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arxiv: 1903.02866 · v2 · pith:LNM6RAPA · submitted 2019-03-07 · math.CO · math.MG

The covering radius and a discrete surface area for non-hollow simplices

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classification math.CO math.MG
keywords coveringdimensiondiscretesimplicesareaconjecturenon-hollowradius
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We explore upper bounds on the covering radius of non-hollow lattice polytopes. In particular, we conjecture a general upper bound of $d/2$ in dimension $d$, achieved by the "standard terminal simplices" and direct sums of them. We prove this conjecture up to dimension three and show it to be equivalent to the conjecture of Gonz\'alez-Merino \& Schymura (2017) that the $d$-th covering minimum of the standard terminal $n$-simplex equals $d/2$, for every $n>d$. We also show that these two conjectures would follow from a discrete analog for lattice simplices of Hadwiger's formula bounding the covering radius of a convex body in terms of the ratio of surface area versus volume. To this end, we introduce a new notion of discrete surface area of non-hollow simplices. We prove our discrete analog in dimension two and we give strong evidence for its validity in arbitrary dimension.

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