Archive for Big’ MC

Wang, Landau, Markov, and others…

Posted in pictures, Statistics, University life with tags , , , , , , , , , on April 11, 2012 by xi'an

On Thursday, the “Big’MC” seminar welcomes two talks (at 3pm and 4pm, resp., in IHP, Amphi Darboux):

  • Orateur :Pierre Jacob (ENSAE) et Robin Ryder (CEREMADE)
  • Titre : Some aspects of the Wang-Landau algorithm.
  • Résumé : The Wang-Landau algorithm is an adaptive MCMC algorithm which generates a Markov chain designed to move efficiently in the state space, by constantly penalizing already-visited regions. It hence falls into the class of exploratory algorithms, especially when the chosen regions correspond to different levels of density values. We explore two novel aspects of the Wang-Landau algorithm. First, we show that the algorithm reaches the so-called Flat Histogram criterion in finite time, which ensures convergence properties. Second, we examine the effect of using multiple chains, interacting through a common component. That component essentially represents the history of already-visited regions, computed on all the chains. We show numerically the benefit of using parallel chains even if a single processing unit is available, in terms of stabilization of the schedule used in the adaptation process. If time permits, we shall present an ongoing attempt to study theoretically the effect of parallelization using Feynman-Kac semigroups.
  • Références http://arxiv.org/abs/1110.4025 et http://arxiv.org/abs/1109.3829


and

  • Orateur : Nick Whiteley ( Univ. Bristol, UK)
  • Titre  : A particle method for approximating principal eigen-functions and related quantities
  • Résumé : Perron-Frobenius theory treats the existence of a positive eigen-vector associated with the principal eigen-value \lambda_{\star} of a non-negative matrix, say Q. A simple method for approximating this eigen-vector involves computing the iterate \lambda_{\star}^{-n}Q^{(n)}, for large n. In the more general case that Q is a non-negative integral kernel, an extended Perron-Frobenius theory applies, but it is typical that neither the principal eigen-function nor the iterate \lambda_{\star}^{-n}Q^{(n)} can be computed exactly. In this setting we introduce an interacting particle algorithm which yields a numerical approximation of the principal eigen-function and the associated twisted Markov kernel. Some of its theoretical properties will be discussed and applications will be outlined. In particular, the algorithm allows approximation of an optimal importance sampling method for Markov chain rare event estimation.
    Joint work with Nikolas Kantas.
  • Référence : http://arxiv.org/abs/1202.6678

Big’MC seminar

Posted in R, Statistics, University life with tags , , , , on January 30, 2010 by xi'an

Two very interesting talks at the Big’ MC seminar on Thursday:

Phylogenetic models and MCMC methods for the reconstruction of language history by Robin Ryder

Uniform and non-uniform random generators by Régis Lebrun

which are both on topics close to my interest, evolution of languages (I’ll be a philologist in another life!) and uniform random generators.

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