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Champagnat, Nicolas - Institut de Mathématiques Élie Cartan, Université Henri Poincaré - Nancy 1
Unifying evolutionary dynamics: from individual stochastic processes to macroscopic models
BANACH CENTER PUBLICATIONS, VOLUME ** INSTITUTE OF MATHEMATICS
Universit e Paris X --Nanterre U.F.R. SEGMI --
Invasion and adaptive evolution for individualbased spatially structured populations
Convergence to equilibrium in competitive Lotka-Volterra and chemostat systems
Introduction la nance quantitative prsent par N. Champagnat
Evolution of discrete populations and the canonical diffusion of adaptive dynamics
On Dirichlet eigenvectors for neutral two-dimensional Markov chains
Well posedness in any dimension for Hamiltonian flows with non BV force terms
Splitting trees with neutral Poissonian mutations II: Largest and oldest families.
Introduction la nance quantitative prsent par N. Champagnat
Introduction la nance quantitative Correction des exercices
CURRICULUM VIT (au 14/04/2011) Nicolas CHAMPAGNAT
Convergence of Adaptive Dynamics n-morphic Jump Processes to the Canonical Equation and Degenerate
Mathematical Modelling and Numerical Analysis Will be set by the publisher Modelisation Mathematique et Analyse Numerique
From Individual Stochastic Processes to Macroscopic Models in Adaptive Evolution
Large deviations for singular and degenerate diusion models in adaptive evolution
A Microscopic Interpretation for Adaptive Dynamics Trait Substitution Sequence Models
Universite Paris X Nanterre U.F.R. SEGMI Equipe MODAL'X
Differences finies et analyse numerique matricielle : cours d'harmonisation en IMAFA
Unifying evolutionary dynamics: from individual stochastic processes to macroscopic models
Limit theorems for conditioned multitype Dawson-Watanabe processes
Introduction la nance quantitative prsent par N. Champagnat
Reconciling alternate methods for the determination of charge distributions: A probabilistic approach to high-dimensional
Selection 2 (2001) 12, 7383 Available online at http://www.akkrt.hu
The evolutionary limit for models of populations interacting competitively via
Simulation and analysis of an individual-based model for graph-structured plant dynamics$
Splitting trees with neutral Poissonian mutations I: Small families. Nicolas Champagnat1
Individual-based probabilistic models of adaptive evolution and various scaling approximations
