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