Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product.
The gold-standard reference on the design and application of classic and modern antennas--fully updated to reflect the latest advances and technologies
This new edition of the "bible of antenna engineering" has been updated to provide start-to-finish coverage of the latest innovations in antenna design and application. You will find in-depth discussion of antennas used in modern communication systems, mobile and personal wireless technologies, satellites, radar deployments, flexible electronics, and other emerging technologies, including 5G, terahertz, and wearable electronics. Antenna Engineering Handbook, Fifth Edition, is bolstered by real-world examples, hundreds of illustrations, and an emphasis on the practical aspects of antennas.
Featuring 60 chapters and contributions from more than 80 renowned experts, this acclaimed resource is edited by one of the world's leading antenna authorities. This edition features all of the classic antenna types, plus new and emerging designs, with 13 all-new chapters and important updates to nearly all chapters from past editions.
Antenna Engineering Handbook, Fifth Edition, clearly explains cutting-edge applications in WLANs, automotive systems, PDAs, and handheld devices, making it an indispensable companion for today's antenna practitioners and developers.
Coverage includes:
- Antenna basics and classic antennas
- Design approaches for antennas and arrays
- Wideband and multiband antennas
- Antennas for mobile devices and PDAs, automotive applications, and aircraft
- Base station and smart antennas
- Beamforming and 5G antennas
- Millimeter-wave and terahertz antennas
- Flexible, wearable, thin film, origami, dielectric, and on-chip antennas
- MIMO antennas and phased arrays
- Direction-finding and GPS antennas
- Active antennas
- Low-profile wideband antennas
- Nanoantennas
- Reflectors and other satellite and radio-telescope antennas
- Low-frequency, HF, VHF, UHF, ECM, and ESM antennas
- Impedance-matching techniques and material characteristics
- Metastructured and frequency selective surfaces
- Propagation and guided structures
- Computational techniques and toolsets
- Indoor and outdoor measurements
Author: John Volakis
Binding Type: Hardcover
Publisher: McGraw-Hill Companies
Published: 12/07/2018
Pages: 1424
Weight: 5.2lbs
Size: 10.40h x 7.90w x 2.00d
ISBN: 9781259644696
5th EditionAbout the AuthorJohn L. Volakis is the Dean of Engineering and Computing and Professor of Electrical & Computer Engineering at Florida International University (FIU) in Miami, FL. A native of Chios, Greece, Prof. Volakis obtained his Ph.D. from The Ohio State University in 1982. Prior to becoming a Dean at FIU, he was a Professor at The University of Michigan (1984-2003) and The Ohio State University (2003-2017). His publications include 8 widely used books, over 400 journal papers and nearly 800 conference papers.
In addition to the 4th Ed.
Antenna Engineering Handbook, his other books include
Approximate Boundary Conditions in Electromagnetics (IEE Press),
Finite Element Method for Electromagnetics (IEEE Press-Wiley), and
Frequency Domain Hybrid Finite Element Methods in Electromagnetics (Morgan & Claypool),
Computational Methods for High Frequency Electromagnetic Interference (Verlag, 2009),
Small Antennas: Miniaturization Techniques (McGraw Hill, 2010),
Polymer-Ceramic Composites for Comformal Multilayer Antenna/RF Systems (LAP Lambert, 2010),
Integral Equation Methods for Electromagnetics (Scitech Publishing, 2012).
Dr. Volakis is a Fellow of IEEE, and a former President of the IEEE Antennas and Propagation Society, and Chair of the USNC National Radio Science Union. He graduated/mentored nearly 90 Ph.D. students/post-docs, and was listed by ISI in 2004 among the top 250 most referenced authors in Engineering/Computer Science. Among his awards, he is the recipient of The Univ. of Michigan College of Engineering Research Excellence award (1993), The Ohio State Univ. Distinguished Scholar Award (2016) and the IEEE APS Distinguished Achievement award (2015).