@misc{10481/80531,
year = {2022},
month = {5},
url = {https://hdl.handle.net/10481/80531},
abstract = {We present a composite wireless fading model encompassing
multipath fading and shadowing based on fluctuating
two-ray (FTR) fading and inverse gamma (IG) shadowing.
We first determine an alternative framework for the statistical
characterization and performance evaluation of the FTR fading
model, which is based on the fact that the FTR fading distribution
can be described as an underlying Rician Shadowed (RS)
distribution with continuously varying parameter Kr (ratio of
specular to diffuse components). We demonstrate that this new
formulation permits to obtain a closed-form expression of the
generalized moment generating function (GMGF) of the FTR
model, from which the PDF and CDF of the composite IG/FTR
model can be obtained in closed-form. The exact and asymptotic
outage probability of the IG/FTR model are analyzed and verified
by Monte Carlo simulations.},
organization = {Junta de Andalucía the European
Union and the European Fund for Regional Development FEDER
through grant P18-RT-3175},
organization = {Consejería de Transformación
Económica, Industria, Conocimiento y Universidades EMERGIA (ref. EMERGIA20 00297)},
organization = {MCIN/AEI/10.13039/501100011033 through grant PID2020-118139RB-I00},
publisher = {IEEE},
keywords = {Fluctuating Two-Ray},
keywords = {Rician Shadowed},
keywords = {Generalized MGF},
keywords = {Composite fading},
keywords = {Inverse Gamma distribution},
title = {Composite IG/FTR Channel Performance in Wireless Communication Systems},
author = {Olyaee, Maryam and López Martínez, Francisco Javier},
}