| Titre : | Fundamentals of wireless communication | | Type de document : | texte imprimé | | Auteurs : | David Tse, Auteur ; Pramod Viswanath, Auteur | | Editeur : | Cambridge, New Yok, Melbourne : Cambridge University Press | | Année de publication : | 2005 | | Importance : | 564 p. | | Présentation : | couv. ill. en en coul | | Format : | 25,5 cm. | | ISBN/ISSN/EAN : | 978-0-521-84527-4 | | Langues : | Anglais (eng) | | Catégories : | TELECOMMUNICATION
| | Index. décimale : | 28-05 Théorie de communications et systèmes | | Résumé : | The past decade has seen many advances in physical layer wireless communication theory and their implementation in wireless systems. This textbook takes a unified view of the fundamentals of wireless communication and explains the web of concepts underpinning these advances at a level accessible to an audience with a basic background in probability and digital communication. Topics covered include MIMO (multi-input, multi-output) communication, space-time coding, opportunistic communication, OFDM and CDMA. The concepts are illustrated using many examples from real wireless systems such as GSM, IS-95 (CDMA), IS-856 (1 x EV-DO), Flash OFDM and UWB (ultra-wideband). Particular emphasis is placed on the interplay between concepts and their implementation in real systems. An abundant supply of exercises and figures reinforce the material in the text. This book is intended for use on graduate courses in electrical and computer engineering and will also be of great interest to practising engineers. | | Note de contenu : | Contents
1 Introduction
2 The wireless channel
2.1 Physical modeling for wireless channels
2.2 Input/output model of the wireless channel
2.3 Time and frequency coherence
2.4 Statistical channel models
3 Point-to-point communication: detection, diversity, and channel uncertainty
3.1 Detection in a Rayleigh fading channel
3.2 Time diversity
3.3 Antenna diversity
3.4 Frequency diversity
3.5 Impact of channel uncertainty
4 Cellular systems: multiple access and interference management
4.1 Introduction
4.2 Narrowband cellular systems
4.3 Wideband systems: CDMA
4.4 Wideband systems: OFDM
5 Capacity of wireless channels
5.1 AWGN channel capacity
5.2 Resources of the AWGN channel
5.3 Linear time-invariant Gaussian channels
5.4 Capacity of fading channels
6 Multiuser capacity and opportunistic communication
6.1 Uplink AWGN channel
6.2 Downlink AWGN channel
6.3 Uplink fading channel
6.4 Downlink fading channel
6.5 Frequency-selective fading channels
6.6 Multiuser diversity
6.7 Multiuser diversity: system aspects
7 MIMO I: spatial multiplexing and channel modeling
7.1 Multiplexing capability of deterministic MIMO channels
7.2 Physical modeling of MIMO channels
7.3 Modeling of MIMO fading channels
8 MIMO II: capacity and multiplexing architectures
8.1 The V-BLAST architecture
8.2 Fast fading MIMO channel
8.3 Receiver architectures
8.4 Slow fading MIMO channel
8.5 D-BLAST: an outage-optimal architecture
9 MIMO III: diversity–multiplexing tradeoff and universal space-time codes
9.1 Diversity–multiplexing tradeoff
9.2 Universal code design for optimal diversity–multiplexing tradeoff
10 MIMO IV: multiuser communication
10.1 Uplink with multiple receive antennas
10.2 MIMO uplink
10.3 Downlink with multiple transmit antennas
10.4 MIMO downlink
10.5 Multiple antennas in cellular networks: a system view
Appendix A Detection and estimation in additive Gaussian noise
A.1 Gaussian random variables
A.2 Detection in Gaussian noise
A.3 Estimation in Gaussian noise
Appendix B Information theory from first principles
B.1 Discrete memoryless channels
B.2 Entropy, conditional entropy and mutual information
B.3 Noisy channel coding theorem
B.4 Formal derivation of AWGN capacity
B.5 Sphere-packing interpretation
B.6 Time-invariant parallel channel
B.7 Capacity of the fast fading channel
B.8 Outage formulation
B.9 Multiple access channel
B.10 Exercises
Exercises References Index |
Fundamentals of wireless communication [texte imprimé] / David Tse, Auteur ; Pramod Viswanath, Auteur . - Cambridge, New Yok, Melbourne : Cambridge University Press, 2005 . - 564 p. : couv. ill. en en coul ; 25,5 cm. ISBN : 978-0-521-84527-4 Langues : Anglais ( eng) | Catégories : | TELECOMMUNICATION
| | Index. décimale : | 28-05 Théorie de communications et systèmes | | Résumé : | The past decade has seen many advances in physical layer wireless communication theory and their implementation in wireless systems. This textbook takes a unified view of the fundamentals of wireless communication and explains the web of concepts underpinning these advances at a level accessible to an audience with a basic background in probability and digital communication. Topics covered include MIMO (multi-input, multi-output) communication, space-time coding, opportunistic communication, OFDM and CDMA. The concepts are illustrated using many examples from real wireless systems such as GSM, IS-95 (CDMA), IS-856 (1 x EV-DO), Flash OFDM and UWB (ultra-wideband). Particular emphasis is placed on the interplay between concepts and their implementation in real systems. An abundant supply of exercises and figures reinforce the material in the text. This book is intended for use on graduate courses in electrical and computer engineering and will also be of great interest to practising engineers. | | Note de contenu : | Contents
1 Introduction
2 The wireless channel
2.1 Physical modeling for wireless channels
2.2 Input/output model of the wireless channel
2.3 Time and frequency coherence
2.4 Statistical channel models
3 Point-to-point communication: detection, diversity, and channel uncertainty
3.1 Detection in a Rayleigh fading channel
3.2 Time diversity
3.3 Antenna diversity
3.4 Frequency diversity
3.5 Impact of channel uncertainty
4 Cellular systems: multiple access and interference management
4.1 Introduction
4.2 Narrowband cellular systems
4.3 Wideband systems: CDMA
4.4 Wideband systems: OFDM
5 Capacity of wireless channels
5.1 AWGN channel capacity
5.2 Resources of the AWGN channel
5.3 Linear time-invariant Gaussian channels
5.4 Capacity of fading channels
6 Multiuser capacity and opportunistic communication
6.1 Uplink AWGN channel
6.2 Downlink AWGN channel
6.3 Uplink fading channel
6.4 Downlink fading channel
6.5 Frequency-selective fading channels
6.6 Multiuser diversity
6.7 Multiuser diversity: system aspects
7 MIMO I: spatial multiplexing and channel modeling
7.1 Multiplexing capability of deterministic MIMO channels
7.2 Physical modeling of MIMO channels
7.3 Modeling of MIMO fading channels
8 MIMO II: capacity and multiplexing architectures
8.1 The V-BLAST architecture
8.2 Fast fading MIMO channel
8.3 Receiver architectures
8.4 Slow fading MIMO channel
8.5 D-BLAST: an outage-optimal architecture
9 MIMO III: diversity–multiplexing tradeoff and universal space-time codes
9.1 Diversity–multiplexing tradeoff
9.2 Universal code design for optimal diversity–multiplexing tradeoff
10 MIMO IV: multiuser communication
10.1 Uplink with multiple receive antennas
10.2 MIMO uplink
10.3 Downlink with multiple transmit antennas
10.4 MIMO downlink
10.5 Multiple antennas in cellular networks: a system view
Appendix A Detection and estimation in additive Gaussian noise
A.1 Gaussian random variables
A.2 Detection in Gaussian noise
A.3 Estimation in Gaussian noise
Appendix B Information theory from first principles
B.1 Discrete memoryless channels
B.2 Entropy, conditional entropy and mutual information
B.3 Noisy channel coding theorem
B.4 Formal derivation of AWGN capacity
B.5 Sphere-packing interpretation
B.6 Time-invariant parallel channel
B.7 Capacity of the fast fading channel
B.8 Outage formulation
B.9 Multiple access channel
B.10 Exercises
Exercises References Index |
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