Ontology-based Supply Chain process configuration

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Zdravković. M., Trajanović, M., Panetto, H., Lezoche, M., Aubrey, A., Sep. 2011. "Ontology-based supply chain process configuration", In: Trajanović, M. (Ed.), Proceedings of the 34th International Conference on Production Engineering. pp. 399-402.

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Ontology-based Supply Chain process configuration

  1. 1. Ontology-based Supply Chain configuration Zdravkovi ć, M., Trajanović, M. ICPE 2011
  2. 2. Concepts Concepts are related to other concepts Concepts are combined into propositions Propositions are clustered into mental models … when concepts are specified, what we get is… Ontology
  3. 3. <ul><li>Concepts </li></ul><ul><ul><li>∃ s (student(s)), ∃p (person(p)), ∃c (computer(c)),... </li></ul></ul><ul><li>Propositions (statements) </li></ul><ul><ul><li>∀ s ( student(s)) => person(s) </li></ul></ul><ul><ul><li>∃ s ∃f (student(s) ∧ facebook(f) ∧ knowsHowToUse(s,f) ) </li></ul></ul><ul><ul><li>∃ s ∃i (student(s) ∧ internet(i) ∧ knowsHowToUse(s,i) ) </li></ul></ul><ul><ul><li>∃ s ∃c (student(s) ∧ computer(c) ∧ knowsHowToUse(s,c) ) </li></ul></ul><ul><li>Mental models (rules) </li></ul><ul><ul><li>∀ s ( student(s) ∧ facebook(f) ∧ knowsHowToUse(s,f)) ⇒ ∃i (internet(i) ∧ knowsHowToUse(s,i)) </li></ul></ul><ul><ul><li>∀ s ( student(s) ∧ internet(i) ∧ knowsHowToUse(s,i)) ⇒ ∃c (computer(c) ∧ knowsHowToUse(s,c)) </li></ul></ul>
  4. 4. Incompatibility of business objectives Increasing complexity and heterogeneity of systems Isolated business functions Supply Chain Challenges Interoperability Common practices System-wise decision making
  5. 5. SCOR (Supply Chain Operations Reference) <ul><li>Standard approach for analysis, design and implementation of changes required for the improvement of five core, integrated processes in supply chains: plan, source, make, deliver and return </li></ul>
  6. 6. Knowledge sources and types SCOR- MAP SCOR-FULL OWL SCOR-SYS OWL SCOR-KOS OWL SCOR Native formats, Exchange formats Domain Ontologies Implicit semantics Explicit semantics Semantic enrichment Formal models of design goals Semantic applications Enterprise Information Systems SCOR-based systems EIS database LOCAL ONTOLOGY EIS database LOCAL ONTOLOGY EIS database LOCAL ONTOLOGY SCOR-CFG OWL
  7. 7. 1. Product information acquisition (principal product topology and manufacturing strategies for each of the components) 2. Production information assertion (to SCOR-CFG OWL model) 3. Generation of SCOR thread diagram
  8. 8. Thank you for your attention [email_address]

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