A Blaschke-Petkantschin formula for linear and affine subspaces with application to intersection probabilities

Abstract

Consider a uniformly distributed random linear subspace L and a stochastically independent random affine subspace E in Rn, both of fixed dimension. For a natural class of distributions for E we show that the intersection L E admits a density with respect to the invariant measure. This density depends only on the distance d(o,E L) of L E to the origin and is derived explicitly. It can be written as the product of a power of d(o,E L) and a part involving an incomplete beta integral. Choosing E uniformly among all affine subspaces of fixed dimension hitting the unit ball, we derive an explicit density for the random variable d(o,E L) and study the behavior of the probability that E L hits the unit ball in high dimensions. Lastly, we show that our result can be extended to the setting where E is tangent to the unit sphere, in which case we again derive the density for d(o,E L). Our probabilistic results are derived by means of a new integral-geometric transformation formula of Blaschke--Petkantschin type.

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