Baseband Receiver Design for Wireless MIMO-OFDM Communications

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Beschreibung

The Second Edition of OFDM Baseband Receiver Design for Wirless Communications, this book expands on the earlier edition with enhanced coverage of MIMO techniques, additional baseband algorithms, and more IC design examples. The authors cover the full range of OFDM technology, from theories and algorithms to architectures and circuits. The book gives a concise yet comprehensive look at digital communication fundamentals before explaining signal processing algorithms in receivers. The authors give detailed treatment of hardware issues - from architecture to IC implementation. * Links OFDM and MIMO theory with hardware implementation * Enables the reader to transfer communication received concepts into hardware; design wireless receivers with acceptable implemntation loss; achieve low-power designs * Covers the latest standards, such as DVB-T2, WiMax, LTE and LTE-A * Includes more baseband algorithms, like soft-decoding algorithms such as BCJR and SOVA * Expanded treatment of channel models, detection algorithms and MIMO techniques * Features concrete design examples of WiMAX systems and cognitive radio apllications * Companion website with lecture slides for instructors Based on materials developed for a course in digital communication IC design, this book is ideal for graduate students and researchers in VLSI design, wireless communications, and communications signal processing. Practicing engineers working on algorithms or hardware for wireless communications devices will also find this to be a key reference.



Autorentext
Tzi-Dar Chiueh, National Taiwan University, Taiwan
Tzi-Dar Chiueh is a Professor of Electrical Engineering at National Taiwan University and Director General of the National Chip Implementation Center in Hsinchu, Taiwan. He has also held visiting positions at ETH Zurich Switzerland at State University of New York at Stony Brook. Chiueh has won numerous awards, including the Acer Long-Term (11 times), the Golden Silicon Award (2002, 2005, 2007, and 2009), NTU Teaching Excellence Award (2002, 2003, 2005, 2006, 2007, and 2010), National Science Council's Outstanding Research Award (20042007), Chinese Institute of Electrical Engineers' Outstanding Electrical Engineering Professor, NTU Himax Chair Professorship (2006), and the Ministry of Economic Affairs' Outstanding Industry Contribution Award (2009). He holds a B.S. in Electrical Engineering from National Taiwan University, and an M.S and PhD in Electrical Engineering from the California Institute of Technology.

Pei-Yun Tsai, National Central University, Taiwan
Pei-Yun Tsai is an Assistant Professor in Electrical Engineering at National Central University. Her research interests are digital baseband communication algorithms, MIMO techniques, and low-power IC/architecture implementation for telecommunications receivers. Tsai has won a number chipset design awards. She holds a B.S, M.S. and PhD in electrical engineering from National Taiwan University.

I-Wei Lai, National Taiwan University, Taiwan
I-Wei Lai is with the Microsystem Research Lab at National Taiwan University. His research interests include baseband signal processing algorithms and VLSI design.



Klappentext
The second edition to OFDM Baseband Receiver Design for Wireless Communications , this book expands on the earlier edition with enhanced coverage of MIMO techniques, additional baseband algorithms, and more IC design examples. The authors cover the full range of OFDM technology, from theories and algorithms to architectures and circuits. The book gives a concise yet comprehensive look at digital communication fundamentals before explaining signal processing algorithms in receivers. The authors give detailed treatment of hardware issues from architecture to IC implementation.
  • Links OFDM and MIMO theory with hardware implementation
  • Enables the reader to
    • transfer communication receiver concepts into hardware
    • design wireless receivers with acceptable implementation loss
    • achieve low-power designs
  • Covers the latest standards, such as DVB-T2, WiMAX, LTE, and LTE-A
  • Includes more baseband algorithms, such as iterative receiver and mobile OFDM equalization
  • Contains expanded treatment of channel models and MIMO techniques
  • Demonstrates concrete design examples of the WiMAX system
  • Features companion website with lecture slides for instructors

Based on materials developed for a course in digital communication IC design, this book is ideal for graduate students and researchers in VLSI design, wireless communications, and communications signal processing. Practicing engineers in industry working on algorithms or hardware for wireless communications devices will also find this book to be a key reference.

Companion website for the book:

www.wiley.com/go/chiueh/ofdm2e



Inhalt

Preface xiii

About the Authors xvii

Acknowledgements xix

List of Abbreviations and Acronyms xxi

PART ONE: FUNDAMENTALS OF WIRELESS COMMUNICATION

1. Introduction 3

1.1 Digital Broadcasting Systems 3

1.1.1 Digital Audio Broadcasting (DAB) 4

1.1.2 Digital Video Broadcasting (DVB) 4

1.2 Mobile Cellular Systems 6

1.2.1 Carrier Aggregation 8

1.2.2 Multiple-Antenna Configuration 8

1.2.3 Relay Transmission 9

1.2.4 Coordinated Multipoint Transmission and Reception (CoMP) 9

1.3 Wireless Network Systems 10

1.3.1 Personal Area Network (PAN) 10

1.3.2 Local Area Network (LAN) 12

1.3.3 Metropolitan Area Network (MAN) 13

1.3.4 Wide Area Network (WAN) 14

Summary 14

References 15

2. Digital Modulation 17

2.1 Single-Carrier Modulation 17

2.1.1 Power Spectral Densities of Modulation Signals 18

2.1.2 PSK, QAM, and ASK 19

2.1.3 CPFSK and MSK 22

2.1.4 Pulse Shaping and Windowing 23

2.2 Multi-Carrier Modulation 24

2.2.1 Orthogonal Frequency-Division Multiplexing 27

2.2.2 OFDM Related Issues 27

2.2.3 OFDM Transceiver Architecture 31

2.3 Adaptive OFDM 33

Summary 37

References 37

3. AdvancedWireless Technology 39

3.1 Multiple-Input Multiple-Output (MIMO) 39

3.1.1 Introduction 39

3.1.2 MIMO Basics 41

3.1.3 MIMO Techniques 43

3.1.4 MIMO-OFDM System Example 50

3.2 Multiple Access 53

3.2.1 Frequency-Division Multiple Access (FDMA) 54

3.2.2 Time-Division Multiple Access (TDMA) 54

3.2.3 Code-Division Multiple Access (CDMA) 55

3.2.4 Carrier Sense Multiple Access (CSMA) 57

3.2.5 Orthogonal Frequency-Division Multiple Access (OFDMA) 57

3.2.6 Space-Division Multiple Access (SDMA) 58

3.3 Spread Spectrum and CDMA 59

3.3.1 PN Codes 60

3.3.2 Direct-Sequence Spread Spectrum 63

3.3.3 Frequency-Hopping Spread Spectrum 65

Summary 66

References 67

4. Error-Correcting Codes 69

4.1 Introduction 69

4.2 Block Codes 70

4.2.1 Linear Codes 70

4.2.2 Cyclic Codes 72

4.3 ReedSolomon Codes 73

4.3.1 Finite Fields 74

4.3.2 Encoding 75

4.3.3 Decoding 76

4.3.4 Shortened ReedSolomon Codes 76

4.4 Convolutional Codes 77

4.4.1 Encoding 77

4.4.2 Viterbi Decoder 79

4.4.3 Punctured Convolutional Codes 80

4.5 Soft-Input Soft-Output Decoding Algorithms 81

4.5.1 MAP Decoder 82

4.5.2 Log-MAP Decoder 85

4.5.3 Max-Log-MAP Decoder 86

4.6 Turbo Codes 87

4.6.1 Encoding 87

4.6.2 Decoding 88

4.7 Low-Density Parity-Check Codes 89

4.7.1 Encoding 89

4.7.2 Decoding 91

Summary 93

References 94

5. Signal Propagation and Channel Model 95

5.1 Introduction 95

5.2 Wireless Channel Propagation 96

5.2.1 Path Loss and Shadowing 96

5.2.2 Multipath Fading 97

5.2.3 Multipath Channel Parameters 98

5.2.4 MIMO Channel 104

5.3 Front-End Electronics Effects 105

5.3.1 Carrier Frequency Offset 105

5.3.2 Sampling Clock Offset 106

5.3.3 Phase Noise 106

5.3.4 IQ Imbalance and DC Offset 107

5.3.5 Power Amplifier Nonlinearity 110

5.4 Channel Model 111

5.4.1 Model for Front-End Impairments 112

5.4.2 Multipath Rayleigh Fader Model 113

5.4.3 Channel Models Used in Standards 116

Summary 122

References 123

PART TWO: MIMO-OFDM RECEIVER PROCESSING&l...

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Produktinformationen

Titel
Baseband Receiver Design for Wireless MIMO-OFDM Communications
Autor
EAN
9781118188200
ISBN
978-1-118-18820-0
Format
E-Book (pdf)
Hersteller
Wiley-IEEE Press
Herausgeber
Wiley-IEEE Press
Genre
Sonstiges
Veröffentlichung
24.04.2012
Digitaler Kopierschutz
Adobe-DRM
Dateigrösse
8.66 MB
Anzahl Seiten
350
Jahr
2012
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