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AAAI
2008
2008
Computing Minimal Diagnoses by Greedy Stochastic Search
Most algorithms for computing diagnoses within a modelbased diagnosis framework are deterministic. Such algorithms guarantee soundness and completeness, but are P 2 hard. To overcome this complexity problem, which prohibits the computation of high-cardinality diagnoses for large systems, we propose a novel approximation approach for multiple-fault diagnosis, based on a greedy stochastic algorithm called SAFARI (StochAstic Fault diagnosis AlgoRIthm). We prove that SAFARI can be configured to compute diagnoses which are of guaranteed minimality under subsumption. We analytically model SAFARI search as a Markov chain, and show a probabilistic bound on the minimality of its minimal diagnosis approximations. We have applied this algorithm to the 74XXX and ISCAS85 suites of benchmark combinatorial circuits, demonstrating order-ofmagnitude speedups over two state-of-the-art deterministic algorithms, CDA and HA , for multiple-fault diagnoses.
Real-time TrafficAAAI 2008 | Algorithm | Algorithm Called Safari | Algorithms Guarantee Soundness | Intelligent Agents |
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| Added | 02 Oct 2010 |
| Updated | 02 Oct 2010 |
| Type | Conference |
| Year | 2008 |
| Where | AAAI |
| Authors | Alexander Feldman, Gregory M. Provan, Arjan J. C. van Gemund |
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