Nothing
#' @title GPoM package: Generalized Polynomial Modelling
#' @description GPoM is a platform dedicated to the Global Modelling
#' technique. Its aim is to obtain deterministic models of
#' Ordinary Differential Equations from observational time series.
#' It applies to single and to multiple time series.
#' With single time series, it can be used:
#' to detect low-dimnesional determinism and low-dimensional
#' (deterministic) chaos. It can also be used to
#' characterize the observed behavior, using the obtained
#' models as a proxy of the original dynamics,
#' as far as the model validation could be checked.
#' With multiple time series, it can be used:
#' to detect couplings between observed variables,
#' to infer causal networks,
#' and to reformulate the original equations of the observed
#' system (retro-modelling).
#' The present package focuses on models in Ordinary Differential
#' Equations of polynomial form.
#' The package was designed to model weakly predictable dynamical
#' behaviors (such as chaotic behaviors).
#' Of course, it can also apply to more of fully predictable
#' behavior, either linear or nonlinear.
#' Several vignettes are associated to the package
#' which can be used as a tutorial,
#' and it also provides an overlook of the diversity
#' of applications and at the performances of the tools.
#' Users are kindly asked to quote the corresponding
#' references when using the package (see hereafter).
#'
#' @author Sylvain Mangiarotti, Flavie Le Jean,
#' Malika Chassan, Laurent Drapeau, Mireille Huc.
#'
#' Maintainer: M. Huc <mireille.huc@@u-paris2.fr>
#'
#' @references
#' [1] J. P. Crutchfield and B. S. McNamara, 1987.
#' Equations of motion from a data series,
#' Complex Systems. 1, 417-452. \cr
#' [2] Gouesbet G., Letellier C., 1994.
#' Global vector-field reconstruction by using a multivariate
#' polynomial L2 approximation on nets,
#' Physical Review E, 49 (6), 4955-4972. \cr
#' [3] C. Letellier, L. Le Sceller, E. Marechal, P. Dutertre, B. Maheu,
#' G. Gouesbet, Z. Fei, and J. L. Hudson, 1995.
#' Global vector field reconstruction from a chaotic experimental
#' signal in copper electrodissolution,
#' Physical Review E, 51, 4262-4266. \cr
#' [4] L. A. Aguirre & C. Letellier,
#' Modeling nonlinear dynamics and chaos: A review,
#' Mathematical Problems in Engineering, 2009, 238960. \cr
#' C. Letellier, L. Le Sceller, E. Marechal, P. Dutertre, B. Maheu,
#' G. Gouesbet, Z. Fei, and J. L. Hudson, 1995.
#' Global vector field reconstruction from a chaotic experimental
#' signal in copper electrodissolution,
#' Physical Review E 51, 4262-4266. \cr
#' [5] J. Maquet, C. Letellier, and L. A. Aguirre, 2007.
#' Global models from the Canadian Lynx cycles as a first evidence
#' for chaos in real ecosystems,
#' Juornal of Mathematical Biology. 55(1), 21-39. \cr
#' [6] Mangiarotti S., Coudret R., Drapeau L., & Jarlan L., 2012.
#' Polynomial search and global modeling : Two algorithms for
#' modeling chaos,
#' Physical Review E, 86, 046205. \cr
#' [7] Mangiarotti S., Drapeau L. & Letellier C., 2014.
#' Two chaotic models for cereal crops observed from satellite in
#' northern Morocco.
#' Chaos, 24(2), 023130. \cr
#' [8] Mangiarotti S., 2015. Low dimensional chaotic models for the
#' plague epidemic in Bombay (1896-1911).
#' Chaos, Solitons and Fractals, 81A, 184-186. \cr
#' [9] Mangiarotti S., Peyre M. & Huc M.,
#' A chaotic model for the epidemic of Ebola Virus Disease in West Africa (2013-2016).
#' Chaos, 26, 113112, 2016. \cr
#' [10] Mangiarotti S., 2014. Modelisation globale et Caracterisation
#' Topologique de dynamiques environnementales - de l'analyse des
#' enveloppes fluides et du couvert de surface de la Terre a la
#' caracterisation topolodynamique du chaos.
#' Habilitation to Direct Research,
#' University of Toulouse 3, France. \cr
#' [11] Mangiarotti S., Sharma A.K., Corgne S., Hubert-Moy L., Ruiz L., Sekhar M., Kerr Y.,
#' Can the global modelling technique be used for crop classification?
#' Chaos, Solitons & Fractals, in press. \cr
#'
#' @note
#' FOR USERS \cr
#' This package was developped at Centre d'Etudes Spatiales de
#' la Biosphere (Cesbio, UMR 5126, UPS-CNRS-CNES-IRD,
#' http://www.cesbio.ups-tlse.fr).
#' An important part of the developments were funded by
#' the French program Les Enveloppes Fluides et l'Environnement
#' (LEFE, MANU, projets GloMo, SpatioGloMo and MoMu).
#' The French program Défi InFiNiTi (CNRS) and PNTS
#' are also acknowledged (projects Crops'IChaos and Musc & SlowFast).
#'
#' If you apply this package to single time series,
#' please quote [6].
#' If you apply it to multivariate time series,
#' please quote [10].
#' If you apply it to infer couplings among
#' time series, please quote [8].
#' If you apply it to classification, please quote [11].
#'
#' @note
#' HISTORICAL BACKGROUND \cr
#' The global modelling technique was initiated during
#' the early 1990s [1-3]. It takes its background from
#' the Theory of Nonlinear Dynamical Systems.
#' Earlier investigations can also be found in the fields
#' of Electrical Engineering and Statistics but these
#' mainly focused on linear problems [4].
#' The approach became applicable to the analysis of real world
#' environmental behaviours by the end of the 2000s [5-7].
#' Recent works have shown that the approach could be applied to
#' numerous other dynamical behaviors [8-10].
#' Global modelling aims to obtain deterministic models
#' directly from observed time series.
#'
#' @encoding UTF-8
#'
#' @docType package
#' @name GPoM-package
#' @concept global modeling
#' @concept nonlinear dynamical systems
#' @concept chaos
#' @concept causal inference
#' @concept time series analysis
#' @concept data learning
NA
Any scripts or data that you put into this service are public.
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.