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Improving the scalability of rule base verification using binary decision diagrams: an empirical study

Improving the scalability of rule base verification using binary decision diagrams: an empirical study
Improving the scalability of rule base verification using binary decision diagrams: an empirical study
As their field of application has evolved and matured, the importance of verifying knowledge-based systems is now widely recognized. Nevertheless, some problems have remained. In recent work, we have addressed the poor scalability to larger systems of the ATMS-inspired computation methods commonly applied to rule-chain anomaly checking. To tackle this problem, we introduced a novel anomaly checking method based on binary decision diagrams (BDDs), a technique emanating originally from the hardware design community. In this paper, we present further empirical evidence of its computational efficiency on real-life rule bases. In addition, we will investigate the issue of BDD variable ordering, and its impact on the efficiency of the computations. Thereby, we will also assess the utility of dynamic reordering.
3540231668
0302-9743
3238
381-395
Springer
Mues, Christophe
07438e46-bad6-48ba-8f56-f945bc2ff934
Vanthienen, Jan
6f3d818f-0fce-46fa-966b-160e645caf6d
Mues, Christophe
07438e46-bad6-48ba-8f56-f945bc2ff934
Vanthienen, Jan
6f3d818f-0fce-46fa-966b-160e645caf6d

Mues, Christophe and Vanthienen, Jan (2004) Improving the scalability of rule base verification using binary decision diagrams: an empirical study. In KI 2004: Advances in Artificial Intelligence: 27th Annual German Conference on AI, KI 2004, Ulm, Germany, September 20-24, 2004. Proceedings. Springer. pp. 381-395 . (doi:10.1007/b100351).

Record type: Conference or Workshop Item (Paper)

Abstract

As their field of application has evolved and matured, the importance of verifying knowledge-based systems is now widely recognized. Nevertheless, some problems have remained. In recent work, we have addressed the poor scalability to larger systems of the ATMS-inspired computation methods commonly applied to rule-chain anomaly checking. To tackle this problem, we introduced a novel anomaly checking method based on binary decision diagrams (BDDs), a technique emanating originally from the hardware design community. In this paper, we present further empirical evidence of its computational efficiency on real-life rule bases. In addition, we will investigate the issue of BDD variable ordering, and its impact on the efficiency of the computations. Thereby, we will also assess the utility of dynamic reordering.

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More information

Published date: 2004
Additional Information: Mues, C., Vanthienen, J.- Editor -->
Venue - Dates: 27th German Conference on Artificial Intelligence (KI2004), Koblenz, Germany, 2004-09-20 - 2004-09-24
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Identifiers

Local EPrints ID: 36157
URI: http://eprints.soton.ac.uk/id/eprint/36157
DOI: doi:10.1007/b100351
ISBN: 3540231668
ISSN: 0302-9743
PURE UUID: 20fbf875-76c0-4466-88c6-816f6f60727c
ORCID for Christophe Mues: ORCID iD orcid.org/0000-0002-6289-5490

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Date deposited: 24 May 2006
Last modified: 16 Mar 2024 03:40

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Author: Christophe Mues ORCID iD
Author: Jan Vanthienen

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