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.
XX WS3.1 XX How can we compress the soul of a 3D object into a few pixels?Kapla Kadabra explores the magic of encoding geometry into 2D data structures – and bringing it back to life. XXXXXXXXXXXX AIM XXXXXXXXXXXX This project explores a lightweight method to encode and decode 3D geometries into pixel matrices. Instead of … Read more
Introduction In the face of the growing demand for sustainable construction, the integration of renewable materials with advanced fabrication techniques is essential for creating adaptable and efficient structures. Our team developed Terraweave, a project that combines willow and earth to create hybrid building components. By leveraging the natural properties of willow for flexibility and earth … Read more
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
Introduction In a world where natural resources are increasingly scarce, the construction industry faces a crucial challenge: reducing material waste and maximizing the use of available resources. Wood, a traditionally used construction material, is at the center of this issue. Every year, millions of tons of wood are discarded or underutilized due to its irregular … 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
Workflow for Detection (Transformation to the Real World) Test for getting the points in real world Workflow for Detection (Getting points into the Trajectory) Test for getting the points in real world Workflow for Detection (Processing on Point Cloud) Test for getting the points in real world Machina Connection for ABB_6700 (Simulation)
For this term experiments and tests were conducted for the evaluation markers of the biocomposite of PLA with different charges of Cacau Seed Shell and the Fabrication performances of each biocomposite charges. Tests on mechanical perfomances such as Tensile Strenght, Flexural Stress and Izod Impact were conducted. Compostability tests were also setup in the range … Read more
As businesses evolve in the 21st century, success is no longer measured by profit alone. Today, organizations are expected to create meaningful value for people, the planet, and the broader economy. The Sustainable Business Canvas is a strategic tool that helps businesses embed sustainability at the core of their operations by assessing not just economic … Read more
Digital Transformation of Discarded Logs for Structural and Design Applications Re_Shape is a design and innovation project that addresses a major blind spot in the forestry industry: the waste of tree trunks that are curved, bifurcated, or otherwise irregular and therefore excluded from traditional processing systems. These logs are typically downgraded into low-value products like … Read more
Introduction In the face of increasing climate-related disasters, accurate and efficient scanning methods are essential for assessing structural integrity. Our team developed a robotic scanning solution that utilizes LiDAR-based Husky A200 and drone photogrammetry to detect roof anomalies, such as holes and structural weaknesses.This study explores different scanning methodologies and evaluates their effectiveness in detecting … Read more
Mobile Robotic Scanning & Discrete Element Analysis This workshop served as an introduction to mobile robotics for scanning. We explored various types of mobile robots and different kinds of sensors, focusing on how they integrate with one another to enable diverse scanning approaches. Based on these investigations, we designed a specific scanning methodology suited to … Read more
Github : https://github.com/j-albo/robotic-3d-space-analysis INTRODUCTION Scanning irregular terrains with today’s scanning technology is crucial for obtaining precise environmental models, optimizing planning and execution in architectural projects. Its high-resolution capture capability allows for mapping complex surfaces and detecting floor level variations imperceptible to the human eye, improving efficiency and reducing errors in design and construction. WHY USING A MOBILE … Read more
ROS-Based UR Scan ApproachUR10e Reconstruction: Integrating Robotics, 3D Scanning, and Precision Fabrication This post presents the UR10e Industrial Reconstruction Controller, developed for the MRAC24/25 program at IAAC. Our team—Santosh Prabhu, Nacho Monereo, and Neil Trouw—has built a system architecture that synchronizes a UR10e robot, depth sensors, and a Dockerized ROS environment to capture and reconstruct … Read more
