Random Walks in the High-Dimensional Limit I: The Wiener Spiral

Abstract

We prove limit theorems for random walks with n steps in the d-dimensional Euclidean space as both n and d tend to infinity. One of our results states that the path of such a random walk, viewed as a compact subset of the infinite-dimensional Hilbert space 2, converges in probability in the Hausdorff distance up to isometry and also in the Gromov-Hausdorff sense to the Wiener spiral, as d,n∞. Another group of results describes various possible limit distributions for the squared distance between the random walker at time n and the origin.

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