Weibull fading, named after Waloddi Weibull, is a simple statistical model of fading used in wireless communications and based on the Weibull distribution. Empirical studies have shown it to be an effective model in both indoor[1] and outdoor[2] environments.
In 2005, a theoretical model for a particular class of Weibull distributions was described by Sagias and Karagiannidis,[3] who also analyzed channel capacity of a wireless channel in the presence of Weibull fading.[4]
References
edit- ^ "Coverage prediction for mobile radio systems operating in the 800/900 MHz frequency range". IEEE Transactions on Vehicular Technology. 37: 3–72. 1988. doi:10.1109/25.42678.
- ^ Hashemi, H. (1993). "The indoor radio propagation channel". Proceedings of the IEEE. 81 (7): 943–968. doi:10.1109/5.231342.
- ^ Sagias, N.C.; Karagiannidis, G.K. (2005). "Gaussian Class Multivariate Weibull Distributions: Theory and Applications in Fading Channels". IEEE Transactions on Information Theory. 51 (10): 3608–3619. doi:10.1109/TIT.2005.855598. S2CID 14654176.
- ^ Sagias, N.C.; Zogas, D.A.; Karagiannidis, G.K.; Tombras, G.S. (2004). "Channel Capacity and Second-Order Statistics in Weibull Fading". IEEE Communications Letters. 8 (6): 377–379. doi:10.1109/LCOMM.2004.831319. S2CID 3996021.
- Daoud Yacoub, M. (2002). "The α-μ distribution: A general fading distribution". The 13th IEEE International Symposium on Personal, Indoor and Mobile Radio Communications. Vol. 2. pp. 629–633. doi:10.1109/pimrc.2002.1047298. ISBN 0-7803-7589-0.