English

Almost o-minimal structures and $\mathfrak X$-structures

Logic 2022-06-08 v1 Algebraic Geometry

Abstract

We propose new structures called almost o-minimal structures and X\mathfrak X-structures. The former is a first-order expansion of a dense linear order without endpoints such that the intersection of a definable set with a bounded open interval is a finite union of points and open intervals. The latter is a variant of van den Dries and Miller's analytic geometric categories and Shiota's X\mathfrak X-sets and Y\mathfrak Y-sets. In them, the family of definable sets are closed only under proper projections unlike first-order structures. We demonstrate that an X\mathfrak X-expansion of an ordered divisible abelian group always contains an o-minimal expansion of an ordered group such that all bounded X\mathfrak X-definable sets are definable in the structure. Another contribution of this paper is a uniform local definable cell decomposition theorem for almost o-minimal expansions of ordered groups M=(M,<,0,+,)\mathcal M=(M,<,0,+,\ldots). Let {Aλ}λΛ\{A_\lambda\}_{\lambda\in\Lambda} be a finite family of definable subsets of Mm+nM^{m+n}. Take an arbitrary positive element RMR \in M and set B=]R,R[nB=]-R,R[^n. Then, there exists a finite partition into definable sets \begin{equation*} M^m \times B = X_1 \cup \ldots \cup X_k \end{equation*} such that B=(X1)b(Xk)bB=(X_1)_b \cup \ldots \cup (X_k)_b is a definable cell decomposition of BB for any bMmb \in M^m and either XiAλ=X_i \cap A_\lambda = \emptyset or XiAλX_i \subseteq A_\lambda for any 1ik1 \leq i \leq k and λΛ\lambda \in \Lambda. Here, the notation SbS_b denotes the fiber of a definable subset SS of Mm+nM^{m+n} at bMmb \in M^m. We introduce the notion of multi-cells and demonstrate that any definable set is a finite union of multi-cells in the course of the proof of the above theorem.

Keywords

Cite

@article{arxiv.2104.01312,
  title  = {Almost o-minimal structures and $\mathfrak X$-structures},
  author = {Masato Fujita},
  journal= {arXiv preprint arXiv:2104.01312},
  year   = {2022}
}

Comments

arXiv admin note: text overlap with arXiv:1912.05782

R2 v1 2026-06-24T00:49:10.647Z