COROR: A COmposable Rule-entailment Owl ... - Defeasible Logic

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Experiment results (time-2, Coror-hybrid) 10 9 Coror Jena 8 Bossam BaseVISor Reasoning Time (sec) 7 6 5 4 3 2 OWLIM Pellet 1 0 NATO tambis-full pizza amino-acid wine ATK-Portal miniTambis food Biopax mad_cows FOAF Mindswapper Beer University Koala OWLS-profile Teams 18
Discussion based on the empirical results • All composable modes require less memory and reasoning time than the noncomposable mode • The two-phase RETE and Hybrid uses a lot less memory than the other modes as for this rule set the two-phase RETE algorithm can optimize the RETE structure as if unused rules are “removed” so the hybrid mode (combining the two-phase RETE algorithm and the selective rule loading algorithm) does not gain much more memory/time reduction comparing to the two-phase RETE algorithm. • Use the least memory among all evaluated reasoners while have reasoning time comparable to Jena forward chaining reasoner. • For small ontology (which are expected to be applied on sensors) <strong>COROR</strong> uses much less memory than the others. 19
Page 1 and 2: COROR: A COmposable Rule-entailment
Page 3 and 4: Example • Context addressable mes
Page 5 and 6: COROR: an overview • COROR is a C
Page 7 and 8: A short introduction to RETE • RE
Page 9 and 10: An example (?v owl:someValuesFrom ?
Page 11 and 12: An example (?v owl:someValuesFrom ?
Page 13 and 14: Implementation • COROR is impleme
Page 15 and 16: Experiment results (memory-1) Memor
Page 17: Experiment results (memory-2, Coror
Page 21 and 22: Thank you Questions? 21
Page 23: An analytical comparison between co

COROR: A COmposable Rule-entailment Owl ... - Defeasible Logic

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