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Paper detail

Self-intersections of Two-Dimensional Equilateral Random Walks and Polygons

We study the mean and variance of the number of self-intersections of the equilateral isotropic random walk in the plane, as well as the corresponding quantities for isotropic equilateral random polygons (random walks conditioned to return to their starting point after a given number of steps). The expected number of self-intersections is $(2/π^2)n\log n + O(n)$ for both walks and polygons with $n$ steps. The variance is $O(n^2 \log n)$ for both walks and polygons, which shows that the number of self-intersections exhibits concentration around the mean.

preprint2015arXivOpen access
Max B. KutlerMargaret RogersNicholas Pippenger
math.PR
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Max B. KutlerMargaret RogersNicholas Pippenger

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