Flexible lognormal sum approximation method

Author

Wu, Jingxian ; Mehta, Neelesh B. ; Zhang, Jin

Author_Institution

Dept. of Eng. Sci., Sonoma State Univ., Rohnert Park, CA

Volume

6

fYear

2005

fDate

2-2 Dec. 2005

Firstpage

3413

Lastpage

3417

Abstract

A simple and novel method is presented to approximate the distribution of the sum of independent, but not necessarily identical, lognormal random variables, by the lognormal distribution. It is shown that matching a short Gauss-Hermite approximation of the moment generating function of the lognormal sum with that of the lognormal distribution leads to an accurate lognormal sum approximation. The advantage of the proposed method over the ones in the literature, such as the Fenton-Wilkinson method, Schwartz-Yeh method, and the recently proposed Beaulieu-Xie method, is that it provides the parametric flexibility to handle the inevitable trade-off that needs to be made in approximating different regions of the probability distribution function. The accuracy is verified using extensive simulations based on a cellular layout

Keywords

Gaussian processes; approximation theory; cellular radio; log normal distribution; Beaulieu-Xie method; Fenton-Wilkinson method; Gauss-Hermite approximation; Schwartz-Yeh method; flexible lognormal sum approximation method; lognormal distribution; lognormal random variables; moment generating function; probability distribution function; Approximation methods; Attenuation; Closed-form solution; Gaussian approximation; Gaussian distribution; Mobile communication; Probability distribution; Random variables; Shadow mapping; Ultra wideband communication;

fLanguage

English

Publisher

ieee

Conference_Titel

Global Telecommunications Conference, 2005. GLOBECOM '05. IEEE

Conference_Location

St. Louis, MO

Print_ISBN

0-7803-9414-3

Type

conf

DOI

10.1109/GLOCOM.2005.1578407

Filename

1578407