Second moments related to Poisson hyperplane tessellations
نویسنده
چکیده
It is well known that the vertex number of the typical cell of a stationary hyperplane tessellation in R has, under some mild conditions, an expectation equal to 2, independent of the underlying distribution. The variance of this vertex number can vary widely. Under Poisson assumptions, we give sharp bounds for this variance, showing, in particular, that its maximum is attained if and only if the tessellation is isotropic (that is, its distribution is rotation invariant) with respect to a suitable scalar product on R. The employed representation of the second moment of the vertex number is a special case of formulas providing the covariance matrix of the random vector (`0, . . . , `d), where `k is the total k-face content of the typical cell of a stationary Poisson hyperplane mosaic. In the isotropic case, such formulas were first obtained by Miles. We give a more elementary proof and extend the formulas to general orientation distributions.
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