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Master in Robotics & Advanced Construction

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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DRDA- Dynamic Robotic Design Activities

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MRAC-02 2024-2025

ABSTRACT Autonomous parametric furniture assembly using modular blocks and ROS-driven industrial robots promises to revolutionize on-demand manufacturing. In this work, we introduce DRDA (Dynamic Robotic Design Activities), a unified framework that seamlessly links customer-driven design to autonomous multi-robot execution. A user-defined geometry and style, which our custom block-selection and toolpath-generation engine converts into collision-free pick-and-place … Read more

Timber Syntax: A Computational Pipeline for Assembling Non-Homogeneous Timber

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MRAC-02 2024-2025

In the pursuit of a sustainable built environment, Timber Syntax demonstrates how reclaimed, non-homogeneous timber can be transformed into high-quality facade systems through a computational and robotic pipeline. Developed at the Institute for Advanced Architecture of Catalonia (IAAC), this project bridges waste reuse, advanced fabrication, and circular design to propose a new paradigm for timber … Read more

WORKSHOP 3.2 _ REFLECTION

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MRAC-01 2024-2025

“Precision becomes poetry through reflection and sound.” Reflection is an immersive installation that explores the potential of precision and reflection between two robotic arms through synchronized movements. Equipped with mirrors, the robots become both instruments and performers. Concept: The law of reflection The law of reflection states that the angle of incidence is equal to … Read more

Applied Theory III _ Un_Log Factory

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MRAC-01 2024-2025

INTRODUCTION In today’s construction industry, a large portion of timber is discarded due to its non-standard shape, curvature, or internal defects. Un_Log Factory challenges this paradigm by proposing a digitally augmented fabrication system that embraces the natural irregularity of timber. Instead of seeing bent or cracked logs as waste, our process redefines them as raw … Read more

Studio II_Anatomy of a System: RE_SHAPE

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MRAC-01 2024-2025

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

Scanning for Reconstruction: Non Planar 3D printing

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MRAC-01 2024-2025

Introduction In this exercise, our objective was to scan a physical object and use the acquired data to generate a toolpath for non-planar 3D printing. To achieve this, we integrated tools such as Grasshopper, Python, and ROS (Robot Operating System) and conducted multiple tests to optimize the scanning strategy and post-processing. Methodology To achieve non-planar … Read more

Rethinking the Skin

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MRAC-02 2024-2025

Carbon Based Design | Designing Circularity in the Built Environment Introduction The intensive five-day program centered on measuring the carbon footprint and investigating novel solutions for the upcoming IAAC building. The goal was to submit a solution that would reduce the carbon deposited in the building materials by 40 percent. To make things easier in the … Read more

ROBOT-ASSISTED WEAVING + RAW MATERIALS / MRAC Workshop 1.2

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MRAC-01 2024-2025

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