The mth order Orlicz projection bodies

Abstract

Let Mn, m(R) be the space of n× m real matrices. Define Kon,m as the set of convex compact subsets in Mn,m(R) with nonempty interior containing the origin o∈ Mn, m(R), and K(o)n,m as the members of Kon,m containing o in their interiors. Let : M1, m(R) → [0, ∞) be a convex function such that (o)=0 and (z)+(-z)>0 for z≠ o. In this paper, we propose the mth order Orlicz projection operator m: K(o)n,1→ K(o)n,m, and study its fundamental properties, including the continuity and affine invariance. We establish the related higher-order Orlicz-Petty projection inequality, which states that the volume of m, *(K), the polar body of m(K), is maximized at origin-symmetric ellipsoids among convex bodies with fixed volume. Furthermore, when is strictly convex, we prove that the maximum is uniquely attained at origin-symmetric ellipsoids. Our proof is based on the classical Steiner symmetrization and its higher-order analogue. We also investigate the special case for Q=φ hQ, where hQ denotes the support function of Q∈ K1, mo and φ: [0, ∞)→ [0, ∞) is a convex function such that φ(0)=0 and φ is strictly increasing on [0, ∞). We establish a higher-order Orlicz-Petty projection inequality related to _Qm, * (K). Although Q may not be strictly convex, we characterize the equality under the additional assumption on Q and φ, such as Q∈ K(o)1,m and the strict convexity of φ.