Abstract
We give a general local central limit theorem for the sum of two independent random variables, one of which satisfies a central limit theorem while the other satisfies a local central limit theorem with the same order variance. We apply this result to various quantities arising in stochastic geometry, including: size of the largest component for percolation on a box; number of components, number of edges, or number of isolated points, for random geometric graphs; covered volume for germ-grain coverage models; number of accepted points for finite-input random sequential adsorption; sum of nearest-neighbour distances for a random sample from a continuous multidimensional distribution.
Citation
Mathew Penrose. Yuval Peres. "Local Central Limit Theorems in Stochastic Geometry." Electron. J. Probab. 16 2509 - 2544, 2011. https://doi.org/10.1214/EJP.v16-968
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