A transdisciplinary strategy in structural design and digital structure of timber constructions with superior manufacturing workflow.
Authors: Prof. Dr. Yves Weinand, Dr. Aryan Rezaei Rad, Dr. Petras Vestartas.
The MOOC will introduce its viewers to the event of a set of computational instruments for geometry processing, mesh and community processing, computer-aided structural engineering design, and digital fabrication. The intention is to introduce a educating module that systematically transfers each educational findings and industrial experience to the skilled society. It additionally covers technological developments in superior timber development and real-world functions. The latter, particularly, may very well be inspiring not just for graduate college students but in addition for skilled engineers and designers.
The proposed MOOC intends to foster a trans-disciplinary design strategy in Structure, Engineering, and Building (AEC) for timber constructions. It outlines an revolutionary and sustainable methodology with examples from latest development tasks. The first improvement purpose for this MOOC is to unfold the revolutionary design strategy in AEC we developed at EPFL. Subsequently, the MOOC outcomes from the compilation of 5 doctoral theses, research-industry expertise switch with our {industry} accomplice, and a flagship structural system with has been constructed. Accordingly, it is going to be helpful for not solely graduate college students but in addition industrial professionals and civil engineering, structure, and development society.
What you will study
- Technological developments in timber development.
- Modern timber development within the Structure, Engineering, and Building (AEC) sector.
- A structural design methodology for spatial timber shellsAlgorithmic-aided structural design.
- Joinery era utilizing Joinery Solver Algorithm
- International geometry era algorithm.
- Case research, real-world functions, and flagship large-scale timber constructions.
- Introduction to superior timber development
- Case research in superior timber plate constructions
- Superior timber development and large-scale constructions
- Digital structure and superior geometry processing
- Engineering design and simulation strategies in timber plate constructions
- Optimization strategies