Random affine simplexes

Abstract

For a fixed k∈\1,…,d\ consider random vectors X0,…, Xk∈ Rd with an arbitrary spherically symmetric joint density function. Let A be any non-singular d× d matrix. We show that the k-dimensional volume of the convex hull of affinely transformed Xi's satisfies \[ |conv(AX0,…,AXk)|d=|P|k·|conv(X0,…,Xk)|, \] where E:=\x∈ Rd:x (A A)-1x≤ 1\ is an ellipsoid, P denotes the orthogonal projection to a random uniformly chosen k-dimensional linear subspace independent of X0,…, Xk, and k is the volume of the unit k-dimensional ball. We express |P| in terms of Gaussian random matrices. The important special case k=1 corresponds to the distance between two random points: \[ |AX0-AX1|d=λ12N12+…+λd2Nd2N12+…+Nd2·|X0-X1|, \] where N1,…,Nd are i.i.d. standard Gaussian variables independent of X0,X1 and λ1,…,λd are the singular values of A. As an application, we derive the following integral geometry formula for ellipsoids: \[ dk+1kd+1\,k(d+p)+kk(d+p)+d\,∫Ad,k|E E|p+d+1\,μd,k(dE)=|E|k+1\,∫Gd,k|PLE|p\,d,k(dL), \] where p> -d+k-1 and Ad,k and Gd,k are the affine and the linear Grassmannians equipped with their respective Haar measures. The case p=0 reduces to an affine version of the integral formula of Furstenberg and Tzkoni.