Paper Info
Title
Induction of Fuzzy and Annotated Logic Programs
Abstract
The new direction of the research in the field of data mining is the development of methods to handle imperfection (uncertainty, vagueness, imprecision,...). The main interest in this research is focused on probability models. Besides these there is an extensive study of the phenomena of imperfection in fuzzy logic. In this paper we concentrate especially on fuzzy logic programs (FLP) and Generalized Annotated Programs (GAP). The lack of the present research in the field of fuzzy inductive logic programming (FILP) is that every approach has its own formulation of the proof-theoretic part (often dealing with linguistic hedges) and lack sound and compete formulation of semantics. Our aim in this paper is to propose a formal model of FILP and induction of GAP programs (IGAP) based on sound and complete model of FLP (without linguistic hedges) and its equivalence with GAP. We focus on learning from entailment setting in this paper. We describe our approach to IGAP and show its consistency and equivalence to FILP. Our inductive method is used for detection of user preferences in a web search application. Finally, we compare our approach to several fuzzy ILP approaches.
Year
DOI
Venue
2006
10.1007/978-3-540-73847-3_27
ILP
Keywords
Field
DocType
gap program,fuzzy logic,inductive method,fuzzy logic program,linguistic hedge,complete model,fuzzy inductive logic programming,formal model,present research,annotated logic programs,fuzzy ilp approach,data mining
Fuzzy electronics,Inductive logic programming,Fuzzy classification,Computer science,Fuzzy logic,Theoretical computer science,Equivalence (measure theory),Artificial intelligence,Logic programming,Fuzzy Control Language,Fuzzy number,Machine learning
Conference
Volume
ISSN
Citations 
4455
0302-9743
15
PageRank 
References 
Authors
1.10
10
2
Name
Order
Citations
PageRank
Tomás Horváth112218.50
Peter Vojtáš240235.37