Monte-Carlo Algorithms for Forward Feynman-Kac type representation for semilinear nonconservative Partial Differential Equations

Anthony Le Cavil, Nadia Oudjane and Francesco Russo
march, 2018
Type de publication :
Article (revues avec comité de lecture)
Journal :
Monte Carlo Methods and Applications., vol. 24 no 1, pp. 55-70
DOI :
assets/images/icons/icon_doi.png 10.1515/mcma-2018-0005
HAL :
hal-01586861
arXiv :
assets/images/icons/icon_arxiv.png 1709.04777
Mots clés :
Semilinear Partial Differential Equations; Nonlinear Feynman-Kac type functional; Particle systems; Euler schemes.
Résumé :
The paper is devoted to the construction of a probabilistic particle algorithm. This is related to nonlin-ear forward Feynman-Kac type equation, which represents the solution of a nonconservative semilinear parabolic Partial Differential Equations (PDE). Illustrations of the efficiency of the algorithm are provided by numerical experiments.
BibTeX : 
@article{LeC-Oud-Rus-2018,
    author={Anthony Le Cavil and Nadia Oudjane and Francesco Russo },
    title={Monte-Carlo Algorithms for Forward Feynman-Kac type 
           representation for semilinear nonconservative Partial 
           Differential Equations },
    doi={10.1515/mcma-2018-0005 },
    journal={Monte Carlo Methods and Applications. },
    year={2018 },
    month={3},
    volume={24 no 1 },
    pages={55--70},
}