Tusnády's problem, the transference principle, and non-uniform QMC sampling

Abstract

It is well-known that for every N ≥ 1 and d ≥ 1 there exist point sets x1, …, xN ∈ [0,1]d whose discrepancy with respect to the Lebesgue measure is of order at most ( N)d-1 N-1. In a more general setting, the first author proved together with Josef Dick that for any normalized measure μ on [0,1]d there exist points x1, …, xN whose discrepancy with respect to μ is of order at most ( N)(3d+1)/2 N-1. The proof used methods from combinatorial mathematics, and in particular a result of Banaszczyk on balancings of vectors. In the present note we use a version of the so-called transference principle together with recent results on the discrepancy of red-blue colorings to show that for any μ there even exist points having discrepancy of order at most ( N)d-12 N-1, which is almost as good as the discrepancy bound in the case of the Lebesgue measure.