English

Parametric Presburger arithmetic: logic, combinatorics, and quasi-polynomial behavior

Combinatorics 2017-01-18 v2 Logic

Abstract

Parametric Presburger arithmetic concerns families of sets S_t in Z^d, for t in N, that are defined using addition, inequalities, constants in Z, Boolean operations, multiplication by t, and quantifiers on variables ranging over Z. That is, such families are defined using quantifiers and Boolean combinations of formulas of the form a(t) x <= b(t), where a(t) is in Z[t]^d, b(t) in Z[t]. A function g: N -> Z is a quasi-polynomial if there exists a period m and polynomials f_0, ..., f_{m-1} in Q[t] such that g(t)=f_i(t) for t congruent to i (mod m.) Recent results of Chen, Li, Sam; Calegari, Walker; Roune, Woods; and Shen concern specific families in parametric Presburger arithmetic that exhibit quasi-polynomial behavior. For example, S_t might be an a quasi-polynomial function of t or an element x(t) in S_t might be specifiable as a function with quasi-polynomial coordinates, for sufficiently large t. Woods conjectured that all parametric Presburger sets exhibit this quasi-polynomial behavior. Here, we prove this conjecture, using various tools from logic and combinatorics.

Keywords

Cite

@article{arxiv.1608.08520,
  title  = {Parametric Presburger arithmetic: logic, combinatorics, and quasi-polynomial behavior},
  author = {Tristram Bogart and John Goodrick and Kevin Woods},
  journal= {arXiv preprint arXiv:1608.08520},
  year   = {2017}
}

Comments

34 pages, 1 figure. Minor changes, including to the title

R2 v1 2026-06-22T15:35:25.605Z