The maximum likelihood estimate of alpha is the maximum of x +
epsilon (see the details) and the maximum likelihood estimate of
beta is 1/(log(alpha)-mean(log(x))).
mlpower(x, na.rm = FALSE, epsilon = .Machine$double.eps^0.5)
| x | a (non-empty) numeric vector of data values. |
|---|---|
| na.rm | logical. Should missing values be removed? |
| epsilon | Positive number added to |
mlpower returns an object of class univariateML. This
is a named numeric vector with maximum likelihood estimates for alpha and beta and the following attributes:
modelThe name of the model.
densityThe density associated with the estimates.
logLikThe loglikelihood at the maximum.
supportThe support of the density.
nThe number of observations.
callThe call as captured my match.call
For the density function of the power distribution see PowerDist.
The maximum likelihood estimator of alpha does not exist, strictly
speaking. This is because x is supported c(0, alpha) with
an open endpoint on alpha in the extraDistr implementation of
dpower. If the endpoint was closed, max(x) would have been
the maximum likelihood estimator. To overcome this problem, we add
a possibly user specified epsilon to max(x).
Arslan, G. "A new characterization of the power distribution." Journal of Computational and Applied Mathematics 260 (2014): 99-102.
PowerDist for the power density. Pareto for the closely related Pareto distribution.
mlpower(precip)#> Maximum likelihood estimates for the PowerDist model #> alpha beta #> 67.000 1.312