This site contains code for several purposes and its intended to work within R (http://www.rproject.org/)
 Manuel Febrero Bande y Manuel Oviedo de la Fuente
• fda.usc fda.usc: Functional Data Analysis and Utilities for Statistical Computing (fda.usc). The new R package fda.usc includes methods for:
1. Functional Data Representation 2. Exploratory Functional Data Analysis 3. Functional Outlier Detection 4. Functional Regression with Scalar Response 5. Functional Supervised and NonSupervised Classification 6. Functional ANOVA
The purpose of this package is to integrate own developments in Functional Data Analysis with those from other authors: fda package and/or group STAPH. The package fda.usc is avalaible through CRAN and further documentation are available:
 Manuel Febrero Bande
• PMICALC  Post Mortem Interval Calculator (Update 19/07/2007) This computes Post Mortem Interval using Additive Models (AM) and Support Vector Machines (SVM) from the data obtained by José Ignacio Múñoz Barús and colleagues. The concentration of [K+], [Hx] and [Urea] in the vitreous humour is used to produce the estimation of the Post Mortem Interval. • Depth for Functional Data  (Preliminary Version 18/07/2007) In the following files in R (Depth5.R, Outlier.func.R ) you will find some routines for functional data depth, outliers and bootstrap for functional data following the papers: Cuevas, A.; FebreroBande, M. and Fraiman, R. (2006). "On the use of the bootstrap for estimating functions with functional data". Computational Statistics & Data Analysis 51, nº 2, 10631074. FebreroBande, M.; Galeano, P. and GonzálezManteiga, W. (To appear). "A Functional Analysis of NOx levels: location and scale estimation and outlier detection". Computational Statistics. In press. FebreroBande, M.; Galeano, P. and GonzálezManteiga, W. (To appear). "Outlier detection in functional data by depth measures with application to identify abnormal NOx levels". Environmetrics. • geoR_NP (Update 18/07/2007) geoR_NP.R contains some routines to estimate the variogram & ordinary kriging in a non parametric way. These routines follow the style of library(geoR). This work is based on the following the papers: GARCÍASOIDÁN, P.H.; FEBREROBANDE, M. and GONZÁLEZMANTEIGA, W. (2003). "Local linear regression estimation of the variogram". Statistics & Probability Letters Vol. 64, 169179. GARCÍASOIDÁN, P.H.; FEBREROBANDE, M. and GONZÁLEZMANTEIGA, W. (2004). "Nonparametric kernel estimation of an isotropic variogram.". Journal of Stat. Planning Inference. 121, 6592.
 Beatriz Pateiro López
• Librería alphahull para R alphahull: Generalization of the convex hull of a sample of points in the plane. This package computes the alphashape and alphaconvex hull of a given sample of points in the plane. The concepts of alphashape and alphaconvex hull generalize the definition of the convex hull of a finite set of points. The programming is based on the duality between the Voronoi diagram and Delaunay triangulation. The package also includes a function that returns the Delaunay mesh of a given sample of points and its dual Voronoi diagram in one single object.
• Librería alphashape3d para R
alphashape3d: Implementation of the 3D alphashape for the reconstruction of 3D sets from a point cloud The package alphashape3d presents the implementation in R of the alphashape of a finite set of points in the threedimensional space. This geometric structure generalizes the convex hull and allows to recover the shape of nonconvex and even nonconnected sets in 3D, given a random sample of points taken into it. Besides the computation of the alphashape, the package alphashape3d provides users with functions to compute the volume of the alphashape, identify the connected components and facilitate the threedimensional graphical visualization of the estimated set.
 Rosa María Crujeiras Casais, Carla Moreira y Jacobo de Uña
• Paquete DTDA para R.
DTDA: Doubly truncated data analysis This package implements different algorithms for analyzing randomly truncated data, onesided and twosided (i.e. doubly) truncated data. Two real data sets are included. It incorporates the iterative methods introduced by Efron and Petrosian (1999) and Shen (2008). Estimation of the lifetime distribution function and truncation times distributions is possible, together with the corresponding pointwise confidence limits based on bootstrap methods. Plots of cumulative distributions and survival functions are provided. Two real data sets are included: righttruncated AIDS data and doubly truncated data on quasar luminosities.
 María Oliveira Pérez, Rosa María Crujeiras Casais y Alberto Rodríguez Casal
• Paquete NPCirc: Nonparametric Circular Methods
This package implements nonparametric kernel methods for density and regression estimation for circular data. Specifically, a circular kernel density estimation procedure is provided, jointly with different alternatives for chosing the smoothing parameter. In the regression setting, nonparametric estimation for circularlinear, circularcircular and linearcircular data is also possible via the adaptation of the classical NadarayaWatson and local linear estimators. In order to assess the significance of the features observed in the smooth curves, both for density and regression with a circular covariate and a linear response, a SiZer technique is developed for circular data, namely CircSiZer. Some real data examples are also included in the package.
 Jose Ameijeiras Alonso, Rosa María Crujeiras Casais y Alberto Rodríguez Casal
• Paquete multimode: Mode Testing and Exploring
This package contains different examples and methods for testing and exploring the number of modes using nonparametric techniques. In particular, this package incorporates different test statistics (critical bandwidth and excess mass) and a function including different proposals for testing if the number of modes of a sample is equal to a given number (against if it is greater). Also, given a certain number of modes, it provides an estimation of the locations of modes and antimodes and their density value. Finally, different graphical tools for representing the estimated mode locations for different bandwidths, such as, the mode tree, mode forest or the SiZer, are also implemented.
