This is documentation for an old release of SciPy (version 1.7.0). Read this page Search for this page in the documentation of the latest stable release (version 1.15.1).

Geometric Distribution

The geometric random variable with parameter \(p\in\left(0,1\right)\) can be defined as the number of trials required to obtain a success where the probability of success on each trial is \(p\) . Thus,

\begin{eqnarray*} p\left(k;p\right) & = & \left(1-p\right)^{k-1}p\quad k\geq1\\ F\left(x;p\right) & = & 1-\left(1-p\right)^{\left\lfloor x\right\rfloor }\quad x\geq1\\ G\left(q;p\right) & = & \left\lceil \frac{\log\left(1-q\right)}{\log\left(1-p\right)}\right\rceil \\ \mu & = & \frac{1}{p}\\ \mu_{2} & = & \frac{1-p}{p^{2}}\\ \gamma_{1} & = & \frac{2-p}{\sqrt{1-p}}\\ \gamma_{2} & = & \frac{p^{2}-6p+6}{1-p}.\end{eqnarray*}

\begin{eqnarray*} M\left(t\right) & = & \frac{p}{e^{-t}-\left(1-p\right)}\end{eqnarray*}

Implementation: scipy.stats.geom

Poisson Distribution Negative Binomial Distribution