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A Design Approach for Dual-Polarized Multiband FSS using Self-Similar Fractal Element

Published on March 2013 by Shwetanki Singh, Shuvodip Majumdar, Sourav Nandi, Surajit Mondal, Partha Pratim Sarkar
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International Conference on Computing, Communication and Sensor Network
Foundation of Computer Science USA
CCSN2012 - Number 1
March 2013
Authors: Shwetanki Singh, Shuvodip Majumdar, Sourav Nandi, Surajit Mondal, Partha Pratim Sarkar
6184a18b-3b3d-4381-84c0-c5ea1342bf51

Shwetanki Singh, Shuvodip Majumdar, Sourav Nandi, Surajit Mondal, Partha Pratim Sarkar . A Design Approach for Dual-Polarized Multiband FSS using Self-Similar Fractal Element. International Conference on Computing, Communication and Sensor Network. CCSN2012, 1 (March 2013), 24-26.

@article{
author = { Shwetanki Singh, Shuvodip Majumdar, Sourav Nandi, Surajit Mondal, Partha Pratim Sarkar },
title = { A Design Approach for Dual-Polarized Multiband FSS using Self-Similar Fractal Element },
journal = { International Conference on Computing, Communication and Sensor Network },
issue_date = { March 2013 },
volume = { CCSN2012 },
number = { 1 },
month = { March },
year = { 2013 },
issn = 0975-8887,
pages = { 24-26 },
numpages = 3,
url = { /specialissues/ccsn2012/number1/10848-1008/ },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Special Issue Article
%1 International Conference on Computing, Communication and Sensor Network
%A Shwetanki Singh
%A Shuvodip Majumdar
%A Sourav Nandi
%A Surajit Mondal
%A Partha Pratim Sarkar
%T A Design Approach for Dual-Polarized Multiband FSS using Self-Similar Fractal Element
%J International Conference on Computing, Communication and Sensor Network
%@ 0975-8887
%V CCSN2012
%N 1
%P 24-26
%D 2013
%I International Journal of Computer Applications
Abstract

In this paper, fractal FSS has been designed using recursive technology and this frequency selective surface (FSS) acts like a multi band-reject filter. The proposed design has been investigated theoretically using Ansoft Designer® software in which the reflection and transmission band has been predicted by the method known as Method of Moment. In comparison to the reference square patched Frequency Selective Surface (FSS) without slot, this FSS with fractal design can provide size reduction up to 83. 78%. Efforts have been given to achieve Size reduction, Bandwidth enhancement and multifrequency operation in a single FSS structure.

References
  1. B. A. Munk, Frequency Selective Surfaces: Theory and Design. New York: Wiley-Interscience, 2000. .
  2. B. Munk, R. Kouyoumjian, and L. Peters, Jr. , "Reflection properties of Periodic surfaces of loaded dipoles," IEEE Trans. Antennas Propag. , vol. AP-19, pp. 612–617, Sep. 1971.
  3. N. D. Agrawal and W. A. Imbraile, Design of a dicroic Cassegrain subreflector, IEEE Trans Antennas Propagat AP-27 (1979), 466-473.
  4. S. W. Lee et al. , Design for the MDRSS tri band reflector antenna, IEEE Int AP-S Symp, Ontario, Canada, 1991, pp. 666-669.
  5. Hsing-Yi Chen and Yu Tao, "Bandwidth Enhancement of a U-Slot Patch Antenna Using Dual-Band Frequency-Selective Surface With Double Rectangular Ring Elements", MOTL Vol. 53 No. 7, pp 1547-1553, (July 2011).
  6. John P. Gianvittorio,Yahya Rahmat-Samii,"Fractal geometry in antenna system design: miniaturized-multiband element, phased array and frequency selective surfuce design," in Proc. MMWT, 2002, p. 508-511
  7. PhD Thesis of P. P. Sarkar, "Some Studies on FSS", Jadavpur University, 2002.
Index Terms

Computer Science
Information Sciences

Keywords

Bandwidth (bw) Fractal Frequency Selective Surface (fss) Multifrequency Resonating Frequency Size Reduction