International audienceWe devise a calculus based on the resolution and paramodulation rules and operating on schemata of formulæ. These schemata are defined inductively, using convergent rewrite systems encoding primitive recursive definitions. The main original feature of this calculus is that the rules operate on formulæ or terms occurring at arbitrarily deep positions inside the considered schemata, possibly by applying transformations on the corresponding rewrite system. Each inference step in the new calculus corresponds to several applications of the usual resolution or paramodulation rules over the instances of the considered schemata. The calculus has been implemented in the proof editor Shred. As an example of application we provid...
AbstractInfinite sets of rewrite rules may be generated for example by completion of term-rewriting ...
AbstractVerification problems can often be encoded as first-order validity or satisfiability problem...
"Theorem proving modulo" is a way to remove computational arguments from proofs by reasoni...
International audienceMany verification problems can be reduced to a satisfiability problem modulo t...
In this document, we propose techniques of automated deduction for proving properties by refutation ...
Proof schemata are infinite sequences of proofs which are defined inductively. In this paper we pres...
We introduce a class of restrictions for the ordered paramodulation and superposition calculi (inspi...
We present an associative-commutative paramodulation calculus that generalizes the associative-commu...
International audienceThe notion of schematic paramodulation has been introduced to reason on proper...
International audienceWe devise a resolution calculus that tests the satisfiability of infinite fami...
International audienceWe present an inference system for clauses with ordering constraints, called S...
We introduce a class of restrictions for the ordered paramodulation and superposition calculi (inspi...
The calculus of structures is a recently developed proof theoretical formalism that extends one-sid...
We have previously shown that strict superposition together with merging paramodulation is refutatio...
AbstractWe introduce a class of restrictions for the ordered paramodulation and superposition calcul...
AbstractInfinite sets of rewrite rules may be generated for example by completion of term-rewriting ...
AbstractVerification problems can often be encoded as first-order validity or satisfiability problem...
"Theorem proving modulo" is a way to remove computational arguments from proofs by reasoni...
International audienceMany verification problems can be reduced to a satisfiability problem modulo t...
In this document, we propose techniques of automated deduction for proving properties by refutation ...
Proof schemata are infinite sequences of proofs which are defined inductively. In this paper we pres...
We introduce a class of restrictions for the ordered paramodulation and superposition calculi (inspi...
We present an associative-commutative paramodulation calculus that generalizes the associative-commu...
International audienceThe notion of schematic paramodulation has been introduced to reason on proper...
International audienceWe devise a resolution calculus that tests the satisfiability of infinite fami...
International audienceWe present an inference system for clauses with ordering constraints, called S...
We introduce a class of restrictions for the ordered paramodulation and superposition calculi (inspi...
The calculus of structures is a recently developed proof theoretical formalism that extends one-sid...
We have previously shown that strict superposition together with merging paramodulation is refutatio...
AbstractWe introduce a class of restrictions for the ordered paramodulation and superposition calcul...
AbstractInfinite sets of rewrite rules may be generated for example by completion of term-rewriting ...
AbstractVerification problems can often be encoded as first-order validity or satisfiability problem...
"Theorem proving modulo" is a way to remove computational arguments from proofs by reasoni...