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ILP
1998
Springer
1998
Springer
Strongly Typed Inductive Concept Learning
In this paper we argue that the use of a language with a type system, together with higher-order facilities and functions, provides a suitable basis for knowledge representation in inductive concept learning and, in particular, illuminates the relationship between attribute-value learning and inductive logic programming (ILP). Individuals are represented by closed terms: tuples of constants in the case of attribute-value learning; arbitrarily complex terms in the case of ILP. To illustrate the point, we take some learning tasks from the machine learning and ILP literature and represent them in Escher, a typed, higher-order, functional logic programming language being developed at the University of Bristol. We argue that the use of a type system provides better ways to discard meaningless hypotheses on syntactic grounds and encompasses many ad hoc approaches to declarative bias.
Real-time TrafficAttribute-value Learning | Automated Reasoning | ILP 1998 | Inductive Concept Learning | Type System |
Related Content
| Added | 06 Aug 2010 |
| Updated | 06 Aug 2010 |
| Type | Conference |
| Year | 1998 |
| Where | ILP |
| Authors | Peter A. Flach, Christophe G. Giraud-Carrier, John W. Lloyd |
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