AbstractWe present a new approach to deal with default information based on the theory of belief functions. Our semantic structures, inspired by Adams' epsilon semantics, are epsilon-belief assignments, where mass values are either close to 0 or close to 1. In the first part of this paper, we show that these structures can be used to give a uniform semantics to several popular non-monotonic systems, including Kraus, Lehmann and Magidor's system P , Pearl's system Z , Brewka's preferred subtheories, Geffner's conditional entailment, Pinkas' penalty logic, possibilistic logic and the lexicographic approach. In the second part, we use epsilon-belief assignments to build a new system, called LCD, and show that this system correctly addresses th...
This paper presents an approach to default reasoning based on an extension to classical first-order ...
AbstractDefault logic was proposed by Reiter as a knowledge representation tool. In this paper, we p...
In this paper we present a novel approach to default reasoning, based on the concept of A-uncertaint...
AbstractWe present a new approach to deal with default information based on the theory of belief fun...
We present a new approach to deal with default information based on the theory of belief functions. ...
This article provides an experimental analysis of the possibilistic handling of default rules. Three...
We describe a new approach to default reasoning, based on a principle of indifference among possible...
AbstractAlthough most commonly occurring default rules are normal when viewed in isolation, they can...
Belief revision leads to temporal nonmonotonicity, i.e., the set of beliefs does not grow monotonica...
AbstractThis paper introduces power default reasoning (PDR), a framework for non-monotonic reasoning...
AbstractDefault rules express concise pieces of knowledge having implicit exceptions, which is appro...
AbstractThis paper extends the theory of belief functions by introducing new concepts and techniques...
We introduce a new approach to modeling uncertainty based on plausibility measures. This approach is...
We consider a reinterpretation of the rules of default logic. We make Reiter’s default rules into a ...
In this paper constructions leading to the formation of belief sets by agents are studied. The focus...
This paper presents an approach to default reasoning based on an extension to classical first-order ...
AbstractDefault logic was proposed by Reiter as a knowledge representation tool. In this paper, we p...
In this paper we present a novel approach to default reasoning, based on the concept of A-uncertaint...
AbstractWe present a new approach to deal with default information based on the theory of belief fun...
We present a new approach to deal with default information based on the theory of belief functions. ...
This article provides an experimental analysis of the possibilistic handling of default rules. Three...
We describe a new approach to default reasoning, based on a principle of indifference among possible...
AbstractAlthough most commonly occurring default rules are normal when viewed in isolation, they can...
Belief revision leads to temporal nonmonotonicity, i.e., the set of beliefs does not grow monotonica...
AbstractThis paper introduces power default reasoning (PDR), a framework for non-monotonic reasoning...
AbstractDefault rules express concise pieces of knowledge having implicit exceptions, which is appro...
AbstractThis paper extends the theory of belief functions by introducing new concepts and techniques...
We introduce a new approach to modeling uncertainty based on plausibility measures. This approach is...
We consider a reinterpretation of the rules of default logic. We make Reiter’s default rules into a ...
In this paper constructions leading to the formation of belief sets by agents are studied. The focus...
This paper presents an approach to default reasoning based on an extension to classical first-order ...
AbstractDefault logic was proposed by Reiter as a knowledge representation tool. In this paper, we p...
In this paper we present a novel approach to default reasoning, based on the concept of A-uncertaint...