1. The 3B Project Benefits of Using Object-Based Building Models
Presentation of the Project
BL 7 Aalborg University, 3. October 2007
Joint research project between Aalborg University – Associate prof. Kaj A. Jørgensen Aarhus School of Architecture – Associate prof. Jørn Skauge
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

2. Based on data from the building project »Sorthojparken« in Aalborg Denmark
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

3. Utilisation of Building Models Analysis and Simulation
3D Model
Visualizations
Construction drawings
Simulations
Visualization
Visualization and Virtual Reality
Plan
Section
Static Analysis
Quantity Calculations
Cost estimation
Model check
Energy Consumption
IFC model server
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

4. Quantity take off and cost estimation Panorama Visualization
Tocoman, Byggeriets IT, ADT
EPM Modelserver Norway
Eurostep Modelserver Finland
Sable Server Web Clients
DDS Viewer
VR Media Lab
IFC Model Server
IFC Test
Quantity take off and cost estimation
Panorama Visualization
Visualization
ADT, VIZ Render
LightWorks, 3DS
Solibri Modelcheck
Energy consumption
Virtual reality
2D drawings
3D Building Components
Static analysis
GDL Dalton Stair
TurnTool
IFC - Riuska Granlund Finland
IFC – CBS Robot
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

5. Visualisation
Based on model data from the building project »Sorthojparken« in Aalborg Denmark
ArchiCAD model is being tested in AC itself - landscape
Visualisation :
ArchiCAD Lightworks
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

6. Visualisation
Based on model data from the building project »Sorthojparken« in Aalborg Denmark
Visualisation :
ArchiCAD Lightworks
ArchiCAD model is being tested in AC itself – Environment
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

7. Visualisation
Based on model data from the building project »Sorthojparken« in Aalborg Denmark
ArchiCAD model is being tested in AC itself - Environment
Visualisation :
ArchiCAD Lightworks
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

8. Visualisation
Based on model data from the building project »Sorthojparken« in Aalborg Denmark
Visualisation :
ArchiCAD Lightworks
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

9. Visualisation
Based on model data from the building project »Sorthojparken« in Aalborg Denmark
ArchiCAD model is being tested in AC itself – Building cut
Visualisation :
ArchiCAD Lightworks
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

10. Visualisation
Based on model data from the building project »Sorthojparken« in Aalborg Denmark
ArchiCAD model is being tested in AC itself - Plan
Visualisation :
ArchiCAD Lightworks
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

11. Visualisation and Virtual Reality
The 3B Project - Benefits of Using Object-Based Building Models
Visualisation and Virtual Reality
Based on model data from the building project »Sorthojparken« in Aalborg Denmark
Visualisation :
Turntool Denmark
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

12. Visualisation and Virtual Reality
The 3B Project - Benefits of Using Object-Based Building Models
Visualisation and Virtual Reality
Based on model data from the building project »Sorthojparken« in Aalborg Denmark
VR Media Lab at Aalborg University:
Software: VR4MAX
Panorama
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

13. The 3B Project - Benefits of Using Object-Based Building Models
IFC Based Model Viewer
Models exported from ATD and ArchiCad to IFC file (P21 format)
Model is viewed in the DDS IFC Viewer:
Model is viewed in Octaga Viewer
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

14. The 3B Project - Benefits of Using Object-Based Building Models
Solibri Model Checker
Model Checker
Example 1:
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

15. The 3B Project - Benefits of Using Object-Based Building Models
Solibri Model Checker
Model Checker
Example 2:
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

16. 2D construction drawings
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

17. 2D construction drawings
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

18. Static analysis and calculation - balcony
Based on model data from the building project »Sorthojparken« in Aalborg Denmark
Static Calculations are being tested in the ADT Model by CBS Robot
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

19. Static analysis and calculation - balcony
Based on model data from the building project »Sorthojparken« in Aalborg Denmark
Static Calculations are being tested in the ADT Model by CBS Robot
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

20. Static analysis and calculation - balcony
Based on model data from the building project »Sorthojparken« in Aalborg Denmark
Static Calculations are being tested in the ADT Model by CBS Robot
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

21. Static analysis and calculation - balcony
Based on model data from the building project »Sorthojparken« in Aalborg Denmark
Static Calculations are being tested in the ADT Model by CBS Robot
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

22. Static analysis and calculation - balcony
Static Calculations are being tested in the ADT Model by CBS Robot
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

23. Static analysis and calculation - balcony
Static Calculations are being tested in the ADT Model by CBS Robot
Metoden
1 Alle simple bjælker (IPE 120) mellem hovedprofilerne fjernes for overskuelighedens skyld.
2. Kræfterne fra altanpladerne via IPE 120 profilerne påsættes hovedprofilerne som linielaste og enkeltlaste.
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

24. Static analysis and calculation - balcony
Static Calculations are being tested in the ADT Model by CBS Robot
Metoden
I Finite Element metoden optræder et bjælkeelement som et endimensionalt element med en udstrækning i længdeaksen alene uden dimension i højde og bredde..
Programmet regner således på profilernes centerlinier. De enkelte elementer skal derfor være forbundet gennem de respektive centerlinier og også samles i endepunkterne.
I en virkelig konstruktion vil centerlinierne ikke altid være placeret i samme niveau, ligesom elementernes endepunkter sjældent vil falde sammen.
3. Centerlinierne forbindes, samles i endepunkter samt placeres i samme niveau
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

25. Static analysis and calculation - balcony
Static Calculations are being tested in the ADT Model by CBS Robot
Nummerering af elementerne 
I beregningsprogrammet vil alle elementer blive tildelt et nummer. De forskellige tværsnit kan endvidere vises med forskellige farver: En oversigt over elementerne kan også fås i tabelform.
Konstruktionen er regnet for følgende laster: Egenlast plus
nyttelast.
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

26. Static analysis and calculation - balcony
Alle elementer tildeles et nummer vist grafisk eller i tabelform
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

27. Static analysis and calculation - balcony
Static Calculations are being tested in the ADT Model by CBS Robot
Metoden
Konstruktionen kan nu overføres til Robot via CBS. I denne proces blotlægges en svaghed ved Robot/CBS. Hvis konstruktionen består af betonbjælker/søjler eller af træbjælker/søjler vil IFC filen overføre alle oplysninger fra ADT til Robot/CBS.
I dette tilfælde, hvor elementerne består af stålprofiler, skal alle elementer redefineres. Dette vil sige, at oplysningen om at en bjælke er et HEA 240 profil, skal altså gives igen i Robot. Når dette er gjort, er konstruktionen klar til at blive behandlet i Robot.
Robot kender profilerne på navnene og har indbygget tværsnitskonstanter m.m. for eksempelvist et HEA 240
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

28. Static analysis and calculation - balcony
Static Calculations are being tested in the ADT Model by CBS Robot
Resultatet
Når de enkelte elementer skal analyseres, får man det bedste overblik ved at betragte elementerne hver for sig. Resultater for bjælkerne 41 og 45. Disse er de bjælker der stikker ind under bygningen:
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

29. Quantity calculation
Quantity Calculations are being tested in the ADT within ADT itself + Excel
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

30. Quantity calculation
Quantity Calculations are being tested in the ADT within ADT itself + Excel
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

31. Quantity calculation
Quantity Calculations are being tested in the ADT within ADT itself + Excel
Her er tabeldata fra ydervægge overført til Excel regneark. Regnearket er udarbejdet som tilbudsliste. I de grønne felter ses søjle for enhedspris og søjle for pris. Man indtaster i søjlen enhedspris denne pris hvorefter prisen indsættes automatisk for hver bygningsdel. Totalprisen anføres samtidig automatisk nederst.
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

32. Quantity Take off and Cost Estimation
The 3B Project - Benefits of Using Object-Based Building Models
Quantity Take off and Cost Estimation
Based on data from the building project »Sorthojparken« in Aalborg Denmark
Quantity take off in ADT and ArchiCad
Models are testet for quantity take off by
and
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

33. Comfort Simulation
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

34. Energy Consumption
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

35. IFC Based Model Servers
The 3B Project - Benefits of Using Object-Based Building Models
IFC Based Model Servers
Models exported from ATD2004 and AC 8.1 (IFC P21 format).
Model is uploaded to
EPM Model Server, Norway
Model is viewed in SABLE Server web clients:
and
EuroStep Model Server, Finland
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

36. IFC Based Model Servers
The 3B Project - Benefits of Using Object-Based Building Models
IFC Based Model Servers
Development Sable Server Client Application
Select a building storey:
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

37. IFC Based Model Servers
The 3B Project - Benefits of Using Object-Based Building Models
IFC Based Model Servers
Development Sable Server Client Application
Select a section of the building and get the contents:
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design

38. The 3B Project - Benefits of Using Object-Based Building Models
The End
Kaj Jørgensen, Aalborg University, Department of Production and Jørn Skauge, School of Architecture Aarhus, Department of Architectural Design