Title of article
Bounded treewidth as a key to tractability of knowledge representation and reasoning Original Research Article
Author/Authors
Georg Gottlob، نويسنده , , Reinhard Pichler، نويسنده , , Fang Wei، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2010
Pages
28
From page
105
To page
132
Abstract
Several forms of reasoning in AI – like abduction, closed world reasoning, circumscription, and disjunctive logic programming – are well known to be intractable. In fact, many of the relevant problems are on the second or third level of the polynomial hierarchy. In this paper, we show how the notion of treewidth can be fruitfully applied to this area. In particular, we show that all these problems become tractable (actually, even solvable in linear time), if the treewidth of the involved formulae or programs is bounded by some constant.
Clearly, these theoretical tractability results as such do not immediately yield feasible algorithms. However, we have recently established a new method based on monadic datalog which allowed us to design an efficient algorithm for a related problem in the database area. In this work, we exploit the monadic datalog approach to construct new algorithms for logic-based abduction.
Keywords
Treewidth , Closed world reasoning , Monadic datalog , Disjunctive logic programming , Abduction , fixed-parameter tractability
Journal title
Artificial Intelligence
Serial Year
2010
Journal title
Artificial Intelligence
Record number
1207725
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