Introduction to digital wireless communications / Hong-Chuan Yang.
2017
TK5103.2
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Details
Title
Introduction to digital wireless communications / Hong-Chuan Yang.
ISBN
9781785611612 (electronic bk.)
1785611615 (electronic bk.)
1523112859
9781523112852
9781785611605
1785611607
1785611615 (electronic bk.)
1523112859
9781523112852
9781785611605
1785611607
Published
London, United Kingdom : The Institution of Engineering and Technology, 2017.
Language
English
Description
1 online resource : illustrations
Call Number
TK5103.2
System Control No.
(OCoLC)1007839787
Summary
This book provides an efficient introduction to fundamental and advanced digital transmission technologies in current and future wireless communication systems.
Bibliography, etc. Note
Includes bibliographical references and index.
Formatted Contents Note
Contents
Preface
1. Introduction to wireless transmission
1.1 Overview of wireless communications
1.2 Spectrum access
1.2.1 Multiple access
1.2.2 Random access
1.3 Duplexing
1.4 Digital wireless transmissions
1.5 Further readings
Problems
Bibliography
2. Large-scale channel effects
2.1 Wireless communication channels
2.2 Path loss models
2.3 Interference analysis for cellular systems
2.3.1 Cellular concept
2.3.2 Cochannel interference analysis
2.4 Shadowing model
2.5 Outage and coverage analysis
2.6 Further readingsProblems
Bibliography
3. Multipath fading
3.1 General fading channel model
3.2 Time-domain variation
3.2.1 Doppler effect
3.2.2 Slow vs fast fading
3.3 Multipath delay spread
3.3.1 Power delay profile
3.3.2 Frequency-flat vs frequency-selective fading
3.4 Simplified models for fading channels
3.4.1 Frequency-flat fading
3.4.2 Autocorrelation of complex channel gain
3.4.3 Frequency-selective fading
3.5 Further readings
Problems
Bibliography
4. Digital transmission over flat fading
4.1 Basics of digital bandpass transmission4.2 Linear bandpass modulation
4.3 Optimal detection in presence of AWGN
4.4 Detection performance over AWGN channel
4.5 Effect of flat fading channel phase
4.5.1 Channel estimation
4.5.2 Differential modulation
4.5.3 Ï#x80;/4 Differential QPSK
4.6 Effect of flat fading channel magnitude
4.6.1 Performance measures
4.6.2 Statistical models for flat fading channel gain
4.7 Performance analysis over fading channels
4.7.1 Outage analysis
4.7.2 PDF-based average error rate analysis
4.7.3 MGF-based average error rate analysis4.8 Further readings
Problems
Bibliography
5. Fading mitigation through diversity combining
5.1 Basics of diversity combining
5.1.1 Implementation strategies
5.1.2 Antenna reception diversity
5.1.3 Framework for performance analysis
5.2 Selection combining
5.3 Maximum ratio combining
5.3.1 Optimal linear combining
5.3.2 Performance analysis
5.3.3 Equal gain combining
5.4 Threshold combining and its variants
5.4.1 Dual-branch switch and stay combining
5.4.2 Multibranch switch and examine combining5.4.3 Threshold combining with post-examining selection
5.5 Transmit diversity
5.5.1 Channel knowledge available at transmitter
5.5.2 Channel knowledge unavailable at transmitter
5.6 Further readings
Problems
Bibliography
6. Transmission over frequency-selective fading
6.1 Effect of frequency-selective fading
6.2 Equalization
6.2.1 Equalizing receiver
6.2.2 Digital implementation
6.2.3 Adaptive implementation
6.3 Multicarrier transmission
6.4 Discrete implementation/OFDM
Preface
1. Introduction to wireless transmission
1.1 Overview of wireless communications
1.2 Spectrum access
1.2.1 Multiple access
1.2.2 Random access
1.3 Duplexing
1.4 Digital wireless transmissions
1.5 Further readings
Problems
Bibliography
2. Large-scale channel effects
2.1 Wireless communication channels
2.2 Path loss models
2.3 Interference analysis for cellular systems
2.3.1 Cellular concept
2.3.2 Cochannel interference analysis
2.4 Shadowing model
2.5 Outage and coverage analysis
2.6 Further readingsProblems
Bibliography
3. Multipath fading
3.1 General fading channel model
3.2 Time-domain variation
3.2.1 Doppler effect
3.2.2 Slow vs fast fading
3.3 Multipath delay spread
3.3.1 Power delay profile
3.3.2 Frequency-flat vs frequency-selective fading
3.4 Simplified models for fading channels
3.4.1 Frequency-flat fading
3.4.2 Autocorrelation of complex channel gain
3.4.3 Frequency-selective fading
3.5 Further readings
Problems
Bibliography
4. Digital transmission over flat fading
4.1 Basics of digital bandpass transmission4.2 Linear bandpass modulation
4.3 Optimal detection in presence of AWGN
4.4 Detection performance over AWGN channel
4.5 Effect of flat fading channel phase
4.5.1 Channel estimation
4.5.2 Differential modulation
4.5.3 Ï#x80;/4 Differential QPSK
4.6 Effect of flat fading channel magnitude
4.6.1 Performance measures
4.6.2 Statistical models for flat fading channel gain
4.7 Performance analysis over fading channels
4.7.1 Outage analysis
4.7.2 PDF-based average error rate analysis
4.7.3 MGF-based average error rate analysis4.8 Further readings
Problems
Bibliography
5. Fading mitigation through diversity combining
5.1 Basics of diversity combining
5.1.1 Implementation strategies
5.1.2 Antenna reception diversity
5.1.3 Framework for performance analysis
5.2 Selection combining
5.3 Maximum ratio combining
5.3.1 Optimal linear combining
5.3.2 Performance analysis
5.3.3 Equal gain combining
5.4 Threshold combining and its variants
5.4.1 Dual-branch switch and stay combining
5.4.2 Multibranch switch and examine combining5.4.3 Threshold combining with post-examining selection
5.5 Transmit diversity
5.5.1 Channel knowledge available at transmitter
5.5.2 Channel knowledge unavailable at transmitter
5.6 Further readings
Problems
Bibliography
6. Transmission over frequency-selective fading
6.1 Effect of frequency-selective fading
6.2 Equalization
6.2.1 Equalizing receiver
6.2.2 Digital implementation
6.2.3 Adaptive implementation
6.3 Multicarrier transmission
6.4 Discrete implementation/OFDM
Source of Description
Print version record.
Series
IET telecommunications series ; 72.
Available in Other Form
Print version: Yang, Hong-Chuan, 1973- Introduction to digital wireless communications. London, United Kingdom : The Institution of Engineering and Technology, 2017
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