4 research outputs found
Parallel Metropolis chains with cooperative adaptation
Monte Carlo methods, such as Markov chain Monte Carlo (MCMC) algorithms, have
become very popular in signal processing over the last years. In this work, we
introduce a novel MCMC scheme where parallel MCMC chains interact, adapting
cooperatively the parameters of their proposal functions. Furthermore, the
novel algorithm distributes the computational effort adaptively, rewarding the
chains which are providing better performance and, possibly even stopping other
ones. These extinct chains can be reactivated if the algorithm considers
necessary. Numerical simulations shows the benefits of the novel scheme
Orthogonal parallel MCMC methods for sampling and optimization
Monte Carlo (MC) methods are widely used for Bayesian inference and
optimization in statistics, signal processing and machine learning. A
well-known class of MC methods are Markov Chain Monte Carlo (MCMC) algorithms.
In order to foster better exploration of the state space, specially in
high-dimensional applications, several schemes employing multiple parallel MCMC
chains have been recently introduced. In this work, we describe a novel
parallel interacting MCMC scheme, called {\it orthogonal MCMC} (O-MCMC), where
a set of "vertical" parallel MCMC chains share information using some
"horizontal" MCMC techniques working on the entire population of current
states. More specifically, the vertical chains are led by random-walk
proposals, whereas the horizontal MCMC techniques employ independent proposals,
thus allowing an efficient combination of global exploration and local
approximation. The interaction is contained in these horizontal iterations.
Within the analysis of different implementations of O-MCMC, novel schemes in
order to reduce the overall computational cost of parallel multiple try
Metropolis (MTM) chains are also presented. Furthermore, a modified version of
O-MCMC for optimization is provided by considering parallel simulated annealing
(SA) algorithms. Numerical results show the advantages of the proposed sampling
scheme in terms of efficiency in the estimation, as well as robustness in terms
of independence with respect to initial values and the choice of the
parameters
Parallel Metropolis chains with cooperative adaptation
International audienc
Parallel metropolis chains with cooperative adaptation
Monte Carlo methods, such as Markov chain Monte Carlo (MCMC) algorithms, have become very popular in signal processing over the last years. In this work, we introduce a novel MCMC scheme where parallel MCMC chains interact, adapting cooperatively the parameters of their proposal functions. Furthermore, the novel algorithm distributes the computational effort adaptively, rewarding the chains which are providing better performance and, possibly even stopping other ones. These extinct chains can be reactivated if the algorithm considers it necessary. Numerical simulations show the benefits of the novel scheme