Reasoning with data: building performance checking and schema transformations

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Workshop Ontology Modelling - Session 8
Barcelona, 19-21 December 2011

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Reasoning with data: building performance checking and schema transformations

  1. 1. Faculty of Engineering and Architecture Session 8 Reasoning with data: building performance checking and schema transformations Workshop Ontology Modelling Barcelona, 19-21 December 2011
  2. 2. Faculty of Engineering and Architecture design [1] Linked Data – Connect Distributed Data across the Web. http://linkeddata.org/ (2011)
  3. 3. Faculty of Engineering and Architecture [2] R. Cyganiak, C. Bizer. Pubby – A linked data frontend for SPARQL endpoints. http://www4.wiwiss.fu-berlin.de/pubby/. [3] OpenLink Software. Virtuoso Universal Server. http://virtuoso.openlinksw.com/.
  4. 4. Faculty of Engineering and Architecture
  5. 5. Faculty of Engineering and Architecture Outline 1. Information visualization 2. Building performance checking 3. Interoperability and schema transformations
  6. 6. Faculty of Engineering and Architecture INFORMATION VISUALIZATION
  7. 7. Faculty of Engineering and Architecture ‘Intelligent’ Virtual Environments [4] GraphiSoft. GraphiSoft Virtual Building Explorer for ArchiCAD. http://www.graphisoft.com/products/virtual-building-explorer/.
  8. 8. Faculty of Engineering and Architecture Even more ‘Intelligent’ Virtual Environments
  9. 9. Faculty of Engineering and Architecture How to create the virtual environment? 1. Esperient Creator 2. 3DVIA Virtools 3. Unity3D 4. Quest3D 5. StoneTrip ShiVa [5] P. Pauwels, R. De Meyer, J. Van Campenhout. Visualisation of semantic architectural information within a game engine environment. In Proceedings of the 10th International Conference on Construction Applications of Virtual Reality. 2010. 219-228.
  10. 10. Faculty of Engineering and Architecture The information flow BIM model FBX representation import Virtual world in Unity3D export Real-time communication export IFC representation IFC-to-RDF Service BIM model in LOD cloud References to LOD cloud Enriched BIM model
  11. 11. Faculty of Engineering and Architecture 1. Creation of the virtual world [5] P. Pauwels, R. De Meyer, J. Van Campenhout. Visualisation of semantic architectural information within a game engine environment. In Proceedings of the 10th International Conference on Construction Applications of Virtual Reality. 2010. 219-228.
  12. 12. Faculty of Engineering and Architecture 2. Implementation of functionality (1) connecting FBX representation to the LOD cloud (1)
  13. 13. Faculty of Engineering and Architecture 2. Implementation of functionality (2) SELECT distinct ?s WHERE { ?s <http://multimedialab.organon.elis.ugent.be/ontologies/IFC2X3#tag> "175853"^^xsd:string . ?s <http://multimedialab.organon.elis.ugent.be/ontologies/IFC2X3#representation> ?o } connecting FBX representation to the LOD cloud (2)
  14. 14. Faculty of Engineering and Architecture 3. Build Graphical User Interface (GUI) [5] P. Pauwels, R. De Meyer, J. Van Campenhout. Visualisation of semantic architectural information within a game engine environment. In Proceedings of the 10th International Conference on Construction Applications of Virtual Reality. 2010. 219-228.
  15. 15. Faculty of Engineering and Architecture BUILDING PERFORMANCE CHECKING
  16. 16. Faculty of Engineering and Architecture Today’s approach BIM CAD software materials materials databases materials databases databases Target apps building model output formats - acoustic analysis - thermal analysis - energy analysis dedicated software NBN S01400-1 standards [6] P. Pauwels, D. Van Deursen, R. Verstraeten, J. De Roo, R. De Meyer, R. Van de Walle, J. Van Campenhout. A semantic rule checking environment for building performance checking. Automation in Construction 20(5) 2011, 506-518.
  17. 17. Faculty of Engineering and Architecture Proposed approach: step 1 BIM CAD software materials materials databases materials databases databases Target apps IFC instance - acoustic analysis - thermal analysis - energy analysis dedicated software NBN S01400-1 standards [6] P. Pauwels, D. Van Deursen, R. Verstraeten, J. De Roo, R. De Meyer, R. Van de Walle, J. Van Campenhout. A semantic rule checking environment for building performance checking. Automation in Construction 20(5) 2011, 506-518.
  18. 18. Faculty of Engineering and Architecture Proposed approach: step 2 BIM CAD software materials materials databases materials databases databases Target apps IFC instance - acoustic analysis - thermal analysis - energy analysis Formally described rules NBN S01400-1 standards [6] P. Pauwels, D. Van Deursen, R. Verstraeten, J. De Roo, R. De Meyer, R. Van de Walle, J. Van Campenhout. A semantic rule checking environment for building performance checking. Automation in Construction 20(5) 2011, 506-518.
  19. 19. Faculty of Engineering and Architecture Semantic BIM: schematic overview materials materials databases materials databases databases Reasoner instance of IFC NBN S01400-1 N3 rules standards and applicationspecific calculations [6] P. Pauwels, D. Van Deursen, R. Verstraeten, J. De Roo, R. De Meyer, R. Van de Walle, J. Van Campenhout. A semantic rule checking environment for building performance checking. Automation in Construction 20(5) 2011, 506-518.
  20. 20. Faculty of Engineering and Architecture Converting standards into N3Logic # Calculate R' [dB] for each Space surface that has a calculated Te,i value { # Find relevant Space surface and their Te,i values ?SS a ifc:SpaceSurface. ?SS ifc:spaceBoundary [ifc:relatedBuildingElement [:acousticTau ?tau1]]. (?SCOPE 1) e:findall (?tau {?SS ifc:spaceBoundary [ifc:relatedBuildingElement [:acousticTau ?tau]].} ?tauList). # Calculate R' [dB] for each Space surface ?tauList math:sum ?summedTau. (10 ?x) math:exponentiation ?summedTau. (-10 ?x) math:product ?R } => {?SS :acousticR ?R}. [6] P. Pauwels, D. Van Deursen, R. Verstraeten, J. De Roo, R. De Meyer, R. Van de Walle, J. Van Campenhout. A semantic rule checking environment for building performance checking. Automation in Construction 20(5) 2011, 506-518.
  21. 21. Faculty of Engineering and Architecture
  22. 22. Faculty of Engineering and Architecture
  23. 23. Faculty of Engineering and Architecture [6] P. Pauwels, D. Van Deursen, R. Verstraeten, J. De Roo, R. De Meyer, R. Van de Walle, J. Van Campenhout. A semantic rule checking environment for building performance checking. Automation in Construction 20(5) 2011, 506-518.
  24. 24. Faculty of Engineering and Architecture [6] P. Pauwels, D. Van Deursen, R. Verstraeten, J. De Roo, R. De Meyer, R. Van de Walle, J. Van Campenhout. A semantic rule checking environment for building performance checking. Automation in Construction 20(5) 2011, 506-518.
  25. 25. Faculty of Engineering and Architecture INTEROPERABILITY AND SCHEMA TRANSFORMATIONS
  26. 26. Faculty of Engineering and Architecture ? [7] P. Pauwels, D. Van Deursen, J. De Roo, T. Van Ackere, R. De Meyer, R. Van de Walle, J. Van Campenhout. Threedimensional information exchange over the semantic web for the domain of architecture, engineering, and construction. Artificial Intelligence for Engineering Design, Analysis and Manufacturing 25 (4) 2011, 317-332. [8] P. Pauwels, R. De Meyer, J. Van Campenhout. Interoperability for the Design and Construction Industry through Semantic Web Technology. 5th International Conference on Semantic and Digital Media Technologies. In Lecture Notes in Computer Science 6725, 2011, 143-158.
  27. 27. Faculty of Engineering and Architecture [7] P. Pauwels, D. Van Deursen, J. De Roo, T. Van Ackere, R. De Meyer, R. Van de Walle, J. Van Campenhout. Threedimensional information exchange over the semantic web for the domain of architecture, engineering, and construction. Artificial Intelligence for Engineering Design, Analysis and Manufacturing 25 (4) 2011, 317-332.
  28. 28. Faculty of Engineering and Architecture [7] P. Pauwels, D. Van Deursen, J. De Roo, T. Van Ackere, R. De Meyer, R. Van de Walle, J. Van Campenhout. Threedimensional information exchange over the semantic web for the domain of architecture, engineering, and construction. Artificial Intelligence for Engineering Design, Analysis and Manufacturing 25 (4) 2011, 317-332.
  29. 29. Faculty of Engineering and Architecture [7] P. Pauwels, D. Van Deursen, J. De Roo, T. Van Ackere, R. De Meyer, R. Van de Walle, J. Van Campenhout. Threedimensional information exchange over the semantic web for the domain of architecture, engineering, and construction. Artificial Intelligence for Engineering Design, Analysis and Manufacturing 25 (4) 2011, 317-332.
  30. 30. Faculty of Engineering and Architecture [7] P. Pauwels, D. Van Deursen, J. De Roo, T. Van Ackere, R. De Meyer, R. Van de Walle, J. Van Campenhout. Threedimensional information exchange over the semantic web for the domain of architecture, engineering, and construction. Artificial Intelligence for Engineering Design, Analysis and Manufacturing 25 (4) 2011, 317-332.
  31. 31. Faculty of Engineering and Architecture [7] P. Pauwels, D. Van Deursen, J. De Roo, T. Van Ackere, R. De Meyer, R. Van de Walle, J. Van Campenhout. Threedimensional information exchange over the semantic web for the domain of architecture, engineering, and construction. Artificial Intelligence for Engineering Design, Analysis and Manufacturing 25 (4) 2011, 317-332.
  32. 32. Faculty of Engineering and Architecture STL/RDF X3D/RDF IFC/RDF [7] P. Pauwels, D. Van Deursen, J. De Roo, T. Van Ackere, R. De Meyer, R. Van de Walle, J. Van Campenhout. Threedimensional information exchange over the semantic web for the domain of architecture, engineering, and construction. Artificial Intelligence for Engineering Design, Analysis and Manufacturing 25 (4) 2011, 317-332.
  33. 33. Faculty of Engineering and Architecture [7] P. Pauwels, D. Van Deursen, J. De Roo, T. Van Ackere, R. De Meyer, R. Van de Walle, J. Van Campenhout. Threedimensional information exchange over the semantic web for the domain of architecture, engineering, and construction. Artificial Intelligence for Engineering Design, Analysis and Manufacturing 25 (4) 2011, 317-332.
  34. 34. Faculty of Engineering and Architecture [7] P. Pauwels, D. Van Deursen, J. De Roo, T. Van Ackere, R. De Meyer, R. Van de Walle, J. Van Campenhout. Threedimensional information exchange over the semantic web for the domain of architecture, engineering, and construction. Artificial Intelligence for Engineering Design, Analysis and Manufacturing 25 (4) 2011, 317-332.
  35. 35. Faculty of Engineering and Architecture [7] P. Pauwels, D. Van Deursen, J. De Roo, T. Van Ackere, R. De Meyer, R. Van de Walle, J. Van Campenhout. Threedimensional information exchange over the semantic web for the domain of architecture, engineering, and construction. Artificial Intelligence for Engineering Design, Analysis and Manufacturing 25 (4) 2011, 317-332.
  36. 36. Faculty of Engineering and Architecture [7] P. Pauwels, D. Van Deursen, J. De Roo, T. Van Ackere, R. De Meyer, R. Van de Walle, J. Van Campenhout. Threedimensional information exchange over the semantic web for the domain of architecture, engineering, and construction. Artificial Intelligence for Engineering Design, Analysis and Manufacturing 25 (4) 2011, 317-332.
  37. 37. Faculty of Engineering and Architecture CONCLUSION
  38. 38. Faculty of Engineering and Architecture How to integrate diverse information models, in particular those that describe the same information differently???

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