TY - GEN
T1 - Modeling dual polarization wireless fading channels using quaternions
AU - Wysocki, B. J.
AU - Wysocki, T. A.
AU - Seberry, J.
PY - 2006
Y1 - 2006
N2 - In the letter we describe signal transmitted between two dual-polarized antennas using a quaternion notation. The channel can then be modeled by a single quaternion gain, instead of a matrix of four complex gains as it is done in a classical approach. The model is very useful as it allows for a simple accommodation of any polarization twist between the transmit and receive antennas, as well as, modeling random fading in both polarizations with or without cross-polar scattering.
AB - In the letter we describe signal transmitted between two dual-polarized antennas using a quaternion notation. The channel can then be modeled by a single quaternion gain, instead of a matrix of four complex gains as it is done in a classical approach. The model is very useful as it allows for a simple accommodation of any polarization twist between the transmit and receive antennas, as well as, modeling random fading in both polarizations with or without cross-polar scattering.
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U2 - 10.1109/tic.2006.1708024
DO - 10.1109/tic.2006.1708024
M3 - Conference contribution
AN - SCOPUS:41649109803
SN - 1424403685
SN - 9781424403684
T3 - SympoTIC'06 - Joint 1st Workshop on Sensor Networks and Symposium on Trends in Communications
SP - 68
EP - 71
BT - SympoTIC'06 - Joint 1st Workshop on Sensor Networks and Symposium on Trends in Communications
PB - IEEE Computer Society
T2 - SympoTIC'06 - Joint 1st Workshop on Sensor Networks and Symposium on Trends in Communications
Y2 - 24 June 2006 through 27 June 2006
ER -