Wireless Communication Signals
A Laboratory-based Approach
(Sprache: Englisch)
WIRELESS COMMUNICATION SIGNALS
A practical guide to wireless communication systems and concepts
Wireless technologies and services have evolved significantly over the last couple of decades, and Wireless Communication Signals offers an...
A practical guide to wireless communication systems and concepts
Wireless technologies and services have evolved significantly over the last couple of decades, and Wireless Communication Signals offers an...
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WIRELESS COMMUNICATION SIGNALSA practical guide to wireless communication systems and concepts
Wireless technologies and services have evolved significantly over the last couple of decades, and Wireless Communication Signals offers an important guide to the most recent advances in wireless communication systems and concepts grounded in a practical and laboratory perspective. Written by a noted expert on the topic, the book provides the information needed to model, simulate, test, and analyze wireless system and wireless circuits using modern instrumentation and computer aided design software.
Designed as a practical resource, the book provides a clear understanding of the basic theory, software simulation, hardware test, and modeling, system component testing, software and hardware interactions and co-simulations. This important book:
* Provides organic and harmonized coverage of wireless communication systems
* Covers a range of systems from radio hardware to digital baseband signal processing
* Presents information on testing and measurement of wireless communication systems and subsystems
* Includes MATLAB file codes
Written for professionals in the communications industry, technical managers, and researchers in both academia and industry. Wireless Communication Signals introduces wireless communication systems and concepts from both a practical and laboratory perspective.
Inhaltsverzeichnis zu „Wireless Communication Signals “
Preface xvList of Contributors xix
Acronyms List xx
1 Hands-on Wireless Communication Experience 1
Hüseyin Arslan
1.1 Importance of Laboratory-Based Learning of Wireless Communications 1
1.2 Model for a Practical Lab Bench 3
1.3 Examples of Co-simulation with Hardware 6
1.4 A Sample Model for a Laboratory Course 8
1.4.1 Introduction to the SDR and Testbed Platform 11
1.4.2 Basic Simulation 11
1.4.3 Measurements and Multidimensional Signal Analysis 11
1.4.4 Digital Modulation 12
1.4.5 Pulse Shaping 13
1.4.6 RF Front-end and RF Impairments 13
1.4.7 Wireless Channel and Interference 14
1.4.8 Synchronization and Channel Estimation 15
1.4.9 OFDM Signal Analysis and Performance Evaluation 15
1.4.10 Multiple Accessing 16
1.4.11 Independent Project Development Phase 16
1.4.11.1 Software Defined Radio 17
1.4.11.2 Dynamic Spectrum Access and CR Experiment 17
1.4.11.3 Wireless Channel 17
1.4.11.4 Wireless Channel Counteractions 18
1.4.11.5 Antenna Project 18
1.4.11.6 Signal Intelligence 18
1.4.11.7 Channel, User, and Context Awareness Project 19
1.4.11.8 Combination of DSP Lab with RF and Microwave Lab 19
1.4.11.9 Multiple Access and Interference Management 19
1.4.11.10 Standards 20
1.5 Conclusions 20
References 20
2 Performance Metrics and Measurements 23
Hüseyin Arslan
2.1 Signal Quality Measurements 23
2.1.1 Measurements Before Demodulation 24
2.1.2 Measurements During and After Demodulation 25
2.1.2.1 Noise Figure 26
2.1.2.2 Channel Frequency Response Estimation 26
2.1.3 Measurements After Channel Decoding 26
2.1.3.1 Relation of SNR with BER 27
2.1.4 Error Vector Magnitude 27
2.1.4.1 Error-Vector-Time and
... mehr
Error-Vector-Frequency 29
2.1.4.2 Relation of EVM with Other Metrics 30
2.1.4.3 Rho 31
2.1.5 Measures After Speech or Video Decoding 31
2.2 Visual Inspections and Useful Plots 32
2.2.1 Advanced Scatter Plot 39
2.3 Cognitive Radio and SDR Measurements 40
2.4 Other Measurements 42
2.5 Clarifying dB and dBm 44
2.6 Conclusions 45
References 45
3 Multidimensional Signal Analysis 49
Hüseyin Arslan
3.1 Why Multiple Dimensions in a Radio Signal? 49
3.2 Time Domain Analysis 52
3.2.1 CCDF and PAPR 53
3.2.2 Time Selectivity Measure 56
3.3 Frequency Domain Analysis 57
3.3.1 Adjacent Channel Power Ratio 59
3.3.2 Frequency Selectivity Measure 61
3.4 Joint Time-Frequency Analysis 62
3.5 Code Domain Analysis 64
3.5.1 Code Selectivity 66
3.6 Correlation Analysis 67
3.7 Modulation Domain Analysis 68
3.8 Angular Domain Analysis 68
3.8.1 Direction Finding 68
3.8.2 Angular Spread 70
3.9 MIMO Measurements 71
3.9.1 Antenna Correlation 72
3.9.2 RF Cross-Coupling 72
3.9.3 EVM Versus Antenna Branches 73
3.9.4 Channel Parameters 73
3.10 Conclusions 73
References 74
4 Simulating a Communication System 77
Muhammad Sohaib J. Solaija and Hüseyin Arslan
4.1 Simulation: What,Why? 77
4.2 Approaching a Simulation 78
4.2.1 Strategy 78
4.2.2 General Methodology 80
4.3 Basic Modeling Concepts 81
4.3.1 System Modeling 81
4.3.
2.1.4.2 Relation of EVM with Other Metrics 30
2.1.4.3 Rho 31
2.1.5 Measures After Speech or Video Decoding 31
2.2 Visual Inspections and Useful Plots 32
2.2.1 Advanced Scatter Plot 39
2.3 Cognitive Radio and SDR Measurements 40
2.4 Other Measurements 42
2.5 Clarifying dB and dBm 44
2.6 Conclusions 45
References 45
3 Multidimensional Signal Analysis 49
Hüseyin Arslan
3.1 Why Multiple Dimensions in a Radio Signal? 49
3.2 Time Domain Analysis 52
3.2.1 CCDF and PAPR 53
3.2.2 Time Selectivity Measure 56
3.3 Frequency Domain Analysis 57
3.3.1 Adjacent Channel Power Ratio 59
3.3.2 Frequency Selectivity Measure 61
3.4 Joint Time-Frequency Analysis 62
3.5 Code Domain Analysis 64
3.5.1 Code Selectivity 66
3.6 Correlation Analysis 67
3.7 Modulation Domain Analysis 68
3.8 Angular Domain Analysis 68
3.8.1 Direction Finding 68
3.8.2 Angular Spread 70
3.9 MIMO Measurements 71
3.9.1 Antenna Correlation 72
3.9.2 RF Cross-Coupling 72
3.9.3 EVM Versus Antenna Branches 73
3.9.4 Channel Parameters 73
3.10 Conclusions 73
References 74
4 Simulating a Communication System 77
Muhammad Sohaib J. Solaija and Hüseyin Arslan
4.1 Simulation: What,Why? 77
4.2 Approaching a Simulation 78
4.2.1 Strategy 78
4.2.2 General Methodology 80
4.3 Basic Modeling Concepts 81
4.3.1 System Modeling 81
4.3.
... weniger
Autoren-Porträt von Huseyin Arslan
Hüseyin Arslan is a Professor at the University of South Florida. He has broad research experience in wireless communication systems, digital signal processing, cognitive radio, and channel modeling.
Bibliographische Angaben
- Autor: Huseyin Arslan
- 2021, 1. Auflage, 464 Seiten, Masse: 18,3 x 26 cm, Gebunden, Englisch
- Verlag: Wiley & Sons
- ISBN-10: 1119764416
- ISBN-13: 9781119764410
- Erscheinungsdatum: 01.04.2021
Sprache:
Englisch
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