Title :
A Model for Correlated Rician Fading Channels Based on a Finite Queue
Author :
Zhong, Libo ; Alajaji, Fady ; Takahara, Glen
Author_Institution :
Queen´´s Univ., Kingston
Abstract :
We study the problem of approximating the family of hard-decision frequency-shift keying demodulated correlated flat Rician fading channels via a recently introduced queue-based channel (QBC) model for binary communication channels with memory. For a given ldquodiscretizedrdquo fading channel, we construct a QBC whose noise process is statistically ldquocloserdquo in the Kullback-Leibler sense to the error or noise process that is generated by the fading channel, and the modeling accuracy is evaluated in terms of noise autocorrelation function (ACF) and channel capacity. Numerical results indicate that the QBC provides a good approximation of the fading channels for a wide range of channel conditions. Furthermore, it estimates the noise ACF more accurately than the finite-state Markov models that have been recently studied by Pimentel , while, at the same time, remaining mathematically tractable.
Keywords :
Rician channels; channel capacity; correlation methods; demodulation; error statistics; frequency shift keying; queueing theory; ACF; QBC model; binary communication channels; channel capacity; correlated flat Rician fading channel; error statistics; hard-decision frequency-shift keying demodulation; noise autocorrelation function; queue-based channel; Autocorrelation function (ACF); Kullback–Leibler divergence rate (KLDR); Kullback-Leibler diver-gence rate; Modeling of communication channels with memory; autocorrelation function; capacity; correlated Rician fading; error statistics; modeling of communication channels with memory;
Journal_Title :
Vehicular Technology, IEEE Transactions on
DOI :
10.1109/TVT.2007.904502
