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.
Introduction As part of the workshop led by Javier Fuentes and Moritz Dörstelmann the Chair of Digital Design and Fabrication (DDF) at the Karlsruhe Institute for Technology (KIT), our team explored the potential of willow as an innovative material in architecture. This project merges sustainability, advanced design, and robotic technology to develop breathable and adaptive … Read more
Cork-based 3d printing – Topological Optimisation Design Introduction The seminar invites students to explore new materials, additive processes and new fields of applications through robotic 3d printing taking advantage of the potential of the 6-axes of the robotic arm. Context Recently we have clearly observed immense changes in architectural design development. Architecture has been influenced … Read more
Computational Design for Digital and Robotic Fabrication Introduction The Software I module served as our introduction to understanding how designs produced on the computer translate into fabrication strategies that can be used by a robotic arms in various ways. The seminar was broken up into four exercises, each exercise involved a specific robotic operation and … Read more
Abstract: The ReWeave project develops a robotic system to repurpose construction and demolition (C&D) waste into functional, attractive walls, enhancing human-robot collaboration. We created a database by scanning broken tiles to extract shape, size, and color information, then developed custom nesting algorithms to optimize tile arrangement. The workflow includes scanning tiles, exporting outlines via ROS, … Read more
INTRO This study investigates innovative joinery solutions for modular evaporative cooling systems using 3D printed clay. With the rising global temperatures and subsequent increased demand for energy-consuming air conditioning systems, there is a crucial need for sustainable cooling alternatives. The research focuses on addressing the challenges of material shrinkage and joinery reliability in 3D printed … Read more
SUSTAINABLE SOLUTIONS FOR BESPOKE ACOUSTIC DIFFUSER DESIGN A considerable amount of construction and wood waste is generated each year, mostly landfilled or burned for energy, contributing to severe environmental effects. The management of this waste is a significant challenge as it is often not suitable for secondary use. In this context, the circular economy concept … Read more
State of the Art and Minimum Value Proposition There is an overstocking of small to medium trees over Europe due to poor firing and soil cultivation conditions, most of this trees have the diameter of 10-25 cm and depending on the species and cultivation conditions some of then are crooked and can’t be used by … Read more
नमस्ते – مرحبًا – OLÁ – HOLÁ AIM Our aim is to make Human Robot Collaboration accessible to a variety of users via different languages by developing a speech to toolpath interface. RELEVANCE METHOD Workflow As the participant enters the room, they are greeted by a robot with a friendly waving motion. The participant can … Read more
This project explores a framework for Human-Robot Collaboration (HRC) and behavioural fabrication, focusing on constructing a Jenga-like tower using small timber blocks. Using the Agent-Based Modeling system (ABxM) from the Institute for Computational Design and Construction (ICD), a communication network was established integrating a human participant, a computer vision system, and an interactive audio interface. … Read more
The aim of this Seminar was to imagine a scenario where the Studio Project could be imagined on an industry floor with full automation. In order to understand the workflow and position of each station to fabricate a facade made from raw edge sticks an an agent based system was sketched as diagrams in order … Read more
Working in 3D CAD environments can be restrictive. While most CAD software provides tools for creating shapes and generating ideas, they often rely on a mouse and keyboard, or are very expensive. “Shape it, Feel it” investigates opportunities to generate shapes using a computer’s webcam and hand gestures. We utilize cheap and readily available hardware … Read more
Aim “Create a range of robotic mini-games showcasing dexterity and quick reflexes, ideal for casual enjoyment.“ For this one week workshop, we drew inspiration from various games such as infinite passes, penalty shootouts, and boxing, aiming to adapt them for robotic play. Initially leaning towards infinite passes (football), we ultimately found boxing more compatible with … Read more
At the workshop led by Madeline Gannon, we had the chance to delve into robotic movement, prioritizing creative freedom over conventional targets like accuracy and repeatability. The workshop was designed as a breeding ground for creativity, facilitated by software components that allowed exploration without the constraints of a kinematic solver. Given the project’s one-week duration … 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 explore innovative parametric tiling designs through the utilization of robotic tiling setups. The project aim is to utilize the functions of COMPAS framework and its extensions for robotic planning. Also, to incorporate computer vision and scanning information into the tiling process to enhance precision and efficiency. Design Logic Inspired by the idea of … Read more
AIM DESIGN The three distinct design methodologies we explored employed grayscale image mapping, where the gray areas functioned as attractors and filters for colored circles. Our second experiment focused on employing curves as generators for the spatial arrangement and packing of a variety of larger circles. The third methodology extended our exploration to the incorporation … Read more
