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.


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ROBOT-ASSISTED WEAVING + RAW MATERIALS / MRAC Workshop 1.2

Team member(s): Govind Chithrath, Santosh Shenbagamoorthy, Krystyn Kontos  , Aleksandra Kraeva and Lauren DemingModified by Lauren Deming on November 24, 2024 Ultimately, the goal is to develop more efficient means for harvesting and utilizing low-carbon footprint alternatives for construction. Course Objective Project Abstract Autonomous Weaving with Raw Materials explores the intersection between weaving automation and the use of raw materials. After analyzing … Read more

Manifesto for Robotics in Construction Tailored Policies and Protocols for Diverse Environments

Inspired by Jordi’s Masterclass at IAAC, where he shared his experiences in robotic business and scope exploration, we’ve crafted our manifesto. This document reflects the significant insights he shared, particularly concerning entrepreneurship and startup endeavors in the construction industry. Shaping our collaborative journey into the intersection of design, technology, and construction, this manifesto outlines tailored … Read more

STICKS SYSTEMS

Our Aim Is To Design a Robotic Manufacturing System using Wood Offcuts for Prefabricated and Customized Self Shading Facades CONTEXT In the realm of mass timber production, a staggering 40% of a wooden log goes to waste, with an additional 25% arising from trimming and edging processes. Despite this substantial waste, innovative approaches have emerged … Read more

Code Cargo

Physical Prototype of Code-Cargo

Brief Intending to improve productivity, our focus fell upon the constraints of robot arms. The bounding area of limitation is a reoccurring issue when working with machines, as the area of reach is defined by the physical limitations of the physical components. In this blog, we investigate a solution to increase the range reach for … Read more

Side Table

Exploring the Intersection of Subtractive and Additive Manufacturing In the pursuit of challenging manufacturing norms and pushing the boundaries of creativity, our team delved into the intricate world of stack lamination during the recent workshop. Focused on creating functional and visually stunning furniture pieces for a potential cafeteria in Barcelona, our journey unfolded through three … Read more

Visualising Genres: Investigating the Combination of Acoustics and Art in Multi-Material 3D Printed Walls

Brief Our curiosity brought us to an intriguing investigation at the nexus of technology, craftsmanship, and acoustics in the quest to elevate spatial design. This blog shares the story of our journey, where we used a cutting-edge multi-material 3D printing technique to produce personalized sound-diffusing walls—a first for the industry. Our concept began with a … Read more

Biomorphic Stacking

This project explores the computational logic and thinking to design an iterative growth algorithm that enforces specific filters and rules of selection to inform the assemblage of simple building blocks.In Grasshopper the Anemone plug-in is used as the tool to iterate over the computational logic, informing how the geometry will behave within the digital environment … Read more

Computational Logic for Generative Design

The project focuses on generative assemblies comprised of multiple identical modules. It is crucial to design the shape of the components and the connection points between each of them, as well as not to add occlusions. Components will grow randomly depending on the shape as well as the location of the connection points. The design … Read more

Context aware AM: Research Thesis

This research thesis seeks for an opportunity to introduce specific human actions in the additive manufacturing robotic process to generate custom and adaptive fabrication flows based on local needs and conditions and set in a cyber-physical working environment that will scan and verify the results before and after every intervention. 1. Framework According to UN, … Read more