Combinatorial Inscribability Obstructions for Higher Dimensional Polytopes

Abstract: For 3-dimensional convex polytopes, inscribability is a classical property that is relatively well-understood due to its relation with Delaunay subdivisions of the plane and hyperbolic geometry. In particular, inscribability can be tested in polynomial time, and for every f-vector of 3-polytopes, there exists an inscribable polytope with that f-vector. For higher dimensional polytopes, much less is known. Of course, for any inscribable polytope, all of its lower dimensional faces need to be inscribable, but th… Show more

“…The question which combinatorial types of 3-polytopes are inscribable was raised by Steiner [23] and settled by Steinitz [24] and Rivin [21]. In stark contrast, our understanding of the inscribability problem in dimensions four and up is rather exiguous [20,10]. In [18], we replaced combinatorial equivalence with the discrete-geometric condition of normal equivalence.…”

Inscribable Fans II: Inscribed zonotopes, simplicial arrangements, and reflection groups

“…The question which combinatorial types of 3-polytopes are inscribable was raised by Steiner [23] and settled by Steinitz [24] and Rivin [21]. In stark contrast, our understanding of the inscribability problem in dimensions four and up is rather exiguous [20,10]. In [18], we replaced combinatorial equivalence with the discrete-geometric condition of normal equivalence.…”

Inscribable Fans II: Inscribed zonotopes, simplicial arrangements, and reflection groups

Inscribable Order Types