forward event-chain Monte Carlo

One of the authors of this paper contacted me to point out their results arXived last February [and revised last month] as being related to our bouncy particle paper arXived two weeks ago. And to an earlier paper by Michel et al. (2014) published in the Journal of Chemical Physics. (The authors actually happen to work quite nearby, on a suburban road I take every time I bike to Dauphine!) I think one reason we missed this paper in our literature survey is the use of a vocabulary taken from Physics rather than our Monte Carlo community, as in, e.g., using “event chain” instead of “bouncy particle”… The paper indeed contains schemes similar to ours, as did the on-going work by Chris Sherlock and co-authors Chris presented last week at the Isaac Newton Institute workshop on scalability. (Although I had troubles reading its physics style, in particular the justification for stationarity or “global balance” and the use of “infinitesimals”.)

“…we would like to find the optimal set of directions {e} necessary for the ergodicity and  allowing for an efficient exploration of the target distribution.”

The improvement sought is about improving the choice of the chain direction at each direction change. In order to avoid the random walk behaviour. The proposal is to favour directions close to the gradient of the log-likelihood, keeping the orthogonal to this gradient constant in direction (as in our paper) if not in scale. (As indicated above I have trouble understanding the ergodicity proof, if not the irreducibility. I also do not see how solving (11), which should be (12), is feasible in general. And why (29) amounts to simulating from (27)…)

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