An Empirical Study on the Performance of Wireless OFDM Communications in Highly Reverberant Environments

by R. Measel, C. S. Lester, D. J. Bucci, K. Wanuga, G. Tait, R. Primerano, K. R. Dandekar and M. Kam
Reference:
R. Measel, C. S. Lester, D. J. Bucci, K. Wanuga, G. Tait, R. Primerano, K. R. Dandekar, M. Kam, “An Empirical Study on the Performance of Wireless OFDM Communications in Highly Reverberant Environments”, IEEE Transactions on Wireless Communications, vol. 15, no. 7, pp. 4802-4812, 2016.
Bibtex Entry:
@ARTICLE{7440869, 
author={R. Measel and C. S. Lester and D. J. Bucci and K. Wanuga and G. Tait and R. Primerano and K. R. Dandekar and M. Kam}, 
journal={IEEE Transactions on Wireless Communications}, 
title={An Empirical Study on the Performance of Wireless OFDM Communications in Highly Reverberant Environments}, 
year={2016}, 
volume={15}, 
number={7}, 
pages={4802-4812}, 
keywords={aperture-coupled antennas;diversity reception;OFDM modulation;radio networks;radio receivers;radiowave propagation;reverberation chambers;software radio;wireless OFDM communications;reverberation chamber improvement;highly reverberant electromagnetic environments;loading control;effective aperture;software defined radio measurement plat- form;coupled cavity improvement;link-level metrics selection;error vector magnitude;post processing signal-to-noise ratio;throughput;link quality degradation;maximal ratio combining receiver diversity scheme;time-dependent model;RF propagation;Cavity resonators;Wireless communication;Reverberation chambers;Delays;Apertures;Bandwidth;electromagnetic coupling;fading;multipath channels;OFDM;phase shift keying;quadrature amplitude modulation;receiving antennas;reverberation chambers;signal to noise ratio;SISO;SIMO;throughput;wireless communication}, 
doi={10.1109/TWC.2016.2546879}, 
ISSN={1536-1276}, 
month={July},}