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Advanced Antenna Array Engineering for 6G and Beyond Wireless Communications
Reviews advances in the design and deployment of antenna arrays for future generations of wireless communication systems, offering new solutions for the telecommunications industry
Advanced Antenna Array Engineering for 6G and Beyond Wireless Communications addresses the challenges in designing and deploying antennas and antenna arrays which deliver 6G and beyond performance with high energy efficiency and possess the capability of being immune to interference caused by different systems mounted on the same platforms. This timely and authoritative volume presents innovative solutions for developing integrated communications networks of high-gain, individually-scannable, multi-beam antennas that are reconfigurable and conformable to all platforms, thus enabling the evolving integrated land, air and space communications networks.
The text begins with an up-to-date discussion of the engineering issues facing future wireless communications systems, followed by a detailed discussion of different beamforming networks for multi-beam antennas. Subsequent chapters address problems of 4G/5G antenna collocation, discuss differentially-fed antenna arrays, explore conformal transmit arrays for airborne platforms, and present latest results on fixed frequency beam scanning leaky wave antennas as well as various analogue beam synthesizing strategies. Based primarily on the authors' extensive work in the field, including original research never before published, this important new volume:
Reviews multi-beam feed networks, array decoupling and de-scattering methods
Provides a systematic study on differentially fed antenna arrays that are resistant to interference caused by future multifunctional/multi-generation systems
Features previously unpublished material on conformal transmit arrays based on Huygen's metasufaces and reconfigurable leaky wave antennas
Includes novel algorithms for synthesizing and optimizing thinned massive arrays, conformal arrays, frequency invariant arrays, and other future arrays
Advanced Antenna Array Engineering for 6G and Beyond Wireless Communications is an invaluable resource for antenna engineers and researchers, as well as graduate and senior undergraduate students in the field.
Auteur
Y. Jay Guo, PhD, is the Director of the Global Big Data Technologies Centre and a Distinguished Professor at the University of Technology Sydney, Australia. He has over thirty years of academic, industrial and CSIRO experience. He holds 26 international patents, and is a Fellow of the Institute of Electrical and Electronics Engineers (IEEE), the Australian Academy of Technology and Engineering (ATSE), and the Institute of Engineering and Technology (IET). He is the author of Ground-Based Wireless Positioning and more than 550 research papers.
Richard W. Ziolkowski, PhD, is a Distinguished Professor in the Global Big Data Technologies Centre at the University of Technology Sydney, Australia, and a Professor Emeritus at the University of Arizona, USA. He is a Life Fellow of the IEEE and a Fellow of the Optical Society of America and the American Physical Society. He was the recipient of the 2019 IEEE Electromagnetics Award and was the 2005 President of the IEEE Antennas and Propagation Society. He was the 2014-2015 US Fulbright Distinguished Chair in Advanced Science and Technology sponsored by the Australian Defence Science and Technology Organization (DSTO). He is the co-editor of Metamaterials: Physics and Engineering Explorations.
Texte du rabat
Reviews advances in the design and deployment of antenna arrays for future generations of wireless communication systems, offering new solutions for the telecommunications industry
Advanced Antenna Array Engineering for 6G and Beyond Wireless Communications addresses the challenges in designing and deploying antennas and antenna arrays which deliver 6G and beyond performance with high energy efficiency and possess the capability of being immune to interference caused by different systems mounted on the same platforms. This timely and authoritative volume presents innovative solutions for developing integrated communications networks of high-gain, individually-scannable, multi-beam antennas that are reconfigurable and conformable to all platforms, thus enabling the evolving integrated land, air and space communications networks. The text begins with an up-to-date discussion of the engineering issues facing future wireless communications systems, followed by a detailed discussion of different beamforming networks for multi-beam antennas. Subsequent chapters address problems of 4G/5G antenna collocation, discuss differentially-fed antenna arrays, explore conformal transmit arrays for airborne platforms, and present latest results on fixed frequency beam scanning leaky wave antennas as well as various analogue beam synthesizing strategies. Based primarily on the authors' extensive work in the field, including original research never before published, this important new volume:
Contenu
Author Biographies
Acknowledgements
Chapter 1 A Perspective of Antennas for 5G and 6G
1.1 5G Requirements of Antenna Arrays
1.2 6G and Its Antenna Requirements
1.3 From Digital to Hybrid Multiple Beamforming
1.4 Analog Multiple Beamforming
1.5 Millimeter-Wave Antennas
1.6 THz Antennas
1.7 Lens Antennas
1.8 SIMO and MIMO Multi-beam Antennas
1.9 In-Band Full Duplex Antennas
1.10 Conclusions
Chapter 2 Millimeter-Wave Beam Forming Networks
Circuit-Type BFNs: SIW Based Bulter and Nolen Matrixes
Quasi Optical BFNs: Rotman Lens and Reflectors
Conclusions
Chapter 3 Decoupling Methods for Antenna Arrays
3.1. Electromagnetic Band-gap Structures
3.2. Defected Ground Structures
3.3 Neutralization Lines
3.4. Array-Antenna Decoupling Surfaces
3.5 Metamaterial Structures
3.6 Parasitic Resonators
3.7 Conclusions
Chapter 4 De-scattering Methods for Coexistent Antenna Arrays
4.1 De-scattering vs Decoupling in Coexistent Antenna Arrays
4.2 Mantle Cloak De-Scattering
4.3 Lumped-Choke De-Scattering
4.4 Distributed-Choke De-Scattering
4.5 Mitigating the Effect of HB Antennas on LB Antennas
4.6 Conclusions
Chapter 5 Differentially-fed Antenna Arrays
5.1 Differential Systems
5.2 Differential-fed Antenna Elements
5.3 Differential-fed Antenna Arrays
5.4 Differential-fed Multi-Beam Antennas
5.5 Conclusions
Chapter 6 Conformal Transmitarrays
6.1 Conformal Transmitarrays Challenges
6.2 Conformal Transmitarrays Employing Triple-Layer Elements
6.3 Beam Scanning Conformal Transmitarrays
6.4 Conformal Transmitarray Employing Ultra-thin Dual-Layer Huygens Elements
6.5 Elliptically Conformal Multibeam Transmitarray with Wide-Angle Scanning Ability
6.6 Conclusions
Chapter 7 Frequency Independent Beam Scanning Leaky Wave Antennas
7.1 Reconfigurable Fabry-Pérot (FP) LWA
7.2 Period-Reconfigurable SIW Based LWA
7.3 Reconfigurable Composite Right/Left-Handed LWA
7.4 Two Dimensi…