AbstractWe present a decision procedure for the description logic SHIQ based on the basic superposition calculus, and show that it runs in exponential time for unary coding of numbers. To derive our algorithm, we extend basic superposition with a decomposition inference rule, which transforms conclusions of certain inferences into equivalent, but simpler clauses. This rule can be used for general first-order theorem proving with any resolution-based calculus compatible with the standard notion of redundancy
The superposition calculus, which underlies first-order theorem provers such as E, SPASS, and Vampir...
Benefits from structured knowledge representation have motivated the creation of large description l...
We apply the framework of Bachmair and Ganzinger for saturation-based theorem proving to derive a ra...
We present a decision procedure for the description logic SHIQ based on the basic superposition calc...
We present a decision procedure for the description logic SHIQ based on the basic superposition calc...
We present a resolution based reasoning algorithm called DL calculus that decides concept satisfiabi...
Abstract. Resolution-based calculi are among the most widely used calculi for theorem proving in fir...
We present a resolution based reasoning algorithm called DL calculus that decides concept satisfiabi...
There are many dierent ways of proving formulas in proposition logic. Many of these can easily be ch...
Description logics (DLs) are knowledge representation formalisms with well-understood model-theoreti...
There are many different ways of proving formulas in proposition logic. Many of these can easily be ...
We present a resolution-based decision procedure for the description logic SHOIQ - the logic underly...
AbstractWe show how a well-known superposition-based inference system for first-order equational log...
This paper investigates the relationship between resolution and tableaux proof system for the satisf...
International audienceThis paper deals with decision procedures specified by using a superposition c...
The superposition calculus, which underlies first-order theorem provers such as E, SPASS, and Vampir...
Benefits from structured knowledge representation have motivated the creation of large description l...
We apply the framework of Bachmair and Ganzinger for saturation-based theorem proving to derive a ra...
We present a decision procedure for the description logic SHIQ based on the basic superposition calc...
We present a decision procedure for the description logic SHIQ based on the basic superposition calc...
We present a resolution based reasoning algorithm called DL calculus that decides concept satisfiabi...
Abstract. Resolution-based calculi are among the most widely used calculi for theorem proving in fir...
We present a resolution based reasoning algorithm called DL calculus that decides concept satisfiabi...
There are many dierent ways of proving formulas in proposition logic. Many of these can easily be ch...
Description logics (DLs) are knowledge representation formalisms with well-understood model-theoreti...
There are many different ways of proving formulas in proposition logic. Many of these can easily be ...
We present a resolution-based decision procedure for the description logic SHOIQ - the logic underly...
AbstractWe show how a well-known superposition-based inference system for first-order equational log...
This paper investigates the relationship between resolution and tableaux proof system for the satisf...
International audienceThis paper deals with decision procedures specified by using a superposition c...
The superposition calculus, which underlies first-order theorem provers such as E, SPASS, and Vampir...
Benefits from structured knowledge representation have motivated the creation of large description l...
We apply the framework of Bachmair and Ganzinger for saturation-based theorem proving to derive a ra...