by K. Wanuga, R. Measel, C. S. Lester, D. J. Bucci, D. Gonzalez, R. Primerano, M. Kam and K. R. Dandekar
Reference:
K. Wanuga, R. Measel, C. S. Lester, D. J. Bucci, D. Gonzalez, R. Primerano, M. Kam, K. R. Dandekar, “Performance Evaluation of MIMO OFDM Systems in On-Ship Below-Deck Environments”, IEEE Antennas and Wireless Propagation Letters, vol. 13, pp. 173-176, 2014.
Bibtex Entry:
@ARTICLE{6710126, author={K. Wanuga and R. Measel and C. S. Lester and D. J. Bucci and D. Gonzalez and R. Primerano and M. Kam and K. R. Dandekar}, journal={IEEE Antennas and Wireless Propagation Letters}, title={Performance Evaluation of MIMO OFDM Systems in On-Ship Below-Deck Environments}, year={2014}, volume={13}, number={}, pages={173-176}, keywords={channel capacity;diversity reception;intersymbol interference;military communication;MIMO communication;OFDM modulation;ships;space-time codes;telecommunication network reliability;MIMO;OFDM;on-ship below-deck environments;naval vessels;wireless networks;electromagnetic waves propagation;orthogonal frequency-division multiplexing;intersymbol interference;multiple antennas;channel diversity;communications reliability;physical layers;Thomas S. Gates;CG 51;Ticonderoga-class US Navy cruiser;wireless local area network;WLAN;Alamouti space-time coding;multiple-input-multiple-output spatial multiplexing;maximal ratio combining;conventional single-input-single-output system;SISO;bit rate 36 Mbit/s;bit rate 18 Mbit/s;MIMO;Receivers;Physical layer;Throughput;OFDM;Engines;Channel capacity;Electromagnetically reflective spaces;multiple- input?multiple-output (MIMO);orthogonal frequency-division multiplexing (OFDM);shipboard propagation;software radio}, doi={10.1109/LAWP.2014.2299758}, ISSN={1536-1225}, month={},}