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Hamiltonian-Assisted Metropolis Sampling

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  • Zexi Song
  • Zhiqiang Tan

Abstract

Various Markov chain Monte Carlo (MCMC) methods are studied to improve upon random walk Metropolis sampling, for simulation from complex distributions. Examples include Metropolis-adjusted Langevin algorithms, Hamiltonian Monte Carlo, and other algorithms related to underdamped Langevin dynamics. We propose a broad class of irreversible sampling algorithms, called Hamiltonian-assisted Metropolis sampling (HAMS), and develop two specific algorithms with appropriate tuning and preconditioning strategies. Our HAMS algorithms are designed to simultaneously achieve two distinctive properties, while using an augmented target density with a momentum as an auxiliary variable. One is generalized detailed balance, which induces an irreversible exploration of the target. The other is a rejection-free property for a Gaussian target with a prespecified variance matrix. This property allows our preconditioned algorithms to perform satisfactorily with relatively large step sizes. Furthermore, we formulate a framework of generalized Metropolis–Hastings sampling, which not only highlights our construction of HAMS at a more abstract level, but also facilitates possible further development of irreversible MCMC algorithms. We present several numerical experiments, where the proposed algorithms consistently yield superior results among existing algorithms using the same preconditioning schemes.

Suggested Citation

  • Zexi Song & Zhiqiang Tan, 2023. "Hamiltonian-Assisted Metropolis Sampling," Journal of the American Statistical Association, Taylor & Francis Journals, vol. 118(542), pages 1176-1194, April.
    • Handle: RePEc:taf:jnlasa:v:118:y:2023:i:542:p:1176-1194
    DOI: 10.1080/01621459.2021.1982723
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