Phased Arrays for Radio Astronomy, Remote Sensing, and Satellite Communications

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Karl F. Warnick (Brigham Young University, Utah) Rob Maaskant (Chalmers University of Technology, Gothenberg)

Phased Arrays for Radio Astronomy, Remote Sensing, and Satellite Communications

Karl F. Warnick (Brigham Young University, Utah), Rob Maaskant (Chalmers University of Technology, Gothenberg), Marianna V. Ivashina (Chalmers University of Technology, Gothenberg) , David B. Davidson (Curtin University, Perth)

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English

Cambridge University Press
26 July 2018

Numerical analysis; Mathematical modelling; Geographical information systems (GIS) & remote sensing; Satellite communication; Signal processing

Series: EuMA High Frequency Technologies Series

Discover a modern approach to the analysis, modeling and design of high sensitivity phased arrays. Network theory, numerical methods and computational electromagnetic simulation techniques are uniquely combined to enable full system analysis and design optimization. Beamforming and array signal processing theory are integrated into the treatment from the start. Digital signal processing methods such as polyphase filtering and RFI mitigation are described, along with technologies for real-time hardware implementation. Key concepts from interferometric imaging used in radio telescopes are also considered. A basic development of theory and modeling techniques is accompanied by problem sets that guide readers in developing modeling codes that retain the simplicity of the classical array factor method while incorporating mutual coupling effects and interactions between elements. Combining current research trends with pedagogical material suitable for a first-year graduate course, this is an invaluable resource for students, teachers, researchers, and practicing RF/microwave and antenna design engineers.

By: Karl F. Warnick (Brigham Young University Utah), Rob Maaskant (Chalmers University of Technology, Gothenberg), Marianna V. Ivashina (Chalmers University of Technology, Gothenberg), David B. Davidson (Curtin University, Perth), Brian D. Jeffs (Brigham Young University, Utah)
Imprint: Cambridge University Press
Country of Publication: United Kingdom
Dimensions: Height: 252mm, Width: 177mm, Spine: 25mm
Weight: 1.070kg
ISBN: 9781108423922
ISBN 10: 1108423922
Series: EuMA High Frequency Technologies Series
Pages: 470
Publication Date: 26 July 2018
Audience: College/higher education , Professional and scholarly , A / AS level , Undergraduate
Format: Hardback
Publisher's Status: Active

1. Phased arrays for high-sensitivity receiver applications; 2. Active antenna receivers; 3. Antenna examples; 4. Transmitting arrays, network analysis, and pattern overlap integrals; 5. Array receiver theory and modeling; 6. Figures of merit for active receiving arrays; 7. Design and optimization of phased array antennas; 8. Numerical modeling of phased array antennas; 9. Analog front end, array elements, and receiver electronics; 10. Array signal processing, calibration, and beamforming; 11. Interferometric arrays and synthesis imaging; 12. Real time digital signal processing.

Karl F. Warnick is a Professor in the Department of Electrical and Computer Engineering at Brigham Young University, Utah, and a Fellow of the Institute of Electrical and Electronics Engineers (IEEE). Rob Maaskant is an Associate Professor at Chalmers University of Technology and the Eindhoven University of Technology. Marianna V. Ivashina is a Professor in the Department of Electrical Engineering at Chalmers University of Technology. David B. Davidson is the Engineering Director of the Curtin Institute for Radio Astronomy, and also holds the Chair of Radio Astronomy Engineering, at Curtin University, Australia. Prior to this, he was a Distinguished Professor and the SA-SKA Research Chair in Engineering Electromagnetics at the University of Stellenbosch, South Africa, where he remains Emeritus Professor. He is a Fellow of the Institute of Electrical and Electronics Engineers (IEEE). Brian D. Jeffs is a Professor in the Department of Electrical and Computer Engineering at Brigham Young University, Utah.

Reviews for Phased Arrays for Radio Astronomy, Remote Sensing, and Satellite Communications

'Anyone interested in phased arrays should read this book - it provides an excellent insight into this technology and while aimed at principally at the imaging community has widespread application. The treatment of noise in a mutual coupled array is particularly useful.' Tony Brown, University of Manchester 'Many headline discoveries in radio astronomy are products of phased arrays. This book deals with new-generation arrays born of the revolution in information processing systems and enabled by contemporary electromagnetic design tools. Covering real exemplar instruments, the book is broad in scope and detailed in its presentation of array design theory, allied signal processing and practical implementations. The authors' cross-disciplinary approach extends to remote sensing and satellite applications, and they provide much-needed links to mainstream antenna engineering. Aimed at research engineers, the book is also invaluable to graduate students and professionals seeking an overview of leading-edge practice.' Peter J. Hall, Emeritus Professor of Radio Astronomy Engineering, Curtin University, Perth 'If you are looking for a deep-dive into phased array theory, the math behind it, and how to use computational elecromagnetics to model response, this book gives a thorough treatment to all of that. It is a well-organized textbook providing hundreds of references, as opposed to some books that are merely a collection of published papers ... a great textbook for antenna systems designers' Microwaves101 (www.microwaves101.com) 'In particular, the extension to noisy microwave networks is discussed in detail with respect to the interface with optimization algorithms, a topic that should attract a wide readership. The book is very clearly written by experts with world-class authority in the field and contains numerous references on the recent developments of the technology.' Sendy Phang, IEEE Antennas and Propagation Magazine