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},}