Performance of Reconfigurable Antennas in a Below-Decks Environment

by C. S. Lester, D. J. Bucci, R. Measel, K. Wanuga, R. Primerano, K. R. Dandekar and M. Kam
Reference:
C. S. Lester, D. J. Bucci, R. Measel, K. Wanuga, R. Primerano, K. R. Dandekar, M. Kam, “Performance of Reconfigurable Antennas in a Below-Decks Environment”, IEEE Antennas and Wireless Propagation Letters, vol. 14, pp. 1093-1096, 2015.
Bibtex Entry:
@ARTICLE{7018015, 
author={C. S. Lester and D. J. Bucci and R. Measel and K. Wanuga and R. Primerano and K. R. Dandekar and M. Kam}, 
journal={IEEE Antennas and Wireless Propagation Letters}, 
title={Performance of Reconfigurable Antennas in a Below-Decks Environment}, 
year={2015}, 
volume={14}, 
number={}, 
pages={1093-1096}, 
keywords={channel capacity;interference suppression;multipath channels;omnidirectional antennas;radiofrequency interference;radiotelemetry;software radio;wireless channels;below-deck environment;multipath interference mitigation;channel capacity;wireless network;software defined radio;metallic environment;industrial application;military application;electrically reconfigurable antenna;omnidirectional antenna;IEEE 802.11-like physical layer;wireless measurement;decommissioned Ticonderoga-class U.S. Navy cruiser;postprocessing signal to noise ratio;PP-SNR;antenna pattern diversity;Receivers;Wireless communication;Omnidirectional antennas;Physical layer;Gain;Electromagnetically reflective spaces;MIMO;OFDM;reconfigurable antennas;shipboard propagation}, 
doi={10.1109/LAWP.2015.2394480}, 
ISSN={1536-1225}, 
month={},}