A MATLAB platform for characterizing MIMO-OFDM communications with software-defined radios

by R. Measel, D. J. Bucci, C. S. Lester, K. Wanuga, R. Primerano, K. R. Dandekar and M. Kam
Reference:
R. Measel, D. J. Bucci, C. S. Lester, K. Wanuga, R. Primerano, K. R. Dandekar, M. Kam, “A MATLAB platform for characterizing MIMO-OFDM communications with software-defined radios”, In 2014 IEEE International Workshop Technical Committee on Communications Quality and Reliability (CQR), pp. 1-6, 2014.
Bibtex Entry:
@INPROCEEDINGS{7152637, 
author={R. Measel and D. J. Bucci and C. S. Lester and K. Wanuga and R. Primerano and K. R. Dandekar and M. Kam}, 
booktitle={2014 IEEE International Workshop Technical Committee on Communications Quality and Reliability (CQR)}, 
title={A MATLAB platform for characterizing MIMO-OFDM communications with software-defined radios}, 
year={2014}, 
volume={}, 
number={}, 
pages={1-6}, 
keywords={channel capacity;mathematics computing;MIMO communication;software radio;space division multiplexing;wireless LAN;MATLAB platform;MIMO-OFDM communications;wireless measurement platform;IEEE 802.11g MIMO-OFDM physical layer scheme;software-defined radio architecture;maximal ratio combining;Alamouti coding;spatial multiplexing;channel capacity;error vector magnitude;EVM;post-processing signal-to-noise ratio;PP-SNR;OFDM;Physical layer;Wireless communication;Training;Measurement;Signal to noise ratio;Receivers}, 
doi={10.1109/CQR.2014.7152637}, 
ISSN={2163-5595}, 
month={May},}