6533b7d3fe1ef96bd1260c5e
RESEARCH PRODUCT
Finite Satisfiability of the Two-Variable Guarded Fragment with Transitive Guards and Related Variants
Lidia TenderaEmanuel Kieronskisubject
FOS: Computer and information sciencesComputer Science - Logic in Computer ScienceTwo-variable logicGeneral Computer ScienceComputational complexity theoryLogicguarded fragmentBinary number0102 computer and information sciences01 natural sciencesUpper and lower boundsTheoretical Computer ScienceCombinatoricstransitive relationEquivalence relationfinite satisfiability problem0101 mathematicsEquivalence (formal languages)Integer programmingMathematicsDiscrete mathematicsTransitive relationNEXPTIMEcomputational complexity010102 general mathematicsLogic in Computer Science (cs.LO)Computational Mathematics010201 computation theory & mathematicsequivalence ralationdescription
We consider extensions of the two-variable guarded fragment, GF2, where distinguished binary predicates that occur only in guards are required to be interpreted in a special way (as transitive relations, equivalence relations, pre-orders or partial orders). We prove that the only fragment that retains the finite (exponential) model property is GF2 with equivalence guards without equality. For remaining fragments we show that the size of a minimal finite model is at most doubly exponential. To obtain the result we invent a strategy of building finite models that are formed from a number of multidimensional grids placed over a cylindrical surface. The construction yields a 2NExpTime-upper bound on the complexity of the finite satisfiability problem for these fragments. We improve the bounds and obtain optimal ones for all the fragments considered, in particular NExpTime for GF2 with equivalence guards, and 2ExpTime for GF2 with transitive guards. To obtain our results we essentially use some results from integer programming.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2018-02-09 | ACM Transactions on Computational Logic |