This paper presents a novel SAT-based approach for the computation of extensions in abstract argumentation, with focus on preferred semantics, and an empirical evaluation of its performances. The approach is based on the idea of reducing the problem of computing complete extensions to a SAT problem and then using a depth-first search method to derive preferred extensions. The proposed approach has been tested using two distinct SAT solvers and compared with three state-of-the-art systems for preferred extension computation. It turns out that the proposed approach delivers significantly better performances in the large majority of the considered cases
In this paper we introduce AASExts, an algorithm for computing admissible argumentation stage extens...
Abstract. This paper studies how to encode the problem of computing the extensions of an argumentati...
The emptiness problem of the preferred semantics and the non-existence problem of the stable semanti...
This paper presents a novel SAT-based approach for the computation of extensions in abstract argumen...
This paper presents a novel SAT-based approach for the computation of extensions in abstract argume...
In this paper we describe the system ArgSemSAT which includes algorithms which we proved to overcome...
We address the problem of deciding skeptical acceptance wrt. preferred semantics of an argument in a...
The hitherto most abstract, and hence general, argumentation system, is the one described by Dung in...
In this paper we introduce prefMaxSAT, a solver that exploits an efficient encoding of preferred ext...
Enumerating semantics extensions in abstract argumentation is generally an intractable problem. For ...
In this paper we illustrate the design choices that led to the development of ArgSemSAT, the winner ...
International audienceArgumentation is a promising approach for defeasible reasoning. It consists of...
In this paper we introduce AASExts, an algorithm for computing admissible argumentation stage extens...
Abstract. Dung established the connections between several logic pro-gramming semantics and various ...
International audienceTwo kinds of semantics exist for abstract argumentation. Extension-based seman...
In this paper we introduce AASExts, an algorithm for computing admissible argumentation stage extens...
Abstract. This paper studies how to encode the problem of computing the extensions of an argumentati...
The emptiness problem of the preferred semantics and the non-existence problem of the stable semanti...
This paper presents a novel SAT-based approach for the computation of extensions in abstract argumen...
This paper presents a novel SAT-based approach for the computation of extensions in abstract argume...
In this paper we describe the system ArgSemSAT which includes algorithms which we proved to overcome...
We address the problem of deciding skeptical acceptance wrt. preferred semantics of an argument in a...
The hitherto most abstract, and hence general, argumentation system, is the one described by Dung in...
In this paper we introduce prefMaxSAT, a solver that exploits an efficient encoding of preferred ext...
Enumerating semantics extensions in abstract argumentation is generally an intractable problem. For ...
In this paper we illustrate the design choices that led to the development of ArgSemSAT, the winner ...
International audienceArgumentation is a promising approach for defeasible reasoning. It consists of...
In this paper we introduce AASExts, an algorithm for computing admissible argumentation stage extens...
Abstract. Dung established the connections between several logic pro-gramming semantics and various ...
International audienceTwo kinds of semantics exist for abstract argumentation. Extension-based seman...
In this paper we introduce AASExts, an algorithm for computing admissible argumentation stage extens...
Abstract. This paper studies how to encode the problem of computing the extensions of an argumentati...
The emptiness problem of the preferred semantics and the non-existence problem of the stable semanti...