borel.tanner: Borel-Tanner Distribution Family Function

An object of class "vglmff"

(see vglmff-class). The object is used by modelling functions such as vglm

and vgam.

The Borel-Tanner distribution (Tanner, 1953) describes the distribution of the total number of customers served before a queue vanishes given a single queue with random arrival times of customers (at a constant rate \(r\) per unit time, and each customer taking a constant time \(b\) to be served). Initially the queue has \(Q\) people and the first one starts to be served. The two parameters appear in the density only in the form of the product \(rb\), therefore we use \(a=rb\), say, to denote the single parameter to be estimated. The density function is $$f(y;a) = \frac{ Q }{(y-Q)!} y^{y-Q-1} a^{y-Q} \exp(-ay) $$ where \(y=Q,Q+1,Q+2,\ldots\). The case \(Q=1\) corresponds to the Borel distribution (Borel, 1942). For the \(Q=1\) case it is necessary for \(0 < a < 1\) for the distribution to be proper. The Borel distribution is a basic Lagrangian distribution of the first kind. The Borel-Tanner distribution is an \(Q\)-fold convolution of the Borel distribution.

The mean is \(Q/(1-a)\) (returned as the fitted values) and the variance is \(Q a / (1-a)^3\). The distribution has a very long tail unless \(a\) is small. Fisher scoring is implemented.