6533b822fe1ef96bd127cd68

RESEARCH PRODUCT

The fluted fragment revisited

Lidia TenderaWiesław SzwastIan Pratt-hartmann

subject

Logic0102 computer and information sciencesQuine01 natural sciences68Q17Fragment (logic)0101 mathematicstransitivityMathematicsfirst-order logicDiscrete mathematicsTransitive relationNEXPTIME010102 general mathematicsdecidabilityfluted fragmentSatisfiabilityDecidabilityFirst-order logicPhilosophysatisfiability010201 computation theory & mathematicssatisfabilityBoolean satisfiability problemcomplexity

description

AbstractWe study the fluted fragment, a decidable fragment of first-order logic with an unbounded number of variables, motivated by the work of W. V. Quine. We show that the satisfiability problem for this fragment has nonelementary complexity, thus refuting an earlier published claim by W. C. Purdy that it is in NExpTime. More precisely, we consider ${\cal F}{{\cal L}^m}$, the intersection of the fluted fragment and the m-variable fragment of first-order logic, for all $m \ge 1$. We show that, for $m \ge 2$, this subfragment forces $\left\lfloor {m/2} \right\rfloor$-tuply exponentially large models, and that its satisfiability problem is $\left\lfloor {m/2} \right\rfloor$-NExpTime-hard. We further establish that, for $m \ge 3$, any satisfiable ${\cal F}{{\cal L}^m}$-formula has a model of at most ($m - 2$)-tuply exponential size, whence the satisfiability (= finite satisfiability) problem for this fragment is in ($m - 2$)-NExpTime. Together with other, known, complexity results, this provides tight complexity bounds for ${\cal F}{{\cal L}^m}$ for all $m \le 4$.

yearjournalcountryeditionlanguage
2019-09-16Journal of Symbolic Logic
10.1017/jsl.2019.33https://doi.org/10.1017/jsl.2019.33