We use Bayesian inference to derive the rate coefficients of a coarse master equation from molecular dynamics simulations. Results from multiple short simulation trajectories are used to estimate propagators. A likelihood function constructed as a product of the propagators provides a posterior distribution of the free coefficients in the rate matrix determining the Markovian master equation. Extensions to non-Markovian dynamics are discussed, using the trajectory "paths" as observations. The Markovian approach is illustrated for the filling and emptying transitions of short carbon nanotubes dissolved in water. We show that accurate thermodynamic and kinetic properties, such as free energy surfaces and kinetic rate coefficients, can be comp...
Nucleic acid strands, which react by forming and breaking Watson-Crick base pairs, can be designed t...
<p>We study the comparison of computational simulations of biomolecules to experimental data. We stu...
Motivated by the development of efficient Monte Carlo methods for PDE models in molec-ular dynamics,...
Bayesian inference is used to obtain self-consistent estimates of free energies and position-depende...
International audienceWe introduce a new method to accurately and eciently estimate the eective dyna...
This section reviews the relation between the continuous dynamics of a molecular system in thermal e...
ABSTRACT: We present a principled approach for estimat-ing the matrix of microscopic transition prob...
The rate of nucleation processes such as the freezing of a supercooled liquid or the condensation of...
Direct simulation of biomolecular dynamics in thermal equilibrium is challenging due to the metastab...
International audienceWe introduce a new bottom-up method for the optimization of dissipative coarse...
International audienceA massively parallel method to build large transition rate matrices from tempe...
The purpose of this work is to shed light on an algorithm designed to extract effective macroscopic ...
We present a Bayesian probabilistic framework for quantifying and propagating the uncertainties in t...
The enormous amount of molecular dynamics data available calls for an ever-growing need for extracti...
View-only version available at https://rdcu.be/cSBls.International audienceMolecular dynamics (MD) m...
Nucleic acid strands, which react by forming and breaking Watson-Crick base pairs, can be designed t...
<p>We study the comparison of computational simulations of biomolecules to experimental data. We stu...
Motivated by the development of efficient Monte Carlo methods for PDE models in molec-ular dynamics,...
Bayesian inference is used to obtain self-consistent estimates of free energies and position-depende...
International audienceWe introduce a new method to accurately and eciently estimate the eective dyna...
This section reviews the relation between the continuous dynamics of a molecular system in thermal e...
ABSTRACT: We present a principled approach for estimat-ing the matrix of microscopic transition prob...
The rate of nucleation processes such as the freezing of a supercooled liquid or the condensation of...
Direct simulation of biomolecular dynamics in thermal equilibrium is challenging due to the metastab...
International audienceWe introduce a new bottom-up method for the optimization of dissipative coarse...
International audienceA massively parallel method to build large transition rate matrices from tempe...
The purpose of this work is to shed light on an algorithm designed to extract effective macroscopic ...
We present a Bayesian probabilistic framework for quantifying and propagating the uncertainties in t...
The enormous amount of molecular dynamics data available calls for an ever-growing need for extracti...
View-only version available at https://rdcu.be/cSBls.International audienceMolecular dynamics (MD) m...
Nucleic acid strands, which react by forming and breaking Watson-Crick base pairs, can be designed t...
<p>We study the comparison of computational simulations of biomolecules to experimental data. We stu...
Motivated by the development of efficient Monte Carlo methods for PDE models in molec-ular dynamics,...