Large deviations for the empirical measure of the zig-zag process

Journal Article (2021)
Author(s)

G.N.J.C. Bierkens (TU Delft - Statistics)

Pierre Nyquist (KTH Royal Institute of Technology)

Mikola C. Schlottke (Eindhoven University of Technology)

Research Group
Statistics
Copyright
© 2021 G.N.J.C. Bierkens, Pierre Nyquist, Mikola C. Schlottke
DOI related publication
https://doi.org/10.1214/21-AAP1663
More Info
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Publication Year
2021
Language
English
Copyright
© 2021 G.N.J.C. Bierkens, Pierre Nyquist, Mikola C. Schlottke
Research Group
Statistics
Issue number
6
Volume number
31
Pages (from-to)
2811-2843
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Abstract

The zig-zag process is a piecewise deterministic Markov process in position and velocity space. The process can be designed to have an arbitrary Gibbs type marginal probability density for its position coordinate, which makes it suitable for Monte Carlo simulation of continuous probability distributions. An important question in assessing the efficiency of this method is how fast the empirical measure converges to the stationary distribution of the process. In this paper we provide a partial answer to this question by characterizing the large deviations of the empirical measure from the stationary distribution. Based on the Feng–Kurtz approach, we develop an abstract framework aimed at encompassing piecewise deterministic Markov processes in position-velocity space. We derive explicit conditions for the zig-zag process to allow the Donsker–Varadhan variational formulation of the rate function, both for a compact setting (the torus) and one-dimensional Euclidean space. Finally we derive an explicit expression for the Donsker–Varadhan functional for the case of a compact state space and use this form of the rate function to address a key question concerning the optimal choice of the switching rate of the zig-zag process.

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