Rules and meta-rules in the framework of possibility theory and possibilistic logic

AbstractAnswer Set Programming (ASP) is a popular framework for modelling combinatorial problems. However, ASP cannot be used easily for reasoning about uncertain information. Possibilistic ASP (PASP) is an extension of ASP that combines possibilistic logic and ASP. In PASP a weight is associated with each rule, whereas this weight is interpreted as the certainty with which the conclusion can be established when the body is known to hold. As such, it allows us to model and reason about uncertain information in an intuitive way. In this paper we present new semantics for PASP in which rules are interpreted as constraints on possibility distributions. Special models of these constraints are then identified as possibilistic answer sets. In addition, since ASP is a special case of PASP in which all the rules are entirely certain, we obtain a new characterization of ASP in terms of constraints on possibility distributions. This allows us to uncover a new form of disjunction, called weak disjunction, that has not been previously considered in the literature. In addition to introducing and motivating the semantics of weak disjunction, we also pinpoint its computational complexity. In particular, while the complexity of most reasoning tasks coincides with standard disjunctive ASP, we find that brave reasoning for programs with weak disjunctions is easier.

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Possibility Theory and Possibilistic Logic: Tools for Reasoning Under and About Incomplete Information

Intelligence Science III - IFIP Advances in Information and Communication Technology ◽

10.1007/978-3-030-74826-5_7 ◽

2021 ◽

pp. 79-89

Author(s):

Didier Dubois ◽

Henri Prade

Keyword(s):

Incomplete Information ◽

Possibility Theory ◽

Possibilistic Logic

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PRODUCT-BASED CAUSAL NETWORKS AND QUANTITATIVE POSSIBILISTIC BASES

International Journal of Uncertainty Fuzziness and Knowledge-Based Systems ◽

10.1142/s0218488505003618 ◽

2005 ◽

Vol 13 (05) ◽

pp. 469-493 ◽

Cited By ~ 5

Author(s):

SALEM BENFERHAT ◽

FAIZA HANED KHELLAF ◽

AICHA MOKHTARI

Keyword(s):

Possibility Theory ◽

Knowledge Bases ◽

Possibilistic Logic ◽

Product Operator ◽

Causal Networks ◽

One Step

In possibility theory, there are two kinds of possibilistic causal networks depending if possibilistic conditioning is based on the minimum or on the product operator. Similarly there are also two kinds of possibilistic logic: standard (min-based) possibilistic logic and quantitative (product-based) possibilistic logic. Recently, several equivalent transformations between standard possibilistic logic and min-based causal networks have been proposed. This paper goes one step further and shows that product-based causal networks can be encoded into product-based knowledge bases. The converse transformation is also provided.

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Timed Possibilistic Logic

Fundamenta Informaticae ◽

10.3233/fi-1991-153-403 ◽

1991 ◽

Vol 15 (3-4) ◽

pp. 211-234

Author(s):

Didier Dubois ◽

Jérôme Lang ◽

Henri Prade

Keyword(s):

Temporal Logic ◽

Fuzzy Set ◽

Lattice Structure ◽

Possibility Theory ◽

Temporal Scale ◽

Logical Framework ◽

Classical Formula ◽

Possibilistic Logic ◽

Fuzzy Subsets

This paper is an attempt to cast both uncertainty and time in a logical framework. It generalizes possibilistic logic, previously developed by the authors, where each classical formula is associated with a weight which obeys the laws of possibility theory. In the possibilistic temporal logic we present here, each formula is associated with a time set (a fuzzy set in the more general case) which represents the set of instants where the formula is certainly true (more or less certainly true in the general case). When a particular instant is fixed we recover possibilistic logic. Timed possibilistic logic generalizes possibilistic logic also in the sense that we substitute the lattice structure of the set of the (fuzzy) subsets of the temporal scale to the lattice structure underlying the certainty weights in possibilistic logic. Thus many results from possibilistic logic can be straightforwardly generalized to timed possibilistic logic. Illustrative examples are given.

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Inconsistency Management from the Standpoint of Possibilistic Logic

International Journal of Uncertainty Fuzziness and Knowledge-Based Systems ◽

10.1142/s0218488515400024 ◽

2015 ◽

Vol 23 (Suppl. 1) ◽

pp. 15-30 ◽

Cited By ~ 1

Author(s):

Didier Dubois ◽

Henri Prade

Keyword(s):

Fuzzy Sets ◽

Lower Bounds ◽

Propositional Logic ◽

Information Sources ◽

Possibility Theory ◽

Human Knowledge ◽

Possibilistic Logic ◽

Inconsistency Management ◽

The Rich ◽

Theory Framework

Uncertainty and inconsistency pervade human knowledge. Possibilistic logic, where propositional logic formulas are associated with lower bounds of a necessity measure, handles uncertainty in the setting of possibility theory. Moreover, central in standard possibilistic logic is the notion of inconsistency level of a possibilistic logic base, closely related to the notion of consistency degree of two fuzzy sets introduced by L. A. Zadeh. Formulas whose weight is strictly above this inconsistency level constitute a sub-base free of any inconsistency. However, several extensions, allowing for a paraconsistent form of reasoning, or associating possibilistic logic formulas with information sources or subsets of agents, or extensions involving other possibility theory measures, provide other forms of inconsistency, while enlarging the representation capabilities of possibilistic logic. The paper offers a structured overview of the various forms of inconsistency that can be accommodated in possibilistic logic. This overview echoes the rich representation power of the possibility theory framework.

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