\name{sn.Einfo} \alias{sn.Einfo} \title{ Expected Fisher information for SN distribution parameters } \description{ Computes expected Fisher information for parameters of simple sample having one-dimensional skew-normal (SN) distribution or regression model having SN errors, in the DP and CP parametrizations. } \usage{ sn.Einfo(dp=NULL, cp=NULL, n=1, x=NULL) } \arguments{ \item{dp, cp}{vector of direct or centred parameters, respectively; one of the two vectors must be supplied, but not both. See below for more details. } \item{n}{sample size; if this parameter is supplied, then \code{x} must not be. } \item{x}{design matrix of the regression model; if this parameter is supplied, then \code{n} must not be. }} \value{ a list containing the following components: \item{dp, cp}{ DP and CP parameters; one of the two vectors is the one supplied on input, the other one matches the previous one in the alternative parametrization } \item{info.dp, info.cp}{ matrices of Fisher expected information in the two parametrizations } \item{se.dp, se.cp}{ vectors of standard errors in the two parametrizations } \item{D}{ matrix of derivatives of DP parameters with respect to CP parameters } } \section{Details}{ When \code{x} is not set, then a simple random sample is assumed and a matrix \code{x} with a single column of all 1's is constructed; in this case, the supplied vector \code{dp} or \code{cp} must have length 3. If \code{x} is set, then the supplied vector of parameters must have length \code{ncol(x)+2}. } \section{Background}{ For the description of the DP and CP parametrizations and for the expression of the exptected Fisher information of the DP parametrizations, see Azzalini (1985). Further discussion is in Azzalini and Capitanio (1999). } \references{ Azzalini, A. (1985). A class of distributions which includes the normal ones. \emph{Scand. J. Statist.} \bold{12}, 171-178. Azzalini, A. and Capitanio, A. (1999). Statistical applications of the multivariate skew-normal distribution. \emph{J.Roy.Statist.Soc. B} \bold{61}, 579--602. } \seealso{ \code{\link{dsn}}, \code{\link{cp.to.dp}}, \code{\link{dp.to.cp}} } \examples{ info <- sn.Einfo(dp=c(0,1,5), n=3) # data(ais, package="sn") M <- model.matrix(~ais$"Ht") mle <- sn.mle(X=M, y=ais$"Wt", plot.it=FALSE) info <- sn.Einfo(cp=mle$cp, x=M) } \keyword{distribution}