“Population Monte Carlo (PMC) is an important class of Monte Carlo methods, which utilizes a population of proposals to generate weighted samples that approximate the target distribution”

**A** return of the prodigal son!, with this arXival by Huang, Joseph, and Mak, of a paper on population Monte Carlo using quasi-random sequences. The construct is based on an earlier notion of Joseph and Mak, support points, which are defined wrt a given target distribution F as minimising the variability of a sample from F away from these points. (I would have used instead my late friend Bernhard Flury’s principal points!) The proposal uses Owen-style scrambled Sobol points, followed by a deterministic mixture weighting à la PMC, followed by importance support resampling to find the next location parameters of the proposal mixture (which is why I included an unrelated mixture surface as my post picture!). This importance support resampling is obviously less variable than the more traditional ways of resampling but the cost moves from O(M) to O(M²).

“The main computational complexity of the algorithm is O(M²) from computing the pairwise distance of the M weighted samples”

The covariance parameters are updated as in our 2008 paper. This new proposal is interesting and reasonable, with apparent significant gains, albeit I would have liked to see a clearer discussion of the actual computing costs of PQMC.