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.
The construction industry has shown an increasing interest in adapting to more environmentally friendly materials, with wood gaining popularity as a natural and sustainable option for buildings. However, the wood industry contributes a significant percentage of energy consumption during the entire wood lifecycle, encompassing tree cutting, transportation to sawmills, and delivery to construction sites. Additionally, … 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
This project focuses on creating a workflow and a tool to automate the design process with irregular wood offcuts.
The state of the art shows our pursue to develop organic geometries using Hyperboloid as design geometry The design takes advantage of the offcuts grain to create a rigid waffle-like structure. Horizontal and vertical members and then connected through notches and screws to stiffen the system. The outer horizontal members of this grid present bark … Read more
The objective of this studio was to implement an automated robotic process for the efficient fabrication of modular cork blocks, essential components of a doubly curved acoustic surface. The key objectives encompassed the following: By addressing these objectives, the studio aimed to advance the field of robotic fabrication while emphasizing the acoustic potential of cork … Read more
