E-Book, Englisch, 238 Seiten
Tran / Wysocki / Mertins Complex Orthogonal Space-Time Processing in Wireless Communications
1. Auflage 2007
ISBN: 978-0-387-29544-2
Verlag: Springer US
Format: PDF
Kopierschutz: 1 - PDF Watermark
E-Book, Englisch, 238 Seiten
ISBN: 978-0-387-29544-2
Verlag: Springer US
Format: PDF
Kopierschutz: 1 - PDF Watermark
Complex Orthogonal Space-Time Processing in Wireless Communications incorporates orthogonal space-time processing using STBCs in MIMO wireless communication systems. Complex Orthogonal STBCs (CO STBCs) are given emphasis because they can be used for PSK/QAM modulation schemes and are more practical than real STBCs. The overall coverage provides general knowledge about space-time processing and its applications for broad audiences. It also includes the most up-to-date review of the literature on space-time processing in general, and space-time block processing in particular. The authors also examine open issues and problems for future research in this area.
Autoren/Hrsg.
Weitere Infos & Material
1;Foreword;16
2;Preface;17
3;Chapter 1 OVERVIEW OF THE BOOK;22
3.1;1.1 Background;22
3.2;1.2 Structure of the Book;23
3.3;1.3 Contributions of the Book;27
4;Chapter 2 MULTIPLE-INPUT MULTIPLE-OUTPUT SYSTEMS WITH SPACE- TIME CODES;29
4.1;2.1 Introduction;29
4.2;2.2 Multiple-Input Multiple-Output Wireless Communications;30
4.3;2.3 Space- Time Block Codes;42
4.4;2.4 Transmission Diversity Techniques;68
4.5;2.5 Issues Addressed in the Book;75
5;Chapter 3 NEW SQUARE, COMPLEX ORTHOGONAL SPACE- TIME BLOCK CODES FOR EIGHT TRANSMITTER ANTENNAS;79
5.1;3.1 Introduction;79
5.2;3.2 New Complex Orthogonal Designs of Order Eight;80
5.3;3.3 Decoding Metrics;90
5.4;3.4 Choice of Signal Constellations;91
5.5;3.5 Simulation Results;95
5.6;3.6 Conclusions;98
6;Chapter 4 MULTI- MODULATION SCHEMES TO ACHIEVE HIGHER DATA RATE;99
6.1;4.1 Introduction;99
6.2;4.2 Two New Complex Orthogonal STBCs For Eight Transmitter Antennas;104
6.3;4.3 MMSs to Increase the Data Rate;104
6.4;4.4 Optimal Inter-Symbol Power Allocation in Single Modulation and in MMSs;105
6.5;4.5 Simulation Results;113
6.6;4.6 Conclusions;119
7;Chapter 5 TWO NOVEL CONSTRUCTION CLASSES FOR IMPROVED, SQUARE CO STBCS;121
7.1;5.1 Introduction;121
7.2;5.2 Definitions and Notations;125
7.3;5.3 Design Methods;127
7.4;5.4 Examples of Maximum Rate, Square, Order- 8 CO STBCs with No Zero Entries;135
7.5;5.5 Conclusions;138
8;Chapter 6 TRANSMITTER DIVERSITY ANTENNA SELECTION TECHNIQUES FOR MIMO SYSTEMS ;139
8.1;6.1 Introduction;139
8.2;6.2 Improved Antenna Selection Technique for Wireless Channels Utilizing STBCs;142
8.3;6.3 Transmitter Diversity Antenna Selection Techniques for Wireless Channels Utilizing DSTBCs;149
8.4;6.4 Discussions and Conclusion;172
9;Chapter 7 PERFORMANCE OF DIVERSITY ANTENNA SELECTION TECHNIQUES IN IMPERFECT CHANNELS ;174
9.1;7.1 Introduction;174
9.2;7.2 A Generalized Algorithm for the Generation of Correlated Rayleigh Fading Envelopes;175
9.3;7.3 Performance of Diversity Antenna Selection Techniques in Correlated, Flat Rayleigh Fading Channels Using DSTBCs;200
9.4;7.4 Effect of Imperfect Carrier Recovery on the Performance of the Diversity Antenna Selection Techniques in Wireless Channels Utilizing DSTBCs;208
9.5;7.5 Conclusions;217
10;Chapter 8 CONCLUSIONS;219
10.1;8.1 Introduction;219
10.2;8.2 Main Conclusions;219
10.3;8.3 Recommendations;223
10.4;8.4 Future Works;224
11;Glossary;226
12;Appendix A Symbol Error Probability of M-ary PSK Signals;229
13;Appendix B Proof of the Decision Metrics for Unitary DSTBCs;231
14;References;234
15;Index;245
