Add to ORKGThe high computational complexity of advanced reasoning tasks such as belief revision and planning calls for efficient and reliable algorithms for reasoning problems harder than NP. In this paper we propose Evaluate, an algorithm for evaluating Quantified Boolean Formulae, a language that extends propositional logic in a way such that many advanced forms of propositional reasoning, e.g., reasoning about knowledge, can be easily formulated as evaluation of a QBF. Algorithms for evaluation of QBFs are suitable for the experimental analysis on a wide range of complexity classes, a property not easily found in other formalisms. Evaluate is based on a generalization of the Davis-Putnam procedure for SAT, and is guaranteed to work in polynomial s...
Abstract. Over the years, proof systems for propositional satisfiability (SAT) have been extensively...
The implementation of effective reasoning tools for deciding the satisfiability of Quantified Boolea...
In this paper, we describe a new framework for evaluating Quantified Boolean Formulas (QBF). The new...
The high computational complexity of advanced rea-soning tasks such as belief revision and planning ...
The high computational complexity of advanced reasoning tasks such as reasoning about knowledge and ...
We present a theorem-prover for quantified Boolean formulae and evaluate it on random quantified f...
We consider the compilation of different reasoning tasks into the evaluation problem of quantified b...
Abstract — In this paper, we discuss algorithmical implica-tions for the extension of autarky from p...
We describe a novel decision procedure for Quantified Boolean Formulas (QBFs) which aims to unleash ...
Although Knowledge Representation is full of reasoning problems that have been formally proved to be...
A certificate of satisfiability for a quantified boolean formula is a compact representation of one ...
We introduce a novel algorithm for the evaluation of quantified boolean formulas (QBFs), which we ca...
Several propositional fragments have been considered so far as target languages for knowledge compil...
Several propositional fragments have been considered so far as target languages for knowledge compil...
In this paper, we discuss algorithmical implications for the extension of autarky from SAT to evalua...
Abstract. Over the years, proof systems for propositional satisfiability (SAT) have been extensively...
The implementation of effective reasoning tools for deciding the satisfiability of Quantified Boolea...
In this paper, we describe a new framework for evaluating Quantified Boolean Formulas (QBF). The new...
The high computational complexity of advanced rea-soning tasks such as belief revision and planning ...
The high computational complexity of advanced reasoning tasks such as reasoning about knowledge and ...
We present a theorem-prover for quantified Boolean formulae and evaluate it on random quantified f...
We consider the compilation of different reasoning tasks into the evaluation problem of quantified b...
Abstract — In this paper, we discuss algorithmical implica-tions for the extension of autarky from p...
We describe a novel decision procedure for Quantified Boolean Formulas (QBFs) which aims to unleash ...
Although Knowledge Representation is full of reasoning problems that have been formally proved to be...
A certificate of satisfiability for a quantified boolean formula is a compact representation of one ...
We introduce a novel algorithm for the evaluation of quantified boolean formulas (QBFs), which we ca...
Several propositional fragments have been considered so far as target languages for knowledge compil...
Several propositional fragments have been considered so far as target languages for knowledge compil...
In this paper, we discuss algorithmical implications for the extension of autarky from SAT to evalua...
Abstract. Over the years, proof systems for propositional satisfiability (SAT) have been extensively...
The implementation of effective reasoning tools for deciding the satisfiability of Quantified Boolea...
In this paper, we describe a new framework for evaluating Quantified Boolean Formulas (QBF). The new...