The Master in Robotics and Advanced Construction (MRAC) seeks to train a new generation of interdisciplinary professionals who are capable of facing our growing need for a more sustainable and optimised construction ecosystem. The Master is focused on the emerging design and market opportunities arising from novel robotic and advanced manufacturing systems.
Through a mixture of seminars, workshops, and studio projects, the master programme challenges the traditional processes in the Construction Sector. It investigates how advances in robotics and digital fabrication tools change the way we build and develop processes and design tools for such new production methods.
In an era dominated by concrete and steel, the Sticks & Stones project revisits the architectural potential of stone and timber—materials with a rich historical legacy—through the precision of robotic fabrication. This initiative sought to develop a reversible, precise architectural system that bridges traditional craftsmanship with advanced digital tools. By tackling the challenges of natural … Read more
Robotic Fabrication of Friction-Based Timber Joinery: Burr Puzzle Assembly This research explores robotic assembly of friction-based interlocking timber joints using the burr puzzle as a case study. The puzzle’s tight tolerances and sequential assembly pose challenges. Through modeling and robotic execution, the study shows that while a single-robot approach is feasible, dual robots are necessary … Read more
Leveraging Computer Vision for Sustainable Design with dimensional waste timber Building upon the established design principles of disassembly explored in the prior semester, Timber Narratives this semester investigated the potential of computer vision and image analytics to further optimize material conditioning and manufacturing processes for dimensional waste timber. This iterative approach aimed to integrate data-driven … Read more
The Context Aim State Of The Art The Workflow System Architecture Robotic Cell Scanning – Robotic cell Scanning Nesting – Initial Experiments Nesting Custom logic Iteration A Nesting Custom logic Iteration B Binder – Geopolymer with alkaline activators – Sodium silicate Binder – Geopolymer with alkaline activators – Sodium silicate and Sodium hydroxide Binder – … Read more
AIM \\ To create custom designed, 3D printed interior surface cladding, constructed of individual components with high quality surface finish and tolerance. CONTEXT \\ Last term we designed a dual end effector that would have an extruder and a wire cutter within the same tool, allowing us to post process the 3D printed pieces to … Read more
The efficient utilization of forestry products plays a vital role in sustaining industries such as construction and furniture manufacturing. To meet the demands of mass production, raw materials undergo a process of standardization, enabling streamlined operations and increased output. However, this standardization process results in the generation of valuable by-products such as planar offcuts. These … Read more
