Efficient maximum likelihood parameterization of continuous-time Markov processes

Robert T. McGibbon; Vijay S. Pande

Efficient maximum likelihood parameterization of continuous-time Markov processes

Data Analysis, Statistics and Probability 2015-07-01 v3 Chemical Physics Biomolecules

Authors: Robert T. McGibbon , Vijay S. Pande

Abstract

Continuous-time Markov processes over finite state-spaces are widely used to model dynamical processes in many fields of natural and social science. Here, we introduce an maximum likelihood estimator for constructing such models from data observed at a finite time interval. This estimator is dramatically more efficient than prior approaches, enables the calculation of deterministic confidence intervals in all model parameters, and can easily enforce important physical constraints on the models such as detailed balance. We demonstrate and discuss the advantages of these models over existing discrete-time Markov models for the analysis of molecular dynamics simulations.

Keywords

statistical algorithms stochastic processes molecular dynamics simulations

Cite

@article{arxiv.1504.01804,
  title  = {Efficient maximum likelihood parameterization of continuous-time Markov processes},
  author = {Robert T. McGibbon and Vijay S. Pande},
  journal= {arXiv preprint arXiv:1504.01804},
  year   = {2015}
}

Efficient maximum likelihood parameterization of continuous-time Markov processes

Abstract

Keywords

Cite

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