MCMC for Continuous-Time Discrete-State Systems

NeurIPS 2012 pp. 701-709

/neurips/2012/rao2012neurips-mcmc/

Abstract

We propose a simple and novel framework for MCMC inference in continuous-time discrete-state systems with pure jump trajectories. We construct an exact MCMC sampler for such systems by alternately sampling a random discretization of time given a trajectory of the system, and then a new trajectory given the discretization. The first step can be performed efficiently using properties of the Poisson process, while the second step can avail of discrete-time MCMC techniques based on the forward-backward algorithm. We compare our approach to particle MCMC and a uniformization-based sampler, and show its advantages.

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Cite

Text

Rao and Teh. "MCMC for Continuous-Time Discrete-State Systems." Neural Information Processing Systems, 2012.

Markdown

[Rao and Teh. "MCMC for Continuous-Time Discrete-State Systems." Neural Information Processing Systems, 2012.](https://mlanthology.org/neurips/2012/rao2012neurips-mcmc/)

BibTeX

@inproceedings{rao2012neurips-mcmc,
  title     = {{MCMC for Continuous-Time Discrete-State Systems}},
  author    = {Rao, Vinayak and Teh, Yee W.},
  booktitle = {Neural Information Processing Systems},
  year      = {2012},
  pages     = {701-709},
  url       = {https://mlanthology.org/neurips/2012/rao2012neurips-mcmc/}
}