The Complexity of Quantified Constraint Satisfaction: Collapsibility, Sink Algebras, and the Three-Element Case

Chen, Hubie

doi:10.1137/060668572

Cited by 40 publications

(90 citation statements)

References 26 publications

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“…Creignou et al have studied quantified CSPs over Boolean domains [87]. More work on quantified CSPs was initiated by [32] and Chen's thesis [53]; see also [55]. A complexity classification has been obtained for quantified equality constraint languages [23] and relatively quantified CSPs [24,110] (that is, quantified CSPs with all unary constraints; in the case of non-quantified CSPs, these are known as conservative CSPs).…”

Section: Related Workmentioning

confidence: 98%

The Complexity of Valued Constraint Satisfaction Problems

Živný¹

2012

Cognitive Technologies

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Section: Related Workmentioning

confidence: 98%

The Complexity of Valued Constraint Satisfaction Problems

Živný¹

2012

Cognitive Technologies

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“…A fragment of first-order logic under current scrutiny [10,20,11,12,13,14,15,21] is the class of quantified conjunctive sentences, which is the generalization of primitive positive sentences where both quantifiers are admitted, that is, sentences of the form Q 1 v 1 . .…”

Section: Research Question 1 On Which Sets Of Primal Graphs Is Primitmentioning

confidence: 99%

Decomposing Quantified Conjunctive (or Disjunctive) Formulas

Chen¹,

Dalmau²

2016

SIAM J. Comput.

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Model checking-deciding if a logical sentence holds on a structure-is a basic computational task that is well-known to be intractable in general. For first-order logic on finite structures, it is PSPACE-complete, and the natural evaluation algorithm exhibits exponential dependence on the formula. We study model checking on the quantified conjunctive fragment of first-order logic, namely, prenex sentences having a purely conjunctive quantifierfree part. Following a number of works, we associate a graph to the quantifier-free part; each sentence then induces a prefixed graph, a quantifier prefix paired with a graph on its variables. We give a comprehensive classification of the sets of prefixed graphs on which model checking is tractable, based on a novel generalization of treewidth, that generalizes and places into a unified framework a number of existing results.

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“…The most successful approach to date, and the method used in [4], has been the so-called algebraic method, in which the problem of classification reverts to classes of functions under which the relevant relational structures are invariant. A similar algebraic approach has been successful in the study of the evaluation problem for positive Horn sentences, QCSP(D), and, while no formal trichotomy has there been conjectured, the only known attainable complexities are P, NP-complete and Pspace-complete [5], [6].…”

Section: Introductionmentioning

confidence: 99%

A Tetrachotomy for Positive First-Order Logic without Equality

Madelaine

Martin

2011

2011 IEEE 26th Annual Symposium on Logic in Computer Science

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Abstract-We classify completely the complexity of evaluating positive equality-free sentences of first-order logic over a fixed, finite structure D. This problem may be seen as a natural generalisation of the quantified constraint satisfaction problem QCSP(D). We obtain a tetrachotomy for arbitrary finite structures: each problem is either in L, is NP-complete, is co-NPcomplete or is Pspace-complete. Moreover, its complexity is characterised algebraically in terms of the presence or absence of specific surjective hyper-endomorphisms; and, logically, in terms of relativisation properties with respect to positive equality-free sentences.We prove that the meta-problem, to establish for a specific D into which of the four classes the related problem lies, is NP-hard.

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The Complexity of Quantified Constraint Satisfaction: Collapsibility, Sink Algebras, and the Three-Element Case

Cited by 40 publications

References 26 publications

The Complexity of Valued Constraint Satisfaction Problems

The Complexity of Valued Constraint Satisfaction Problems

Decomposing Quantified Conjunctive (or Disjunctive) Formulas

A Tetrachotomy for Positive First-Order Logic without Equality

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