| Description |
1 online resource (746 pages) |
| Contents |
Cover; Title Page; Copyright; Contents; Preface; List of Acronyms; Chapter 1 Introduction; 1.1 Structure of a Digital Communication System; 1.2 Plan of the Book; 1.3 Further Reading; Part I Modulation and Detection; Chapter 2 Wireless Channels; 2.1 Introduction; 2.2 Mathematical Description of SISO Wireless Channels; 2.2.1 Input-Output Characterization of a SISO Wireless Channel; 2.2.2 Statistical Characterization of a SISO Wireless Channel; 2.2.3 Reduced-Complexity Statistical Models for SISO Channels; 2.3 Mathematical Description and Modeling of MIMO Wireless Channels |
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2.3.1 Input-Output Characterization of a MIMO Wireless Channel2.3.2 Statistical Characterization of a MIMO Wireless Channel; 2.3.3 Reduced-Complexity Statistical Modeling of MIMO Channels; 2.4 Historical Notes; 2.4.1 Large-Scale Fading Models; 2.4.2 Small-Scale Fading Models; 2.5 Further Reading; Chapter 3 Digital Modulation Techniques; 3.1 Introduction; 3.2 General Structure of a Digital Modulator; 3.3 Representation of Digital Modulated Waveforms on an Orthonormal Basis; 3.4 Bandwidth of Digital Modulations; 3.5 Passband PAM; 3.5.1 Signal Model; 3.5.2 Constellation Selection |
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3.5.3 Data Block Transmission with Passband PAM Signals for Frequency-Domain Equalization3.5.4 Power Spectral Density of Linear Modulations; 3.6 Continuous Phase Modulation; 3.6.1 Signal Model; 3.6.2 Full-Response CPM; 3.6.3 Partial-Response CPM; 3.6.4 Multi-h CPM; 3.6.5 Alternative Representations of CPM Signals; 3.6.6 Data Block Transmission with CPM Signals for Frequency-Domain Equalization; 3.6.7 Power Spectral Density of Continuous Phase Modulations; 3.7 OFDM; 3.7.1 Introduction; 3.7.2 OFDM Signal Model; 3.7.3 Power Spectral Density of OFDM; 3.7.4 The PAPR Problem in OFDM |
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3.8 Lattice-Based Multidimensional Modulations3.8.1 Lattices: Basic Definitions and Properties; 3.8.2 Elementary Constructions of Lattices; 3.9 Spectral Properties of a Digital Modulation at the Output of a Wireless Channel; 3.10 Historical Notes; 3.10.1 Passband PAM Signaling; 3.10.2 CPM Signaling; 3.10.3 MCM Signaling; 3.10.4 Power Spectral Density of Digital Modulations; 3.11 Further Reading; Chapter 4 Detection of Digital Signals over Wireless Channels: Decision Rules; 4.1 Introduction |
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4.2 Wireless Digital Communication Systems: Modeling, Receiver Architecture and Discretization of the Received Signal4.2.1 General Model of a Wireless Communication System; 4.2.2 Receiver Architectures; 4.3 Optimum Detection in a Vector Communication System; 4.3.1 Description of a Vector Communication System; 4.3.2 Detection Strategies and Error Probabilities; 4.3.3 MAP and ML Detection Strategies; 4.3.4 Diversity Reception and Some Useful Theorems about Data Detection; 4.4 Mathematical Models for the Receiver Vector; 4.4.1 Extraction of a Set of Sufficient Statistics from the Received Signal |
| Summary |
This book introduces the theoretical elements at the basis of various classes of algorithms commonly employed in the physical layer (and, in part, in MAC layer) of wireless communications systems. It focuses on single user systems, so ignoring multiple access techniques. Moreover, emphasis is put on single-input single-output (SISO) systems, although some relevant topics about multiple-input multiple-output (MIMO) systems are also illustrated.Comprehensive wireless specific guide to algorithmic techniquesProvides a detailed analysis of channel equalization and channel coding for wi |
| Notes |
4.4.2 Received Vector for PAM Signaling |
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Print version record |
| Subject |
Wireless communication systems -- Mathematics
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Algebra.
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algebra.
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Algebra
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| Form |
Electronic book
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| Author |
Taylor, Desmond P
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Colavolpe, Giulio
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Pancaldi, Fabrizio
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Martin, Philippa A
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| ISBN |
9781118576595 |
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1118576594 |
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9780470512395 |
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0470512393 |
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