Title :
Physically motivated fast-fading model for indoor peer-to-peer channels
Author :
Bandemer, B. ; Oestges, C. ; Czink, N. ; Paulraj, A.
Author_Institution :
Smart Antennas Res. Group, Stanford Univ., Stanford, CA
Abstract :
To model the fast-fading statistics of the wireless transmission channel in indoor peer-to-peer scenarios, an amplitude distribution composed of three distinct components was investigated. They correspond to line-of-sight, once-reflected and twice-reflected propagation paths. It is shown experimentally that this distribution matches indoor peer-to-peer links better than the available alternatives. Furthermore, an interesting structure in the parameter space of the distribution is pointed out, leading to a simple stochastic parameterisation based on a three-modal normal distribution.
Keywords :
fading channels; indoor radio; mobile radio; normal distribution; radiowave propagation; stochastic processes; time-varying channels; amplitude distribution; fast-fading statistics; indoor peer-to-peer channels; once-reflected propagation path; stochastic parameterisation; three-modal normal distribution; twice-reflected propagation path; wireless transmission channel;
Journal_Title :
Electronics Letters
DOI :
10.1049/el.2009.0711
