gevN

Likelihood, score function and information matrix,
approximate ancillary statistics and sample space derivative
for the generalized extreme value distribution parametrized in terms of the
quantiles/mean of N-block maxima parametrization \(z\), scale and shape.

Various tools for the analysis of univariate, multivariate and functional extremes. Exact simulation from max-stable processes [Dombry, Engelke and Oesting (2016) <doi:10.1093/biomet/asw008>, R-Pareto processes for various parametric models, including Brown-Resnick (Wadsworth and Tawn, 2014, <doi:10.1093/biomet/ast042>) and Extremal Student (Thibaud and Opitz, 2015, <doi:10.1093/biomet/asv045>). Threshold selection methods, including Wadsworth (2016) <doi:10.1080/00401706.2014.998345>, and Northrop and Coleman (2014) <doi:10.1007/s10687-014-0183-z>. Multivariate extreme diagnostics. Estimation and likelihoods for univariate extremes, e.g., Coles (2001) <doi:10.1007/978-1-4471-3675-0>.

Leo Belzile

Modelling of Extreme Values

Jennifer L. Wadsworth

Paul J. Northrop

Scott D. Grimshaw

Jin Zhang

Michael A. Stephens

Art B. Owen

Raphael Huser

gevN function

<dl><dt>par</dt>
<dd>vector of <code>loc</code>, quantile/mean of N-block maximum and <code>shape</code></dd>
<dt>dat</dt>
<dd>sample vector</dd>
<dt>V</dt>
<dd>vector calculated by <code>gevN.Vfun</code></dd>
<dt>q</dt>
<dd>probability, corresponding to \(q\)th quantile of the <code>N</code>-block maximum</dd>
<dt>qty</dt>
<dd>string indicating whether to calculate the <code>q</code> quantile or the mean</dd></dl>

Arguments

<pre><code>gevN.ll(par, dat, N, q, qty = c('mean', 'quantile'))
gevN.ll.optim(par, dat, N, q = 0.5, qty = c('mean', 'quantile'))
gevN.score(par, dat, N, q = 0.5, qty = c('mean', 'quantile'))
gevN.infomat(par, dat, qty = c('mean', 'quantile'), method = c('obs', 'exp'), N, q = 0.5, nobs = length(dat))
gevN.Vfun(par, dat, N, q = 0.5, qty = c('mean', 'quantile'))
gevN.phi(par, dat, N, q = 0.5, qty = c('mean', 'quantile'), V)
gevN.dphi(par, dat, N, q = 0.5, qty = c('mean', 'quantile'), V)</code></pre>

Usage

<ul>
<li><code>gevN.ll</code>: log likelihood</li>
<li><code>gevN.score</code>: score vector</li>
<li><code>gevN.infomat</code>: expected and observed information matrix</li>
<li><code>gevN.Vfun</code>: vector implementing conditioning on approximate ancillary statistics for the TEM</li>
<li><code>gevN.phi</code>: canonical parameter in the local exponential family approximation</li>
<li><code>gevN.dphi</code>: derivative matrix of the canonical parameter in the local exponential family approximation</li>
</ul>

Functions

Author

Generalized extreme value distribution (quantile/mean of N-block maxima parametrization) — gevN

<dl>

<dt>par</dt>
<dd>vector of <code>loc</code>, quantile/mean of N-block maximum and <code>shape</code></dd>


<dt>dat</dt>
<dd>sample vector</dd>


<dt>V</dt>
<dd>vector calculated by <code>gevN.Vfun</code></dd>


<dt>q</dt>
<dd>probability, corresponding to \(q\)th quantile of the <code>N</code>-block maximum</dd>


<dt>qty</dt>
<dd>string indicating whether to calculate the <code>q</code> quantile or the mean</dd>

</dl>

<ul>
<li><code>gevN.ll</code>: log likelihood</li>
<li><code>gevN.score</code>: score vector</li>
<li><code>gevN.infomat</code>: expected and observed information matrix</li>
<li><code>gevN.Vfun</code>: vector implementing conditioning on approximate ancillary statistics for the TEM</li>
<li><code>gevN.phi</code>: canonical parameter in the local exponential family approximation</li>
<li><code>gevN.dphi</code>: derivative matrix of the canonical parameter in the local exponential family approximation</li>
</ul>

gevN: Generalized extreme value distribution (quantile/mean of N-block maxima parametrization)

Description

Arguments

Usage

Functions

Author