Marshall–Olkin exponential distribution explained

In applied statistics, the Marshall–Olkin exponential distribution is any member of a certain family of continuous multivariate probability distributions with positive-valued components. It was introduced by Albert W. Marshall and Ingram Olkin. One of its main uses is in reliability theory, where the Marshall–Olkin copula models the dependence between random variables subjected to external shocks.

Definition

Let

\{E_B:\varnothing\neB\subset\{1,2,\ldots,b\}\}

be a set of independent, exponentially distributed random variables, where

E_B

has mean

1/λ_B

. Let

T_j=min\{E_B:j\inB\}, j=1,\ldots,b.

The joint distribution of

T=(T_1,\ldots,T_b)

is called the Marshall–Olkin exponential distribution with parameters

\{λ_B,B\subset\{1,2,\ldots,b\}\}.

Concrete example

Suppose b = 3. Then there are seven nonempty subsets of = ; hence seven different exponential random variables:

E_\{1\

}, E_, E_, E_, E_, E_, E_Then we have:

\begin{align} T₁&=min\{E_\{1\

}, E_, E_, E_ \} \\T_2 & = \min\ \\T_3 & = \min\ \\\end

References

Xu M, Xu S. "An Extended Stochastic Model for Quantitative Security Analysis of Networked Systems". Internet Mathematics, 2012, 8(3): 288–320.