Chichester, England : , : Wiley, , 2016

2016

1-119-11328-8

1-119-11326-1

1-119-11327-X

1 online resource (580 p.)

New York Academy of Sciences

TEC061000

621.384

Wireless communication systems

Inglese

Description based upon print version of record.

Includes bibliographical references at the end of each chapters and index.

Title Page; Copyright; Table of Contents; Dedication; Preface; Acknowledgments; Chapter 1: Introduction; 1.1 Resources for wireless communications; 1.2 Shannon's theory; 1.3 Three challenges; 1.4 Digital modulation versus coding; 1.5 Philosophy to combat interference; 1.6 Evolution of processing strategy; 1.7 Philosophy to exploit two-dimensional random fields; 1.8 Cellular: Concept, Evolution, and 5G; 1.9 The structure of this book; 1.10 Repeatedly used abbreviations and math symbols; Problems; References; Chapter 2: Mathematical Background; 2.1 Introduction

2.2 Congruence mapping and signal spaces2.3 Estimation methods; 2.4 Commonly used distributions in wireless; 2.5 The calculus of variations; 2.6 Two inequalities for optimization; 2.7 Q-function; 2.8 The CHF method and its skilful applications; 2.9 Matrix operations and differentiation; 2.10 Additional reading; Problems; References; Chapter 3: Channel Characterization; 3.1 Introduction; 3.2 Large-scale propagation loss; 3.3 Lognormal shadowing; 3.4 Multipath characterization for local behavior; 3.5 Composite model to incorporate multipath and shadowing

3.6 Example to illustrate the use of various models3.7 Generation of correlated fading channels; 3.8 Summary; 3.9 Additional reading;

Problems; References; Chapter 4: Digital Modulation; 4.1 Introduction; 4.2 Signals and signal space; 4.3 Optimal MAP and ML receivers; 4.4 Detection of two arbitrary waveforms; 4.5 MPSK; 4.6 M-ary QAM; 4.7 Noncoherent scheme-differential MPSK; 4.8 MFSK; 4.9 Noncoherent MFSK; 4.10 Bit error probability versus symbol error probability; 4.11 Spectral efficiency; 4.12 Summary of symbol error probability for various schemes; 4.13 Additional reading; Problems

ReferencesChapter 5: Minimum Shift Keying; 5.1 Introduction; 5.2 MSK; 5.3 de Buda's approach; 5.4 Properties of MSK signals; 5.5 Understanding MSK; 5.6 Signal space; 5.7 MSK power spectrum; 5.8 Alternative scheme-differential encoder; 5.9 Transceivers for MSK signals; 5.10 Gaussian-shaped MSK; 5.11 Massey's approach to MSK; 5.12 Summary; Problems; References; Chapter 6: Channel Coding; 6.1 Introduction and philosophical discussion; 6.2 Preliminary of Galois fields; 6.3 Linear block codes; 6.4 Cyclic codes; 6.5 Golay code; 6.6 BCH codes; 6.7 Convolutional codes; 6.8 Trellis-coded modulation

6.9 SummaryProblems; References; Chapter 7: Diversity Techniques; 7.1 Introduction; 7.2 Idea behind diversity; 7.3 Structures of various diversity combiners; 7.4 PDFs of output SNR; 7.5 Average SNR comparison for various schemes; 7.6 Methods for error performance analysis; 7.7 Error probability of MRC; 7.8 Error probability of EGC; 7.9 Average error performance of SC in Rayleigh fading; 7.10 Performance of diversity MDPSK systems; 7.11 Noncoherent MFSK with diversity reception; 7.12 Summary; Problems; References; Chapter 8: Processing Strategies for Wireless Systems; 8.1 Communication problem

8.2 Traditional strategy

"Provides the reader with an overall picture of wireless communications, carefully expounds its technical details, not only covering a variety of main results and conclusions but also revealing the methodology used for their derivations"--