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.
An Intersectional Investigation Robotics is the field of study focused on the research and application of robotic systems. This definition, however, doesn’t provide much insight. So, what is a robot? Robots are machines that can operate autonomously or through programmed input to perform specific tasks, often replacing human effort. These tasks are typically complex and … Read more
Supply Chain Opportunity to Solve The immense volume of organic waste generated by Brazil’s agricultural and food industries, including residues from cocoa, açaí, Brazil nuts, passion fruit, cupuaçu, buriti, and murumuru, represents a significant untapped resource. These byproducts, often discarded without proper utilization, contribute to environmental challenges and economic losses. Many of the companies highlighted, … Read more
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
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
Introduction This seminar invites students to explore making custom made spillers controlled by Arduino and a 6-axes robotic arm in order to paint spills on canvas with black acrylic paint. Context Recently we have clearly observed immense changes in production, prototyping, and innovation that has been influenced by open source software, firmware and hardware. Human … 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
Team member(s):zeyu chao, Elizabeth.frias.martinez,Chi.Lee 3Dprint pavilion Introduction This project explores the large-scale robotic clay printing of a pavilion, with the geometry divided into four equal segments. The chosen geometry, Segment 1, was further developed into modular units to optimize the construction process. The modular approach allows for efficient fabrication and assembly, enhancing the structural and … Read more
The Software-I seminar introduces computational design strategies for robotic fabrication, focusing on the software aspects of these processes. The following exercises cover different manufacturing strategies that translate digital models into buildable forms through precise toolpath development and simulation. These include an end-to-end process from conceptual design to the generation of fabrication files for robotic systems, … Read more
Aim To develop a modular system for seamless automated assembly and disassembly, specifically tailored for the reclamation and repurposing of planar, semi-standardized waste materials ,and also to foster circularity by maximizing resource efficiency and ensuring a sustainable end-of-life use for products within the system. Context State of the art Methodology Assembly and disassembly process by … Read more
Context Is additive manufacturing going to change the way we fabricate? Certainly it is, additive manufacturing has an immense growth potential with a 22% annual growth as it has offers mass customization and reduced waste. One of the challenges in additive manufacturing is to improve the precision and reliability of the manufacturing process. This can … Read more
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
Mechanical Inserts for 3D printed Clay Due to land scarcity, the construction industry pushes architecture to shift its focus towards the entire life cycle of the final construction, considering its various phases, from its sourced material and manufacture, to its utilization and eventual end of life. Minimizing material usage and construction time has provoked the … Read more
Rapid urbanization demands more efficient construction methods: Labor shortage in the construction industry: It is important to note the type of machinery being used by these two companies for 3D printing. Tvasta uses a robotic arm equipped with an extruder for printing concrete and L&T uses a gantry system, which is a big framework inside … Read more
The objective of this project is to expand the capabilities of specific robotic processes in additive manufacturing, known as impact printing, Impact Printing, a novel additive manufacturing Robotic technique that consolidates pliable soft particles through a robotic shooting process. The cohesion among these soft particles arises from the conversion of kinetic energy, acquired during acceleration, … Read more
PROJESCT INTRODUCTION This project is a robot end-effector solution that can carry multiple objects and rotate them at different angles and displacements during a single pick and place motion. The solution solves the efficiency problem of current robotics applications in architectural masonry by outputting the robot’s spatial motion through a grasshopper and picking and placing … Read more
The primary goal of this project is to design and fabricate a custom end-effector that can be attached to an ABB robot. The system that our group decided to explore involves the idea of utilizing an airbrush and robotically controlling it. This system will utilize a Raspberry Pi Pico for control and Grasshopper for generating … Read more
Stack Lamination: Exploring the Intersection of Subtractive and Additive Manufacturing Brief: This workshop was conceived with the aim of familiarizing participants with the procedural intricacies of Stack Lamination milling, employing an Industrial KUKA robot arm. The methodology encompassed the integration of both digital and conventional fabrication approaches. We engaged in practical applications of 3-axis CNC … Read more
During this one week workshop we explored the combination of stack lamination and 5 axis robotic milling for the speculative production of furniture for the new IAAC cafe. As a group we conceptualized and developed 3 items of furniture that could be produced using stack lamination. Each design was rationalized to make use of a … Read more
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
The emergence of additive manufacturing has expanded the horizon for developing designs that are not only more environmentally sustainable but also commercially viable, addressing critical issues in our surroundings. In the field of architecture, multi-material 3D printing opens up a compelling opportunity to imbue intelligence into the surfaces of our built environment by thoughtfully selecting … Read more
State of the Art In the quest for sustainable and energy-efficient cooling solutions, the TerraCool project endeavors to harness the natural properties of clay through the innovative application of multi-material 3D printing technology. This research project aims to develop an advanced evaporative cooling system utilizing seashell ceramic. “TerraCool” is not only a testament to the … Read more
State Of The Art Utilization of robotics within the additive manufacturing world is becoming more and more standardized as the needs of people and the environment are changing. The construction industry itself has to produce more efficient structures with very little to no waste, and the capabilities of robots to do this are very apparent. … Read more
Additive manufacturing has opened up a vast array of possibilities to the creation of more sustainable but also salable designs that can address critical issues in our environment. In the context of architecture, multi-material 3D printing opens the door for an opportunity to embed intelligence into the surfaces in our built environment through material selection … Read more
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
