Nicolas Rogeau
EPFL ENAC IIC IBOIS
GC H2 711 (Bâtiment GC)
Station 18
CH-1015 Lausanne
+41 21 693 45 56
+41 21 693 91 60
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GC H2 711
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Web site: Site web: https://ibois.epfl.ch/
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Domaines de compétences
Computational design
Timber ConstructionDigital FabricationRobotic Assembly
Biographie
Nicolas Rogeau is an engineer architect interested in parametric design and sustainable construction. In 2018, he graduated with a master degree in architecture and civil engineering from Université Catholique de Louvain, Belgium. During his studies, Nicolas spent one year in Quebec City at Université Laval, where he got interested in timber structures and digital fabrication. His master thesis entitled “Parametric Design of Drone-Compatible Architectural Timber Structures”, which was presented at MIT during the annual IASS symposium, got two alumni awards for best innovation and best presentation. Since 2018, Nicolas has been working as a scientific and teaching assistant at the laboratory for timber construction, IBOIS, EPF Lausanne, where he collaborates with engineers, architects and computer scientists in order to design innovative timber structures. Nicolas joined the NCCR Digital Fabrication as a PhD researcher in March 2019 and he is currently working on the robotic assembly of timber plate structures.Publications
Sélection de publications
Rogeau N., Latteur P., Weinand Y. Automation in Construction |
An integrated design tool for timber plate structures to generate joints geometry, fabrication toolpath, and robot trajectories |
Rezaei Rad A., Burton H., Rogeau N., Vestartas P., Weinand, Y. Computers & Structures |
A framework to automate the design of digitally-fabricated timber plate structures |
Rogeau N., Tiberghien V., Latteur P., Weinand Y. Proceedings of the 37th International Symposium on Automation and Robotics in Construction |
Robotic Insertion of Timber Joints using Visual Detection of Fiducial Markers |
Vestartas P., Rogeau N., Gamerro J., Weinand Y. Proceedings of the Design Modelling Symposium "Impact: Design With All Senses" |
Modelling Workflow for Segmented Timber Shells using Wood-wood Connections. |