Membership Queries for Convex Floating Bodies via Hilbert Geometry

We propose the convex floating body membership problem, which consists of efficiently determining when a query point $a\in\mathbb{R}^d$ belongs to the so-called $\varepsilon$-convex floating body of a given bounded convex domain $K\subset\mathbb{R}^d$. We consider this problem in an approximate setting, i.e., given a parameter $\delta>0$, the query can be answered either way if the Hilbert distance in $K$ of $a$ from the boundary of a relatively-scaled $\varepsilon$-convex floating body is less than $\delta$. We present a data structure for this problem that has storage size $O(\delta^{-d}\varepsilon^{-(d-1)/2})$ and achieves query time of $O({\delta^{-1}}\ln 1/\varepsilon)$. Our construction is motivated by a recent work of Abdelkader and Mount on APM queries, and relies on a comparison of convex floating bodies with balls in the Hilbert metric on $K$.