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Mean Field Simulation for Monte Carlo Integration

Pierre Del Moral
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A01=Pierre Del Moral
advanced Monte Carlo simulation methods
advanced particle algorithms
applications of Monte Carlo simulation
Author_Pierre Del Moral
Boltzmann Gibbs Measures
Boltzmann Gibbs Transformation
Category=PBT
chain
computational statistics
Elementary Transition
ensemble Kalman filter
eq_isMigrated=1
eq_isMigrated=2
eq_nobargain
Evolution Equation
feynman
Feynman Kac
Feynman Kac Measure
Feynman Kac Models
Feynman Kac Semigroups
Feynman-Kac particle models
Field Particle Model
Finite Constants
Function Fn
genetic particle algorithms
hidden Markov models
interacting particle methods
Ips Model
kac
linear and nonlinear measure-valued processes
markov
Markov Chain
Markov Chain Model
Markov Transitions
mean field Monte Carlo particle algorithms
mean field particle simulation models
measurable
Measurable State Space
Measurable State Spaces En
measures
model
Monte Carlo integration and stochastic algorithms
Occupation Measure
Orlicz
Orlicz Norm
Particle Absorption Models
Particle Density Profiles
particle filtering algorithms
Potential Functions Gn
quantum and diffusion Monte Carlo methods
Random Fields
refined convergence analysis on nonlinear Markov chain models
Slutsky's Lemma
Slutsky’s Lemma
spaces
state
stochastic modeling
stochastic perturbation analysis
transitions
uncertainty quantification

Product details

  • ISBN 9781138198739
  • Weight: 1170g
  • Dimensions: 156 x 234mm
  • Publication Date: 26 Oct 2016
  • Publisher: Taylor & Francis Ltd
  • Publication City/Country: GB
  • Product Form: Paperback
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Description

In the last three decades, there has been a dramatic increase in the use of interacting particle methods as a powerful tool in real-world applications of Monte Carlo simulation in computational physics, population biology, computer sciences, and statistical machine learning. Ideally suited to parallel and distributed computation, these advanced particle algorithms include nonlinear interacting jump diffusions; quantum, diffusion, and resampled Monte Carlo methods; Feynman-Kac particle models; genetic and evolutionary algorithms; sequential Monte Carlo methods; adaptive and interacting Markov chain Monte Carlo models; bootstrapping methods; ensemble Kalman filters; and interacting particle filters.

Mean Field Simulation for Monte Carlo Integration presents the first comprehensive and modern mathematical treatment of mean field particle simulation models and interdisciplinary research topics, including interacting jumps and McKean-Vlasov processes, sequential Monte Carlo methodologies, genetic particle algorithms, genealogical tree-based algorithms, and quantum and diffusion Monte Carlo methods.

Along with covering refined convergence analysis on nonlinear Markov chain models, the author discusses applications related to parameter estimation in hidden Markov chain models, stochastic optimization, nonlinear filtering and multiple target tracking, stochastic optimization, calibration and uncertainty propagations in numerical codes, rare event simulation, financial mathematics, and free energy and quasi-invariant measures arising in computational physics and population biology.

This book shows how mean field particle simulation has revolutionized the field of Monte Carlo integration and stochastic algorithms. It will help theoretical probability researchers, applied statisticians, biologists, statistical physicists, and computer scientists work better across their own disciplinary boundaries.
About Pierre Del Moral

Pierre Del Moral is a professor in the School of Mathematics and Statistics at the University of New South Wales in Sydney, Australia.

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