Spherical Cap L2 Discrepancy -- Blessing of Dimensionality and a Balanced Large-Cap Variant

Abstract

We prove that the information complexity (i.e., the inverse) of the classical spherical cap L2 discrepancy on the d-dimensional sphere Sd decreases with dimension d, indicating a ``blessing of dimensionality'' for the associated numerical integration problem. We then introduce a modified spherical cap L2 discrepancy that emphasizes large caps (close to hemispheres). For this variant, the problem does not become easier with increasing d. We also establish a Stolarsky invariance principle which connects the modified spherical cap L2 discrepancy to numerical integration in the Sobolev space H(d+1)/2(Sd), represented by the reproducing kernel K(x, y) = 1 - 12 \|x - y\|. Stolarsky's invariance principle then implies that the worst-case integration error in this space grows polynomially with d.