2,019 research outputs found
A Declarative Semantics for CLP with Qualification and Proximity
Uncertainty in Logic Programming has been investigated during the last
decades, dealing with various extensions of the classical LP paradigm and
different applications. Existing proposals rely on different approaches, such
as clause annotations based on uncertain truth values, qualification values as
a generalization of uncertain truth values, and unification based on proximity
relations. On the other hand, the CLP scheme has established itself as a
powerful extension of LP that supports efficient computation over specialized
domains while keeping a clean declarative semantics. In this paper we propose a
new scheme SQCLP designed as an extension of CLP that supports qualification
values and proximity relations. We show that several previous proposals can be
viewed as particular cases of the new scheme, obtained by partial
instantiation. We present a declarative semantics for SQCLP that is based on
observables, providing fixpoint and proof-theoretical characterizations of
least program models as well as an implementation-independent notion of goal
solutions.Comment: 17 pages, 26th Int'l. Conference on Logic Programming (ICLP'10
Weighted logics for artificial intelligence : an introductory discussion
International audienceBefore presenting the contents of the special issue, we propose a structured introductory overview of a landscape of the weighted logics (in a general sense) that can be found in the Artificial Intelligence literature, highlighting their fundamental differences and their application areas
Dominance-based Rough Set Approach, basic ideas and main trends
Dominance-based Rough Approach (DRSA) has been proposed as a machine learning
and knowledge discovery methodology to handle Multiple Criteria Decision Aiding
(MCDA). Due to its capacity of asking the decision maker (DM) for simple
preference information and supplying easily understandable and explainable
recommendations, DRSA gained much interest during the years and it is now one
of the most appreciated MCDA approaches. In fact, it has been applied also
beyond MCDA domain, as a general knowledge discovery and data mining
methodology for the analysis of monotonic (and also non-monotonic) data. In
this contribution, we recall the basic principles and the main concepts of
DRSA, with a general overview of its developments and software. We present also
a historical reconstruction of the genesis of the methodology, with a specific
focus on the contribution of Roman S{\l}owi\'nski.Comment: This research was partially supported by TAILOR, a project funded by
European Union (EU) Horizon 2020 research and innovation programme under GA
No 952215. This submission is a preprint of a book chapter accepted by
Springer, with very few minor differences of just technical natur
- …