A graph‐based postoptimization approach for covering arrays

A graph‐based postoptimization approach for covering arrays

Covering arrays (CAs) are combinatorial objects with interesting features that have practical applications such as experimental design and fault detection in hardware and software. We introduce a graph‐based postoptimization (GBPO) approach to reduce the size of CAs exploiting the redundancy in CAs...

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Veröffentlicht in:Quality and reliability engineering international 2017-12, Vol.33 (8), p.2171-2180
Hauptverfasser: Perez‐Torres, Jose Carlos, Torres‐Jimenez, Jose
Format: Artikel
Sprache:eng
Schlagworte:
Combinatorial analysis
covering arrays
Fault detection
post‐optimization
Redundancy
testing of software and hardware
test‐suites
Upper bounds
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Zusammenfassung:Covering arrays (CAs) are combinatorial objects with interesting features that have practical applications such as experimental design and fault detection in hardware and software. We introduce a graph‐based postoptimization (GBPO) approach to reduce the size of CAs exploiting the redundancy in CAs previously constructed. To evidence the advantages of using GBPO, we have instantiated it with 2 sets of CAs: (1) 560 CAs of strength 2≤t≤6, alphabet 2≤v≤6, and parameters 3≤k≤32 generated by an optimized version of In‐Parameter‐Order‐Generalized (IPOG‐F) and GBPO improved all CAs, and 37 cases matched the best‐known upper bounds; and (2) 32 CAs of strength t=2, alphabet 3≤v≤6, and number of parameters 8≤k≤146; in this set, 16 cases were improved, and 16 cases were matched.
ISSN:0748-8017
1099-1638
DOI:10.1002/qre.2176