betaff: The Two-parameter Beta Distribution Family Function

An object of class "vglmff" (see vglmff-class). The object is used by modelling functions such as vglm, and vgam.

The two-parameter beta distribution can be written \(f(y) =\) $$(y-A)^{\mu_1 \phi-1} \times (B-y)^{(1-\mu_1) \phi-1} / [beta(\mu_1 \phi,(1-\mu_1) \phi) \times (B-A)^{\phi-1}]$$ for \(A < y < B\), and \(beta(.,.)\) is the beta function (see beta). The parameter \(\mu_1\) satisfies \(\mu_1 = (\mu - A) / (B-A)\) where \(\mu\) is the mean of \(Y\). That is, \(\mu_1\) is the mean of of a standard beta distribution: \(E(Y) = A + (B-A) \times \mu_1\), and these are the fitted values of the object. Also, \(\phi\) is positive and \(A < \mu < B\). Here, the limits \(A\) and \(B\) are known.

Another parameterization of the beta distribution involving the raw shape parameters is implemented in betaR.

For general \(A\) and \(B\), the variance of \(Y\) is \((B-A)^2 \times \mu_1 \times (1-\mu_1) / (1+\phi)\). Then \(\phi\) can be interpreted as a precision parameter in the sense that, for fixed \(\mu\), the larger the value of \(\phi\), the smaller the variance of \(Y\). Also, \(\mu_1 = shape1/(shape1+shape2)\) and \(\phi = shape1+shape2\). Fisher scoring is implemented.