Details

Title

Reconfigurable Antennas: the State of the Art

Journal title

International Journal of Electronics and Telecommunications

Yearbook

2010

Numer

No 3

Publication authors

Divisions of PAS

Nauki Techniczne

Publisher

Polish Academy of Sciences Committee of Electronics and Telecommunications

Date

2010

Identifier

ISSN 2081-8491 (until 2012) ; eISSN 2300-1933 (since 2013)

References

Baek C.-W. (2003), A v-band micromachined 2-d beam-steering antenna driven by magnetic force with polymer-based hinges, IEEE Transactions on Microwave Theory and Techniques, 51, 1, 325. ; Balanis C. (2008), Modern Antenna Handbook. ; Barker N. (2000), Optimization of distributed MEMS transmission-line phase shifters - U-band and W-band designs, IEEE Transactions on Microwave Theory Techniques, 48, 11, 1957. ; Behdad N. (2004), Dual-band reconfigurable antenna with a very wide tenability range, IEEE Transactions on Antennas and Propagation, 52, 409. ; Bose R. (2008), Tunable Patch Antenna Using a Liquid Crystal Substrate, RADAR'08, 1. ; C. Chekroun, "Microwave chase shifter and its application to electronic scanning", U. S. Patent, 4,320,404, February 24, 1981. ; A. Dorne, R. G. Malech, and W. Statre, "Grid array antenna", U. S. Patent 3,276,023, May 21, 1963. ; Fathy A. (2000), Silicon Based Reconfigurable Antennas, null, 325. ; Fathy A. (2003), Silicon-based Reconfigurable Antennas - Concepts, Analysis, Implementation, and Feasibility, IEEE Transactions on Microwave Theory and Techniques, 51, 6, 1650. ; Gaebler A. (null), Liquid Crystal-Reconfigurable Antenna Concepts for Space Applications at Microwave and Millimeter Waves, International Journal of Antennas and Propagation. ; Hacker J. (2003), A Kaband 3-bit RF MEMS true-time-delay network, IEEE Transactions on Microwave Theory Techniques, 51, 1, 305. ; Lancaster M. (1998), Superconductors Science Technologies, 11, 1323. ; Maloney J. (2000), Switched Fragmented Aperture Antennas, null, 310. ; Matsumoto M. (1987), Radiation of Millimeter waves form a Leaky Dielectric Waveguide with a Light-Induced Grating Layer, IEEE Transactions on Microwave Theory and Techniques, MTT-35, 1033. ; Miranda F. (2001), Integrated Ferroelectrics, 42, 131. ; Modelski J. (2000), Investigations of the Microstrip Antenna on Ferroelectric Substrates, null, 162. ; Modelski J. (2000), Voltage-controlled ferroelectric microstrip antenna for phased arrays, null, 506. ; Modelski J. (2001), Null Pattern Synthesis of Ferroelectric Smart Antennas, null, 1, 467. ; Packiaraj D. (2004), Electronically switchable suspended substrate stripline filters, null, 64. ; Pringle L. (2004), A Reconfigurable Aperture Antenna Based on Switched Links Between Electrically Small Metallic Patches, IEEE Transactions on Antennas and Propagation, AP-52, 1434. ; Rao J. (1997), Two Low-Cost Phased Arrays, IEEE Aerospace and Electronic Systems Magazine, 12, 39. ; Rebeiz G. (2003), RF MEMS Theory, Design, and Technology. ; Smith J. (2000), Special session - reconfigurable aperture antennas, null. ; M. Szafran, E. Bobryk, J. Modelski, and Y. Yashchyshyn. Kompozyt ceramika-polimer do zastosowań mikrofalowych i sposób wytwarzania kompozytu ceramika-polimer do zastosowań mikrofalowych. Patent PL, priority BUP02-05-200509/2005, published WUP30-01-200901/2009, [in polish]. ; Tagantsev A. (2003), Ferroelectric Materials for Microwave Tunable Applications, Journal of Electroceramics, 11, 5. ; G. C. Taylor, et. al., "Reconfigurable Antenna", U. S. Patent no.: US 6,567,046 B2, May 20, 2003. ; G. C. Taylor, A. Rosen, A. E. Fathy, P. K. Swain, and S. M. Perlow, "Surface PIN device", U. S. Patent no.: US 6,617,670 B2, Sep., 9, 2003. ; Toshiyoshi H. (1996), Electrostatic micro torsion mirrors for an optical switch matrix, IEEE Journal Microelectrometech. Symt, 5, 4, 231. ; Vendik O. (1999), Journal of Superconductivity, 12, 325. ; Washington G. (1991), Design, modeling, and optimization of mecahanically reconfigurable aperture antennas, IEEE Transactions on Antennas and Propagation, 1, 179. ; Xi X. (2000), Journal of Electroceramics, 4, 393. ; Yang S. (2009), Frequency-Reconfigurable Antennas for Multiradio Wireless Platforms, IEEE Microwave Magazine, 10, 1, 66. ; Yashchyshyn Y. (2002), The Leaky-Wave Antenna With Ferroelectric Substrate, null, 1, 218. ; Yashchyshyn Y. (2005), A Reconfigurable Leaky-Wave Microstrip Antenna, null. ; Yashchyshyn Y. (2005), Rigorous Analysis and Investigations of the Scan Antennas on a Ferroelectric Substrate, IEEE Transactions on Microwave Theory Techniques, 427. ; Yashchyshyn Y. (2008), Extending Functionalities of Waveguide Slot Antennas by Means of Reconfigurable Aperture, null, 268. ; Yashchyshyn Y. (2009), Development and Investigation of an Antenna System with Reconfigurable Aperture, IEEE Transactions on Antennas and Propagation, 57, 1. ; Zhang S. (2005), Three variations of a pattern-reconfigurable microstrip parasitic array, Microwave Optical Technology Letters, 45, 369.

DOI

10.2478/v10177-010-0042-z

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