When does a discrete-time random walk in RnRn absorb the origin into its convex hull?

• Konstantin Tikhomirov ^[1] ; Pierre Youssef ^[1]
  1. [1] University of Alberta

     University of Alberta

     Canadá

     
• Localización: Annals of probability: An official journal of the Institute of Mathematical Statistics, ISSN 0091-1798, Vol. 45, Nº. 2, 2017, págs. 965-1002
• Idioma: inglés
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• Resumen

  • We connect this question to a problem of estimating the probability that the image of certain random matrices does not intersect with a subset of the unit sphere Sn−1Sn−1. In this way, the case of a discretized Brownian motion is related to Gordon’s escape theorem dealing with standard Gaussian matrices. We show that for the random walk BMn(i),i∈NBMn(i),i∈N, the convex hull of the first CnCn steps (for a sufficiently large universal constant CC) contains the origin with probability close to one. Moreover, the approach allows us to prove that with high probability the π/2π/2-covering time of certain random walks on Sn−1Sn−1 is of order nn. For certain spherical simplices on Sn−1Sn−1, we prove an extension of Gordon’s theorem dealing with a broad class of random matrices; as an application, we show that CnCn steps are sufficient for the standard walk on ZnZn to absorb the origin into its convex hull with a high probability. Finally, we prove that the aforementioned bound is sharp in the following sense: for some universal constant c>1c>1, the convex hull of the nn-dimensional Brownian motion conv{BMn(t):t∈[1,cn]}conv⁡{BMn(t):t∈[1,cn]} does not contain the origin with probability close to one.