Uses Newton-Raphson to estimate the parameters of the Lomax distribution.
mllomax(x, na.rm = FALSE, start = NULL, rel.tol = .Machine$double.eps^0.25, iterlim = 100)
| x | a (non-empty) numeric vector of data values. |
|---|---|
| na.rm | logical. Should missing values be removed? |
| start | An optional starting value for the |
| rel.tol | Relative accuracy requested. |
| iterlim | A positive integer specifying the maximum number of iterations to be performed before the program is terminated. |
mllomax returns an object of class univariateML. This
is a named numeric vector with maximum likelihood estimates for lambda and kappa 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 Lomax distribution see Lomax.
The maximum likelihood estimate will frequently fail to exist. This is due to
the parameterization of the function which does not take into account that
the density converges to an exponential along certain values of the parameters,
see vignette("Distribution Details", package = "univariateML").
Kleiber, Christian; Kotz, Samuel (2003), Statistical Size Distributions in Economics and Actuarial Sciences, Wiley Series in Probability and Statistics, 470, John Wiley & Sons, p. 60
Lomax for the Lomax density.
#> Maximum likelihood estimates for the Lomax model #> lambda kappa #> 1.054 6.764