7 Directional description
6.8 Appendices
7 Channel models
7.1 Introduction
7.2 Narrowband models
7.3 Wideband models
7.4 Directional models
7.5 Deterministic channel-modeling methods
7.6 Appendices Further Reading
8 Channel sounding
8.1 Introduction
8.2 Time domain measurements
8.3 Frequency domain analysis
8.4 Modified measurement methods
8.5 Directionally resolved measurements
8.6 Appendix Further reading
9 Antennas
9.1 Introduction
9.2 Antennas for mobile stations
9.3 Antennas for base stations Further reading
PART III TRANSCEIVERS ANDSIGNAL PROCESSING
10 Structure of a wireless communication link
10.1 Transceiver block structure
10.2 Simplified models Further reading
11 Modulation formats
11.1 Introduction
11.2 Basics
11.3 Important modulation formats
11.4 Appendix Further reading
12 Demodulation
12.1 Demodulator structure and error probability in additive-white-Gaussian-noise channels
12.2 Error probability in flat-fading channels
12.3 Error probability in delay-and frequency-dispersive fading channels Further reading
13 Diversity
13.1 Introduction
13.2 Microdiversity
13.3 Macrodiversity and simulcast
13.4 Combination of signals
13.5 Error probability in fading channels with diversity reception
13.6 Transmit diversity
13.7 Appendix Further reading
14 Channel coding
14.1 Fundamentals of coding and information theory
14.2 Block codes
14.3 Convolutional codes
14.4 Trellis-coded modulation
14.5 Bit interleaved coded modulation (BICM)
14.6 Turbocodes
14.7 Low-density parity check codes
14.8 Coding for fading channel
14.9 Information-theoretic performance limits of fading channels
14.10 Appendice Further reading
15 Speech coding
15.1 Introduction
15.2 The sound of speech
15.5 From speech transmission to acoustic telepresence Further reading
16 Equalizers
16.1 Introduction
16.2 Linear equalizers
16.3 Decision feedback equalizers
16.4 Maximum-likelihood sequence estimation - Viterbi detector
16.5 Comparison of equalizer structures
16.6 Fractionally spaced equalizers
16.7 Blind equalizers
16.8 Appendices Further reading
PART IV MULTIPLE ACCESS ANDADVANCEDTRANSCEIVER SCHEMES
17 Multiple access and the cellular principle
17.1 Introduction
17.2 Frequency division multiple access
17.3 Time division multiple access
17.4 Packet radio
17.5 Duplexing
17.6 Principles of cellular networks
17.7 Appendix Further reading
18 Spread spectrum systems
18.1 Frequency-hopped multiple access
18.2 Code division multiple access
18.3 Cellular code-division-multiple-access systems
18.4 Multiuser detection
18.5 Time-hopping impulse radio Further reading
19 Orthogonal frequency division multiplexing (OFDM)
19.1 Introduction
19.2 Principle of orthogonal frequency division multiplexing
19.3 Implementation of transceivers
19.4 Frequency-selective channels
19.5 Channel estimation
19.6 Peak-to-average power ratio
19.7 Intercarrier interference
19.8 Adaptive modulation and capacity
19.9 Multiple access - OFDMA
19.10 Multicarrier code division multiple access
19.11 Single-carrier modulation with frequency-domain equalization Further reading
20 Multiantenna systems
20.1 Smart antennas
20.2 Multiple-input multiple-output systems
20.3 Multiuser MIMO Further reading
PART V STANDARDIZED WIRELESS SYSTEMS
21. Cognitive radio
21.1 Problem description
21.2 Cognitive transceiver architecture
21.3 Principles of interweaving
21.4 Spectrum sensing
21.5 Spectrum management
21.6 Spectrum sharing
21.7 Overlay
21.8 Underlay Hierarchical Access - Ultrawideband Communications
21.9 Appendix : Further reading
22- Relaying Multi-hop, and Cooperative Communications
22.1 Introduction and motivation
22.2 Fundamentals of relaying
22.3 Relaying with multiple and parallel relays
22.4 Routing and resource allocation in multi-hop network
22.5 Routing and resource allocation in collaborative networks
22.6 Applications
22.7 Network coding Further reading
23. Video Calling
23.1 Introduction
23.2 Transform and Quantization
23.3 Prediction
23.4 Entropy Coding
23.5 Video Coding Standards
23.6 Layered Video Coding
23.7 Error Control
23.8 Video Streaming Further Reading
24 GSM - Global System for Mobile communications
24.1 Historical overview
24.2 System overview
24.3 The air interface
24.4 Logical and physical channels
24.5 Synchronization
24.6 Coding
24.7 Equalizer
24.8 Circuit-switched data transmission
24.10 Services and billing
24.11 Appendices Further Reading
25 IS-95 and CDMA 2000
25.1 Historical overview
25.2 System overview
25.3 Air interface
25.4 Coding
25.5 Spreading and modulation
25.6 Logical and physical channels
25.7Handover
25.8 Appendices Further reading
26 WCDMA/UMTS
26.1 Historical overview
26.2 System overview
26.3 Air interface
26.4 Physical and logical channels
26.5 Speech coding, multiplexing, and channel coding
26.6 Spreading and modulation
26.7 Physical-layer procedures
26.8 Appendix Further reading 27. 3GPP Long term Evolution
27.1 Introduction
27.2 System Overview
27.3 Physical layer
27.4 Logical and physical channels
27.5 Physical layer procedures
27.6 Glossary for LTE Further reading
28. WiMax / IEEE 802.16
28.1 Introduction
28.2 System Overview
28.3 Modulation coding
28.4 Logical and physical channels
28.5 Multiple-antenna techniques
28.6 Link Control
28.7 Glossary for Wimax
28.8 References
29 Wireless Local Area Networks
29.1 Introduction
29.2
802.11a/g - Orthogonal-frequency-division-multiplexing-based local area networks
29.3 IEEE 802.11b - Wireless Fidelity
29.4 Packet transmission in 802.11 wireless local area networks
29.5 Alternative wireless local area networks and future developments
29.6 Appendix Further reading 30 Exercises Peter Almers, Ove Edfors, Fredrik Floren, Anders Johanson, Johan Karedal, Buon Kiong Lau, Andreas F. Molisch, Andre Stranne, Fredrik Tufvesson, and Shurjeel Wyne
30.1 Chapter 1: Applications and requirements of wireless services
30.2 Chapter 2: Technical challenges of wireless communications
30.3 Chapter 3: Noise-and interference-limited systems
30.4 Chapter 4: Propagation mechanisms
30.5 Chapter 5: Statistical description of the wireless channel
30.6 Chapter 6: Wideband and directional channel characterization
30.7 Chapter 7: Channel models
30.8 Chapter 8: Channel sounding
30.9 Chapter 9: Antennas
30.10 Chapter 10: Structure of a wireless communication link
30.11 Chapter 11: Modulation formats
30.12 Chapter 12: Demodulation
30.13 Chapter 13: Diversity
30.14 Chapter 14: Channel coding
30.15 Chapter 15: Speech coding
30.16 Chapter 16: Equalizers
30.17 Chapter 17: Multiple access and the cellular principle
30.18 Chapter 18: Spread spectrum systems
30.19 Chapter 19: Orthogonal frequency division multiplexing (OFDM)
30.20 Chapter 20: Multiantenna systems
30.21 Chapter 21: Cognitive radio
30.22 Chapter 22: Relaying Multi-hop, and Cooperative Communications
30.23 Chapter 23: Video coding
30.24 Chapter 24: Wireless Local Area Networks
30.25 Chapter 25 : IS-95 and CDMA 2000
30.26 Chapter 26: WCDMA/UMTS
30.27 Chapter 27: 3GPP Long term Evolution
30.28. Chapter 28 : WiMax / IEEE 802.16
30.29 Chapter 29: Wireless Local Area Networks
30.30 Chapter 30: Exercises References Index
- List of symbols
PART I INTRODUCTION
1 Applications and requirements of wireless services
1.1 History
1.2 Types of services
1.3 Requirements for the services
1.4 Economic and social aspects
2 Technical challenges of wireless communications
2.1 Multipath propagation
2.2 Spectrum limitations
2.3 Limited energy
2.4 User mobility 3 Noise-and interference-limited systems
3.1 Introduction
3.2 Noise-limited systems
3.3 Interference-limited systems
PART II WIRELESS PROPAGATION CHANNELS
4 Propagation mechanisms
4.1 Free space attenuation
4.2 Reflection and transmission
4.3 Diffraction
4.4 Scattering by rough surfaces
4.5 Waveguiding
4.6 Appendices Further reading
5 Statistical description of the wireless channel
5.1 Introduction
5.2 The time-invariant two-path model
5.3 The time-variant two-path model
5.4 Small-scale fading without a dominant component
5.5 Small-scale fading with a dominant component
5.6 Doppler spectra and temporal channel variations
5.7 Temporal dependence of fading
5.8 Large-scale fading
5.9 Appendices
6 Wideband and directional channel characterization
6.1 Introduction
6.2 The causes of delay dispersion
6.3 System-theoretic description of wireless channels
6.4 The WSSUS model
6.5 Condensed parameters
6.6 Ultrawideband channels
6.7 Directional description
6.8 Appendices
7 Channel models
7.1 Introduction
7.2 Narrowband models
7.3 Wideband models
7.4 Directional models
7.5 Deterministic channel-modeling methods
7.6 Appendices Further Reading
8 Channel sounding
8.1 Introduction
8.2 Time domain measurements
8.3 Frequency domain analysis
8.4 Modified measurement methods
8.5 Directionally resolved measurements
8.6 Appendix Further reading
9 Antennas
9.1 Introduction
9.2 Antennas for mobile stations
9.3 Antennas for base stations Further reading
PART III TRANSCEIVERS ANDSIGNAL PROCESSING
10 Structure of a wireless communication link
10.1 Transceiver block structure
10.2 Simplified models Further reading
11 Modulation formats
11.1 Introduction
11.2 Basics
11.3 Important modulation formats
11.4 Appendix Further reading
12 Demodulation
12.1 Demodulator structure and error probability in additive-white-Gaussian-noise channels
12.2 Error probability in flat-fading channels
12.3 Error probability in delay-and frequency-dispersive fading channels Further reading
13 Diversity
13.1 Introduction
13.2 Microdiversity
13.3 Macrodiversity and simulcast
13.4 Combination of signals
13.5 Error probability in fading channels with diversity reception
13.6 Transmit diversity
13.7 Appendix Further reading
14 Channel coding
14.1 Fundamentals of coding and information theory
14.2 Block codes
14.3 Convolutional codes
14.4 Trellis-coded modulation
14.5 Bit interleaved coded modulation (BICM)
14.6 Turbocodes
14.7 Low-density parity check codes
14.8 Coding for fading channel
14.9 Information-theoretic performance limits of fading channels
14.10 Appendice Further reading
15 Speech coding
15.1 Introduction
15.2 The sound of speech
15.5 From speech transmission to acoustic telepresence Further reading
16 Equalizers
16.1 Introduction
16.2 Linear equalizers
16.3 Decision feedback equalizers
16.4 Maximum-likelihood sequence estimation - Viterbi detector
16.5 Comparison of equalizer structures
16.6 Fractionally spaced equalizers
16.7 Blind equalizers
16.8 Appendices Further reading
PART IV MULTIPLE ACCESS ANDADVANCEDTRANSCEIVER SCHEMES
17 Multiple access and the cellular principle
17.1 Introduction
17.2 Frequency division multiple access
17.3 Time division multiple access
17.4 Packet radio
17.5 Duplexing
17.6 Principles of cellular networks
17.7 Appendix Further reading
18 Spread spectrum systems
18.1 Frequency-hopped multiple access
18.2 Code division multiple access
18.3 Cellular code-division-multiple-access systems
18.4 Multiuser detection
18.5 Time-hopping impulse radio Further reading
19 Orthogonal frequency division multiplexing (OFDM)
19.1 Introduction
19.2 Principle of orthogonal frequency division multiplexing
19.3 Implementation of transceivers
19.4 Frequency-selective channels
19.5 Channel estimation
19.6 Peak-to-average power ratio
19.7 Intercarrier interference
19.8 Adaptive modulation and capacity
19.9 Multiple access - OFDMA
19.10 Multicarrier code division multiple access
19.11 Single-carrier modulation with frequency-domain equalization Further reading
20 Multiantenna systems
20.1 Smart antennas
20.2 Multiple-input multiple-output systems
20.3 Multiuser MIMO Further reading
PART V STANDARDIZED WIRELESS SYSTEMS
21. Cognitive radio
21.1 Problem description
21.2 Cognitive transceiver architecture
21.3 Principles of interweaving
21.4 Spectrum sensing
21.5 Spectrum management
21.6 Spectrum sharing
21.7 Overlay
21.8 Underlay Hierarchical Access - Ultrawideband Communications
21.9 Appendix : Further reading
22- Relaying Multi-hop, and Cooperative Communications
22.1 Introduction and motivation
22.2 Fundamentals of relaying
22.3 Relaying with multiple and parallel relays
22.4 Routing and resource allocation in multi-hop network
22.5 Routing and resource allocation in collaborative networks
22.6 Applications
22.7 Network coding Further reading
23. Video Calling
23.1 Introduction
23.2 Transform and Quantization
23.3 Prediction
23.4 Entropy Coding
23.5 Video Coding Standards
23.6 Layered Video Coding
23.7 Error Control
23.8 Video Streaming Further Reading
24 GSM - Global System for Mobile communications
24.1 Historical overview
24.2 System overview
24.3 The air interface
24.4 Logical and physical channels
24.5 Synchronization
24.6 Coding
24.7 Equalizer
24.8 Circuit-switched data transmission
24.10 Services and billing
24.11 Appendices Further Reading
25 IS-95 and CDMA 2000
25.1 Historical overview
25.2 System overview
25.3 Air interface
25.4 Coding
25.5 Spreading and modulation
25.6 Logical and physical channels
25.7Handover
25.8 Appendices Further reading
26 WCDMA/UMTS
26.1 Historical overview
26.2 System overview
26.3 Air interface
26.4 Physical and logical channels
26.5 Speech coding, multiplexing, and channel coding
26.6 Spreading and modulation
26.7 Physical-layer procedures
26.8 Appendix Further reading 27. 3GPP Long term Evolution
27.1 Introduction
27.2 System Overview
27.3 Physical layer
27.4 Logical and physical channels
27.5 Physical layer procedures
27.6 Glossary for LTE Further reading
28. WiMax / IEEE 802.16
28.1 Introduction
28.2 System Overview
28.3 Modulation coding
28.4 Logical and physical channels
28.5 Multiple-antenna techniques
28.6 Link Control
28.7 Glossary for Wimax
28.8 References
29 Wireless Local Area Networks
29.1 Introduction
29.2
802.11a/g - Orthogonal-frequency-division-multiplexing-based local area networks
29.3 IEEE 802.11b - Wireless Fidelity
29.4 Packet transmission in 802.11 wireless local area networks
29.5 Alternative wireless local area networks and future developments
29.6 Appendix Further reading 30 Exercises Peter Almers, Ove Edfors, Fredrik Floren, Anders Johanson, Johan Karedal, Buon Kiong Lau, Andreas F. Molisch, Andre Stranne, Fredrik Tufvesson, and Shurjeel Wyne
30.1 Chapter 1: Applications and requirements of wireless services
30.2 Chapter 2: Technical challenges of wireless communications
30.3 Chapter 3: Noise-and interference-limited systems
30.4 Chapter 4: Propagation mechanisms
30.5 Chapter 5: Statistical description of the wireless channel
30.6 Chapter 6: Wideband and directional channel characterization
30.7 Chapter 7: Channel models
30.8 Chapter 8: Channel sounding
30.9 Chapter 9: Antennas
30.10 Chapter 10: Structure of a wireless communication link
30.11 Chapter 11: Modulation formats
30.12 Chapter 12: Demodulation
30.13 Chapter 13: Diversity
30.14 Chapter 14: Channel coding
30.15 Chapter 15: Speech coding
30.16 Chapter 16: Equalizers
30.17 Chapter 17: Multiple access and the cellular principle
30.18 Chapter 18: Spread spectrum systems
30.19 Chapter 19: Orthogonal frequency division multiplexing (OFDM)
30.20 Chapter 20: Multiantenna systems
30.21 Chapter 21: Cognitive radio
30.22 Chapter 22: Relaying Multi-hop, and Cooperative Communications
30.23 Chapter 23: Video coding
30.24 Chapter 24: Wireless Local Area Networks
30.25 Chapter 25 : IS-95 and CDMA 2000
30.26 Chapter 26: WCDMA/UMTS
30.27 Chapter 27: 3GPP Long term Evolution
30.28. Chapter 28 : WiMax / IEEE 802.16
30.29 Chapter 29: Wireless Local Area Networks
30.30 Chapter 30: Exercises References Index
- Preface List of abbreviations
- List of symbols
PART I INTRODUCTION
1 Applications and requirements of wireless services
1.1 History
1.2 Types of services
1.3 Requirements for the services
1.4 Economic and social aspects
2 Technical challenges of wireless communications
2.1 Multipath propagation
2.2 Spectrum limitations
2.3 Limited energy
2.4 User mobility 3 Noise-and interference-limited systems
3.1 Introduction
3.2 Noise-limited systems
3.3 Interference-limited systems
PART II WIRELESS PROPAGATION CHANNELS
4 Propagation mechanisms
4.1 Free space attenuation
4.2 Reflection and transmission
4.3 Diffraction
4.4 Scattering by rough surfaces
4.5 Waveguiding
4.6 Appendices Further reading
5 Statistical description of the wireless channel
5.1 Introduction
5.2 The time-invariant two-path model
5.3 The time-variant two-path model
5.4 Small-scale fading without a dominant component
5.5 Small-scale fading with a dominant component
5.6 Doppler spectra and temporal channel variations
5.7 Temporal dependence of fading
5.8 Large-scale fading
5.9 Appendices
6 Wideband and directional channel characterization
6.1 Introduction
6.2 The causes of delay dispersion
6.3 System-theoretic description of wireless channels
6.4 The WSSUS model
6.5 Condensed parameters
6.6 Ultrawideband channels
6.7 Directional description
6.8 Appendices
7 Channel models
7.1 Introduction
7.2 Narrowband models
7.3 Wideband models
7.4 Directional models
7.5 Deterministic channel-modeling methods
7.6 Appendices Further Reading
8 Channel sounding
8.1 Introduction
8.2 Time domain measurements
8.3 Frequency domain analysis
8.4 Modified measurement methods
8.5 Directionally resolved measurements
8.6 Appendix Further reading
9 Antennas
9.1 Introduction
9.2 Antennas for mobile stations
9.3 Antennas for base stations Further reading
PART III TRANSCEIVERS ANDSIGNAL PROCESSING
10 Structure of a wireless communication link
10.1 Transceiver block structure
10.2 Simplified models Further reading
11 Modulation formats
11.1 Introduction
11.2 Basics
11.3 Important modulation formats
11.4 Appendix Further reading
12 Demodulation
12.1 Demodulator structure and error probability in additive-white-Gaussian-noise channels
12.2 Error probability in flat-fading channels
12.3 Error probability in delay-and frequency-dispersive fading channels Further reading
13 Diversity
13.1 Introduction
13.2 Microdiversity
13.3 Macrodiversity and simulcast
13.4 Combination of signals
13.5 Error probability in fading channels with diversity reception
13.6 Transmit diversity
13.7 Appendix Further reading
14 Channel coding
14.1 Fundamentals of coding and information theory
14.2 Block codes
14.3 Convolutional codes
14.4 Trellis-coded modulation
14.5 Bit interleaved coded modulation (BICM)
14.6 Turbocodes
14.7 Low-density parity check codes
14.8 Coding for fading channel
14.9 Information-theoretic performance limits of fading channels
14.10 Appendice Further reading
15 Speech coding
15.1 Introduction
15.2 The sound of speech
15.5 From speech transmission to acoustic telepresence Further reading
16 Equalizers
16.1 Introduction
16.2 Linear equalizers
16.3 Decision feedback equalizers
16.4 Maximum-likelihood sequence estimation - Viterbi detector
16.5 Comparison of equalizer structures
16.6 Fractionally spaced equalizers
16.7 Blind equalizers
16.8 Appendices Further reading
PART IV MULTIPLE ACCESS ANDADVANCEDTRANSCEIVER SCHEMES
17 Multiple access and the cellular principle
17.1 Introduction
17.2 Frequency division multiple access
17.3 Time division multiple access
17.4 Packet radio
17.5 Duplexing
17.6 Principles of cellular networks
17.7 Appendix Further reading
18 Spread spectrum systems
18.1 Frequency-hopped multiple access
18.2 Code division multiple access
18.3 Cellular code-division-multiple-access systems
18.4 Multiuser detection
18.5 Time-hopping impulse radio Further reading
19 Orthogonal frequency division multiplexing (OFDM)
19.1 Introduction
19.2 Principle of orthogonal frequency division multiplexing
19.3 Implementation of transceivers
19.4 Frequency-selective channels
19.5 Channel estimation
19.6 Peak-to-average power ratio
19.7 Intercarrier interference
19.8 Adaptive modulation and capacity
19.9 Multiple access - OFDMA
19.10 Multicarrier code division multiple access
19.11 Single-carrier modulation with frequency-domain equalization Further reading
20 Multiantenna systems
20.1 Smart antennas
20.2 Multiple-input multiple-output systems
20.3 Multiuser MIMO Further reading
PART V STANDARDIZED WIRELESS SYSTEMS
21. Cognitive radio
21.1 Problem description
21.2 Cognitive transceiver architecture
21.3 Principles of interweaving
21.4 Spectrum sensing
21.5 Spectrum management
21.6 Spectrum sharing
21.7 Overlay
21.8 Underlay Hierarchical Access - Ultrawideband Communications
21.9 Appendix : Further reading
22- Relaying Multi-hop, and Cooperative Communications
22.1 Introduction and motivation
22.2 Fundamentals of relaying
22.3 Relaying with multiple and parallel relays
22.4 Routing and resource allocation in multi-hop network
22.5 Routing and resource allocation in collaborative networks
22.6 Applications
22.7 Network coding Further reading
23. Video Calling
23.1 Introduction
23.2 Transform and Quantization
23.3 Prediction
23.4 Entropy Coding
23.5 Video Coding Standards
23.6 Layered Video Coding
23.7 Error Control
23.8 Video Streaming Further Reading
24 GSM - Global System for Mobile communications
24.1 Historical overview
24.2 System overview
24.3 The air interface
24.4 Logical and physical channels
24.5 Synchronization
24.6 Coding
24.7 Equalizer
24.8 Circuit-switched data transmission
24.10 Services and billing
24.11 Appendices Further Reading
25 IS-95 and CDMA 2000
25.1 Historical overview
25.2 System overview
25.3 Air interface
25.4 Coding
25.5 Spreading and modulation
25.6 Logical and physical channels
25.7Handover
25.8 Appendices Further reading
26 WCDMA/UMTS
26.1 Historical overview
26.2 System overview
26.3 Air interface
26.4 Physical and logical channels
26.5 Speech coding, multiplexing, and channel coding
26.6 Spreading and modulation
26.7 Physical-layer procedures
26.8 Appendix Further reading 27. 3GPP Long term Evolution
27.1 Introduction
27.2 System Overview
27.3 Physical layer
27.4 Logical and physical channels
27.5 Physical layer procedures
27.6 Glossary for LTE Further reading
28. WiMax / IEEE 802.16
28.1 Introduction
28.2 System Overview
28.3 Modulation coding
28.4 Logical and physical channels
28.5 Multiple-antenna techniques
28.6 Link Control
28.7 Glossary for Wimax
28.8 References
29 Wireless Local Area Networks
29.1 Introduction
29.2
802.11a/g - Orthogonal-frequency-division-multiplexing-based local area networks
29.3 IEEE 802.11b - Wireless Fidelity
29.4 Packet transmission in 802.11 wireless local area networks
29.5 Alternative wireless local area networks and future developments
29.6 Appendix Further reading 30 Exercises Peter Almers, Ove Edfors, Fredrik Floren, Anders Johanson, Johan Karedal, Buon Kiong Lau, Andreas F. Molisch, Andre Stranne, Fredrik Tufvesson, and Shurjeel Wyne
30.1 Chapter 1: Applications and requirements of wireless services
30.2 Chapter 2: Technical challenges of wireless communications
30.3 Chapter 3: Noise-and interference-limited systems
30.4 Chapter 4: Propagation mechanisms
30.5 Chapter 5: Statistical description of the wireless channel
30.6 Chapter 6: Wideband and directional channel characterization
30.7 Chapter 7: Channel models
30.8 Chapter 8: Channel sounding
30.9 Chapter 9: Antennas
30.10 Chapter 10: Structure of a wireless communication link
30.11 Chapter 11: Modulation formats
30.12 Chapter 12: Demodulation
30.13 Chapter 13: Diversity
30.14 Chapter 14: Channel coding
30.15 Chapter 15: Speech coding
30.16 Chapter 16: Equalizers
30.17 Chapter 17: Multiple access and the cellular principle
30.18 Chapter 18: Spread spectrum systems
30.19 Chapter 19: Orthogonal frequency division multiplexing (OFDM)
30.20 Chapter 20: Multiantenna systems
30.21 Chapter 21: Cognitive radio
30.22 Chapter 22: Relaying Multi-hop, and Cooperative Communications
30.23 Chapter 23: Video coding
30.24 Chapter 24: Wireless Local Area Networks
30.25 Chapter 25 : IS-95 and CDMA 2000
30.26 Chapter 26: WCDMA/UMTS
30.27 Chapter 27: 3GPP Long term Evolution
30.28. Chapter 28 : WiMax / IEEE 802.16
30.29 Chapter 29: Wireless Local Area Networks
30.30 Chapter 30: Exercises References Index
- List of symbols
PART I INTRODUCTION
1 Applications and requirements of wireless services
1.1 History
1.2 Types of services
1.3 Requirements for the services
1.4 Economic and social aspects
2 Technical challenges of wireless communications
2.1 Multipath propagation
2.2 Spectrum limitations
2.3 Limited energy
2.4 User mobility 3 Noise-and interference-limited systems
3.1 Introduction
3.2 Noise-limited systems
3.3 Interference-limited systems
PART II WIRELESS PROPAGATION CHANNELS
4 Propagation mechanisms
4.1 Free space attenuation
4.2 Reflection and transmission
4.3 Diffraction
4.4 Scattering by rough surfaces
4.5 Waveguiding
4.6 Appendices Further reading
5 Statistical description of the wireless channel
5.1 Introduction
5.2 The time-invariant two-path model
5.3 The time-variant two-path model
5.4 Small-scale fading without a dominant component
5.5 Small-scale fading with a dominant component
5.6 Doppler spectra and temporal channel variations
5.7 Temporal dependence of fading
5.8 Large-scale fading
5.9 Appendices
6 Wideband and directional channel characterization
6.1 Introduction
6.2 The causes of delay dispersion
6.3 System-theoretic description of wireless channels
6.4 The WSSUS model
6.5 Condensed parameters
6.6 Ultrawideband channels
6.7 Directional description
6.8 Appendices
7 Channel models
7.1 Introduction
7.2 Narrowband models
7.3 Wideband models
7.4 Directional models
7.5 Deterministic channel-modeling methods
7.6 Appendices Further Reading
8 Channel sounding
8.1 Introduction
8.2 Time domain measurements
8.3 Frequency domain analysis
8.4 Modified measurement methods
8.5 Directionally resolved measurements
8.6 Appendix Further reading
9 Antennas
9.1 Introduction
9.2 Antennas for mobile stations
9.3 Antennas for base stations Further reading
PART III TRANSCEIVERS ANDSIGNAL PROCESSING
10 Structure of a wireless communication link
10.1 Transceiver block structure
10.2 Simplified models Further reading
11 Modulation formats
11.1 Introduction
11.2 Basics
11.3 Important modulation formats
11.4 Appendix Further reading
12 Demodulation
12.1 Demodulator structure and error probability in additive-white-Gaussian-noise channels
12.2 Error probability in flat-fading channels
12.3 Error probability in delay-and frequency-dispersive fading channels Further reading
13 Diversity
13.1 Introduction
13.2 Microdiversity
13.3 Macrodiversity and simulcast
13.4 Combination of signals
13.5 Error probability in fading channels with diversity reception
13.6 Transmit diversity
13.7 Appendix Further reading
14 Channel coding
14.1 Fundamentals of coding and information theory
14.2 Block codes
14.3 Convolutional codes
14.4 Trellis-coded modulation
14.5 Bit interleaved coded modulation (BICM)
14.6 Turbocodes
14.7 Low-density parity check codes
14.8 Coding for fading channel
14.9 Information-theoretic performance limits of fading channels
14.10 Appendice Further reading
15 Speech coding
15.1 Introduction
15.2 The sound of speech
15.5 From speech transmission to acoustic telepresence Further reading
16 Equalizers
16.1 Introduction
16.2 Linear equalizers
16.3 Decision feedback equalizers
16.4 Maximum-likelihood sequence estimation - Viterbi detector
16.5 Comparison of equalizer structures
16.6 Fractionally spaced equalizers
16.7 Blind equalizers
16.8 Appendices Further reading
PART IV MULTIPLE ACCESS ANDADVANCEDTRANSCEIVER SCHEMES
17 Multiple access and the cellular principle
17.1 Introduction
17.2 Frequency division multiple access
17.3 Time division multiple access
17.4 Packet radio
17.5 Duplexing
17.6 Principles of cellular networks
17.7 Appendix Further reading
18 Spread spectrum systems
18.1 Frequency-hopped multiple access
18.2 Code division multiple access
18.3 Cellular code-division-multiple-access systems
18.4 Multiuser detection
18.5 Time-hopping impulse radio Further reading
19 Orthogonal frequency division multiplexing (OFDM)
19.1 Introduction
19.2 Principle of orthogonal frequency division multiplexing
19.3 Implementation of transceivers
19.4 Frequency-selective channels
19.5 Channel estimation
19.6 Peak-to-average power ratio
19.7 Intercarrier interference
19.8 Adaptive modulation and capacity
19.9 Multiple access - OFDMA
19.10 Multicarrier code division multiple access
19.11 Single-carrier modulation with frequency-domain equalization Further reading
20 Multiantenna systems
20.1 Smart antennas
20.2 Multiple-input multiple-output systems
20.3 Multiuser MIMO Further reading
PART V STANDARDIZED WIRELESS SYSTEMS
21. Cognitive radio
21.1 Problem description
21.2 Cognitive transceiver architecture
21.3 Principles of interweaving
21.4 Spectrum sensing
21.5 Spectrum management
21.6 Spectrum sharing
21.7 Overlay
21.8 Underlay Hierarchical Access - Ultrawideband Communications
21.9 Appendix : Further reading
22- Relaying Multi-hop, and Cooperative Communications
22.1 Introduction and motivation
22.2 Fundamentals of relaying
22.3 Relaying with multiple and parallel relays
22.4 Routing and resource allocation in multi-hop network
22.5 Routing and resource allocation in collaborative networks
22.6 Applications
22.7 Network coding Further reading
23. Video Calling
23.1 Introduction
23.2 Transform and Quantization
23.3 Prediction
23.4 Entropy Coding
23.5 Video Coding Standards
23.6 Layered Video Coding
23.7 Error Control
23.8 Video Streaming Further Reading
24 GSM - Global System for Mobile communications
24.1 Historical overview
24.2 System overview
24.3 The air interface
24.4 Logical and physical channels
24.5 Synchronization
24.6 Coding
24.7 Equalizer
24.8 Circuit-switched data transmission
24.10 Services and billing
24.11 Appendices Further Reading
25 IS-95 and CDMA 2000
25.1 Historical overview
25.2 System overview
25.3 Air interface
25.4 Coding
25.5 Spreading and modulation
25.6 Logical and physical channels
25.7Handover
25.8 Appendices Further reading
26 WCDMA/UMTS
26.1 Historical overview
26.2 System overview
26.3 Air interface
26.4 Physical and logical channels
26.5 Speech coding, multiplexing, and channel coding
26.6 Spreading and modulation
26.7 Physical-layer procedures
26.8 Appendix Further reading 27. 3GPP Long term Evolution
27.1 Introduction
27.2 System Overview
27.3 Physical layer
27.4 Logical and physical channels
27.5 Physical layer procedures
27.6 Glossary for LTE Further reading
28. WiMax / IEEE 802.16
28.1 Introduction
28.2 System Overview
28.3 Modulation coding
28.4 Logical and physical channels
28.5 Multiple-antenna techniques
28.6 Link Control
28.7 Glossary for Wimax
28.8 References
29 Wireless Local Area Networks
29.1 Introduction
29.2
802.11a/g - Orthogonal-frequency-division-multiplexing-based local area networks
29.3 IEEE 802.11b - Wireless Fidelity
29.4 Packet transmission in 802.11 wireless local area networks
29.5 Alternative wireless local area networks and future developments
29.6 Appendix Further reading 30 Exercises Peter Almers, Ove Edfors, Fredrik Floren, Anders Johanson, Johan Karedal, Buon Kiong Lau, Andreas F. Molisch, Andre Stranne, Fredrik Tufvesson, and Shurjeel Wyne
30.1 Chapter 1: Applications and requirements of wireless services
30.2 Chapter 2: Technical challenges of wireless communications
30.3 Chapter 3: Noise-and interference-limited systems
30.4 Chapter 4: Propagation mechanisms
30.5 Chapter 5: Statistical description of the wireless channel
30.6 Chapter 6: Wideband and directional channel characterization
30.7 Chapter 7: Channel models
30.8 Chapter 8: Channel sounding
30.9 Chapter 9: Antennas
30.10 Chapter 10: Structure of a wireless communication link
30.11 Chapter 11: Modulation formats
30.12 Chapter 12: Demodulation
30.13 Chapter 13: Diversity
30.14 Chapter 14: Channel coding
30.15 Chapter 15: Speech coding
30.16 Chapter 16: Equalizers
30.17 Chapter 17: Multiple access and the cellular principle
30.18 Chapter 18: Spread spectrum systems
30.19 Chapter 19: Orthogonal frequency division multiplexing (OFDM)
30.20 Chapter 20: Multiantenna systems
30.21 Chapter 21: Cognitive radio
30.22 Chapter 22: Relaying Multi-hop, and Cooperative Communications
30.23 Chapter 23: Video coding
30.24 Chapter 24: Wireless Local Area Networks
30.25 Chapter 25 : IS-95 and CDMA 2000
30.26 Chapter 26: WCDMA/UMTS
30.27 Chapter 27: 3GPP Long term Evolution
30.28. Chapter 28 : WiMax / IEEE 802.16
30.29 Chapter 29: Wireless Local Area Networks
30.30 Chapter 30: Exercises References Index