Finding computationally valuable representations of models of predicate logic formulas is an important subtask in many fields related to automated theorem proving, e.g. automated model building or semantic resolution. In this article we investigate the use of context-free languages for representing single Herbrand models, which appear to be a natural extension of ``linear atomic representations'' already known from the literature. We focus on their expressive power (which we find out to be exactly the finite models) and on algorithmic issues like clause evaluation and equivalence test (which we solve by using a resolution theorem prover), thus proving our approach to be an interesting base for investigating connections between formal langua...
Two related but independent topics are treated dealing with methods for mechanical theorem proving i...
AbstractAn atomic representation of a Herbrand model (ARM) is a finite set of (not necessarily groun...
Model generation refers to the automatic generation of mathematical structures that prove the satisf...
Finding computationally valuable representations of models of predicate logic formulas is an importa...
. Finding computationally valuable representations of models of predicate logic formulas is an impor...
. Finding computationally valuable representations of models of predicate logic formulas is an impor...
Abstract. We show that finding finite Herbrand models for a restricted class of first-order clauses ...
AbstractA method is proposed to transform automatically some satisfiable clause sets S into clause s...
. Semantic analysis refers to the analysis of semantic representations by inference on the basis of ...
AbstractWe present an algorithm that—given a set of clauses S saturated under some semantic refineme...
International audienceA number of first-order calculi employ an explicit model representation formal...
AbstractThe importance of models within automated deduction is generally acknowledged both in constr...
We call a Herbrand model of a set of first-order clauses finite, if each of the predicates in the cl...
clause interconnectivity graphs, context-free grammars, attribute grammars, proof theory. This work ...
Minimal Herbrand models of sets of first-order clauses are useful in several areas of computer scien...
Two related but independent topics are treated dealing with methods for mechanical theorem proving i...
AbstractAn atomic representation of a Herbrand model (ARM) is a finite set of (not necessarily groun...
Model generation refers to the automatic generation of mathematical structures that prove the satisf...
Finding computationally valuable representations of models of predicate logic formulas is an importa...
. Finding computationally valuable representations of models of predicate logic formulas is an impor...
. Finding computationally valuable representations of models of predicate logic formulas is an impor...
Abstract. We show that finding finite Herbrand models for a restricted class of first-order clauses ...
AbstractA method is proposed to transform automatically some satisfiable clause sets S into clause s...
. Semantic analysis refers to the analysis of semantic representations by inference on the basis of ...
AbstractWe present an algorithm that—given a set of clauses S saturated under some semantic refineme...
International audienceA number of first-order calculi employ an explicit model representation formal...
AbstractThe importance of models within automated deduction is generally acknowledged both in constr...
We call a Herbrand model of a set of first-order clauses finite, if each of the predicates in the cl...
clause interconnectivity graphs, context-free grammars, attribute grammars, proof theory. This work ...
Minimal Herbrand models of sets of first-order clauses are useful in several areas of computer scien...
Two related but independent topics are treated dealing with methods for mechanical theorem proving i...
AbstractAn atomic representation of a Herbrand model (ARM) is a finite set of (not necessarily groun...
Model generation refers to the automatic generation of mathematical structures that prove the satisf...