Physics of Multiantenna Systems and Broadband Processing (inbunden)
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Inbunden (Hardback)
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243 x 160 x 33 mm
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Physics of Multiantenna Systems and Broadband Processing (inbunden)

Physics of Multiantenna Systems and Broadband Processing

Inbunden,  Engelska, 2008-07-01
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An analysis of the physics of multiantenna systems Multiple-Input Multiple-Output (MIMO) technology is one of the current hot topics in emerging wireless technologies. This book fills the important need for an authoritative reference on the merits of MIMO systems based on physics and provides a sound theoretical basis for its practical implementation. The book also addresses the important issues related to broadband adaptive processing. Written by three internationally known researchers, Physics of Multiantenna Systems and Broadband Processing: Provides a thorough discussion of the physical and mathematical principles involved in MIMO and adaptive systems Examines the electromagnetic framework of wireless communications systems Uses Maxwell's theory to provide a system-based framework for the abstract concept of channel capacity Performs various numerical simulations to observe how a typical system will behave in practice Provides a mathematical formulation for broadband adaptive processing and direction-of-arrival estimation using real antenna arrays Integrates signal processing and electromagnetics to address the performance of realistic multiantenna systems With Physics of Multiantenna Systems and Broadband Processing, communication systems engineers, graduate students, researchers, and developers will gain a thorough, scientific understanding of this important new technology.
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Tapan K. Sarkar, PhD, is a Professor in the Department of Electrical and Computer Engineering at Syracuse University, New York. His current research interests deal with numerical solutions of operator equations arising in electromagnetics and signal processing with application to system design. He is the author or coauthor of several books, including Smart Antennas and History of Wireless, both published by Wiley. Magdalena Salazar-Palma, PhD, is a Professor in the Departamento de Teoria de la Senal y Comunicaciones at Universidad Carlos III de Madrid (Spain). She has authored several books, including Smart Antennas and History of Wireless, and more than 280 publications in books, scientific journals, and symposium proceedings. Eric L. Mokole, PhD, is the Acting Superintendent of the Radar Division of the Naval Research Laboratory (NRL) in Washington, D.C. He has published more than sixty conference publications, journal articles, book chapters, and reports and is the lead editor of Ultra-Wideband, Short-Pulse Electromagnetics 6 and coeditor of Ultra-Wideband, Short-Pulse Electromagnetics 7.


Preface. Acknowledgments. Chapter 1. What is an Antenna and How Does it Work? Chapter 2. Fundamentals of Antenna Theory in the Frequency Domain. Chapter 3. Fundamentals of an Antenna in the Time Domain. Chapter 4. A Look at the Concept of Channel Capacity from a Maxwellian Viewpoint. Chapter 5. Multiple-Input-Multiple-Output (MIMO) Antenna Systems. Chapter 6. Use of the Output Energy Filter in Multiantenna Systems for Adaptive Estimation. Chapter 7. Minimum Norm Property for the Sum of the Adaptive Weights in Adaptive or in Space-Time Processing. Chapter 8. Using Real Weights in Adaptive and Space-Time Processing. Chapter 9. Phase-Only Adaptive and Space-Time Processing. Chapter 10. Simultaneous Multiple Adaptive Beamforming. Chapter 11. Performance Comparison Between Statistical-Based and Direct Data Domain Least Squares Space-Time Adaptive Processing Algorithms. Chapter 12. Approximate Compensation for Mutual Coupling Using the In Situ Antenna Element Patterns. Chapter 13. Signal Enhancement Through Polarization Adaptivity on Transmit in a Near-Field MIMO Environment. Chapter 14. Direction of Arrival Estimation by Exploiting Unitary Transform in the Matrix Pencil Method and its Comparison with ESPRIT. Chapter 15. DOA Estimation Using Electrically Small Matched Dipole Antennas and the Associated Cramer-Rao Bound. Chapter 16. Non-Conventional Least Squares Optimization for DOA Estimation Using Arbitrary-Shaped Antenna Arrays. Chapter 17. Broadband Direction of Arrival Estimations Using the Matrix Pencil Method. Chapter 18. Adaptive Processing of Broadband Signals. Chapter 19. Effect of Random Antenna Position Errors on A Direct Data Domain Least Squares Approach for Space-Time Adaptive Processing. Index.