PUBLICATIONS
EVENTS
STUDENT WORK
Modelling Changes in Basal Area and Broadleaf Fraction in Swiss Forests Using Machine Learning
Dea Rieder, Bachelor thesis (2025)
Sustainable Construction in Switzerland: The Potential of Wood Reuse for Reducing Carbon Emissions
Leo Kieffer, Bachelor thesis (2025)
Transitioning towards a Circular (Bio)economy – An Analysis of the Barriers and Potentials for an enhanced Cascade Use of Wood in Switzerland
Valentin Tippmann, Master thesis (2024)
Understanding Complexity through Systems Approaches
Bachelor Integrated Practical (Spring 2024)
Understanding Complexity through Systems Approaches
Bachelor Integrated Practical (Spring 2025)
Assessing the Emission Reduction Potential of Wood Housing in Switzerland: A System Dynamics Model
Jennifer Ly, Bachelor thesis (2024)
Assessing the Climate Change Impacts of Wood Harvesting and Utilization from Swiss Forests
Luc Subal, Master thesis (2024)
Building and Material Stock Models in Life Cycle Assessment of Buildings
Sandro Lorenz, Master thesis (2023)
Hygrothermal Performance of Soil-Wood Chips and Soil-Sawdust Composites
Nick Beinz, Master thesis (2024)
Modelling Progressive Collapse of Timber Buildings and its Applications
Alex Cao, Doctoral thesis (2024)
Investigations of Collapse Resistance in Tall Timber Buildings
Alexandre Milliet, Master thesis (2022)
Investigations of Collapse Resistance in Tall Timber Buildings
Silvan Ullmann, Master thesis (2023)
Experimental Investigation of Glued Interfaces Between Timber Boards Adhesively Bonded to Carbon Fibre Plates
Sabrina Strub, Master thesis (2023)
Experimental Investigation of Catenary Action in CFRP Reinforced Glulam Beams
Pascal Oswald, Master thesis (2024)
Experimentally validated bending capacity models for strip-reinforced timber beams
The demand for timber in construction is rising, but sustainable supply of structural-grade timber is limited. Many available logs are currently underused due to mechanical uncertainties. Flexurally reinforced timber beams can increase material efficiency, allowing more timber to be used structurally while reducing overall timber volume.
Design method for roundwood construction using database of trees
As forests change and conifer availability declines, construction must adapt to use more irregular trees efficiently. This study proposes a tree-shape aware design method for roundwood construction, using scanned tree databases to match natural forms with structural needs.
Scaling the timber construction sector - Investigations in analyzing wood market scenarios in Switzerland
Wood’s renewability makes it a key material for sustainable construction, but scaling up has cross-sectoral impacts. This study investigates future wood market scenarios by considering the perspectives of stakeholders and potential clients to inform supply, demand, and acceptance of wood construction in Switzerland.