Factorial moment generating function
In probability theory and statistics, the factorial moment generating function (FMGF) of the probability distribution of a real-valued random variable X is defined as
- [math]\displaystyle{ M_X(t)=\operatorname{E}\bigl[t^{X}\bigr] }[/math]
for all complex numbers t for which this expected value exists. This is the case at least for all t on the unit circle [math]\displaystyle{ |t|=1 }[/math], see characteristic function. If X is a discrete random variable taking values only in the set {0,1, ...} of non-negative integers, then [math]\displaystyle{ M_X }[/math] is also called probability-generating function (PGF) of X and [math]\displaystyle{ M_X(t) }[/math] is well-defined at least for all t on the closed unit disk [math]\displaystyle{ |t|\le1 }[/math].
The factorial moment generating function generates the factorial moments of the probability distribution. Provided [math]\displaystyle{ M_X }[/math] exists in a neighbourhood of t = 1, the nth factorial moment is given by [1]
- [math]\displaystyle{ \operatorname{E}[(X)_n]=M_X^{(n)}(1)=\left.\frac{\mathrm{d}^n}{\mathrm{d}t^n}\right|_{t=1} M_X(t), }[/math]
where the Pochhammer symbol (x)n is the falling factorial
- [math]\displaystyle{ (x)_n = x(x-1)(x-2)\cdots(x-n+1).\, }[/math]
(Many mathematicians, especially in the field of special functions, use the same notation to represent the rising factorial.)
Examples
Poisson distribution
Suppose X has a Poisson distribution with expected value λ, then its factorial moment generating function is
- [math]\displaystyle{ M_X(t) =\sum_{k=0}^\infty t^k\underbrace{\operatorname{P}(X=k)}_{=\,\lambda^ke^{-\lambda}/k!} =e^{-\lambda}\sum_{k=0}^\infty \frac{(t\lambda)^k}{k!} = e^{\lambda(t-1)},\qquad t\in\mathbb{C}, }[/math]
(use the definition of the exponential function) and thus we have
- [math]\displaystyle{ \operatorname{E}[(X)_n]=\lambda^n. }[/math]
See also
References
- ↑ Néri, Breno de Andrade Pinheiro (2005-05-23). "Generating Functions". http://homepages.nyu.edu/~bpn207/Teaching/2005/Stat/Generating_Functions.pdf.
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