Title :
A simple two-tap statistical model for the power line channel
Author_Institution :
Panasonic Corporation, USA
Abstract :
It has been reported that channel attenuation and Root-Mean-Square Delay Spread (RMS-DS) of in-home (IH) power line (PL) channels are (positively) correlated lognormal random variables. Exploiting this result, we here propose a simple statistical channel model where tap amplitudes and differential delay are correlated random variables. Although we focus here on the IH PL channel, we also report empirical results that indicate that the proposed approach may be valid for other communications channels as well. We conclude pointing out that those channel models that contain some sort of channel Signal-to-Noise Ratio (SNR) normalization, an operation that naturally removes this correlation between channel attenuation and RMS-DS, should be used with caution.
Keywords :
carrier transmission on power lines; channel estimation; log normal distribution; channel attenuation; channel signal-to-noise ratio normalization; communication channel; correlated lognormal random variables; correlated random variables; differential delay; in-home power line channel; root-mean-square delay spread; statistical channel model; tap amplitudes; two-tap statistical model; Attenuation; Communication channels; Communication systems; Delay effects; Physics; Power transmission lines; Random variables; Topology; Transmission line theory; Transmission lines;
Conference_Titel :
Power Line Communications and Its Applications (ISPLC), 2010 IEEE International Symposium on
Conference_Location :
Rio de Janeiro
Print_ISBN :
978-1-4244-5009-1
Electronic_ISBN :
978-1-4244-5010-7
DOI :
10.1109/ISPLC.2010.5479916
