On Minimum CADs for Algebraic Sets in Dimension Three

Abstract

Cylindrical Algebraic Decomposition (CAD) algorithms typically produce a decomposition adapted to a finite family of semi-algebraic sets F (i.e. every member of F is a union of cells). Different algorithms may produce different outputs, and introduce unnecessary cell divisions. Recent work by Michel, Mathonet, and Z\'ena\"idi in ISSAC 2024 formalised this issue by studying the refinement order on the set of all CADs adapted to F and analysing the existence of a minimum (coarsest) adapted CAD. It was shown that such a minimum adapted CAD always exists for subsets of R and R2, but not of Rn (n ≥slant 3) in general. It is natural to seek natural classes of subsets of Rn that admit a minimum adapted CAD. In this paper, we identify a class of subsets of R3 that contains all algebraic sets for which minimum adapted CADs do exist. This provides the first positive existence theorem for minimum CAD for a non-trivial class of sets.