The Master Programme in Robotics and Advanced Construction is an innovative educational format that offers interdisciplinary skills and understanding through a series of class seminars that are put into practice through hands-on workshops. IAAC gives students the opportunity to create individual studio agendas and develop Pilot Thesis Projects based on the knowledge acquired during the seminars and workshops split into 3 Modules. In this way, IAAC puts together an experimental learning environment for the training of professionals with both theoretical and practical responses to the increasing complexity of the construction sector.
‘Urban Sensing Begins: The City Meets Its Beacons’ PLACEMENT — The Sensing GroundThe first beacons are placed along the park’s circulation spine silent observers that begin listening to the city’s rhythm. Sound, motion, and presence data start forming an invisible map of human interaction.At this stage, the system is not reactive, it’s learning.It introduces itself … Read more
The massage chair is an experiment in digital fabrication and hybrid workflows, using computational design, CNC milling, 6-axis robotic milling, and human assembly and finishing, to understand how different subtractive manufacturing processes can be combined to balance speed, precision, and material expression in digital fabrication. Materials Tools Used Early Designs Early explorations of designs in … Read more
The Nidra Chair was developed within the framework of Workshop 1.1, where we explored robotic milling using the KUKA robotic arm. The design process was guided by a set of conceptual ideas—texture, nest, wings, and storage—which shaped the formal and tactile language of the piece. Inspired by notions of protection, warmth, and well-being, Nidra seeks … Read more
Abstract: The Elephant Chair project was developed during the workshop “Robotic Milling and Design for Subtractive Manufacturing Workflows.”This workshop explored hybrid fabrication methods combining 3-axis CNC milling and 6-axis robotic milling to translate digital geometries into precise wooden prototypes. Our team designed and fabricated a furniture piece inspired by organic anatomy, robust yet flexible, mirroring the mechanical elegance of the machines used … Read more
Hybrid Timber and Stone Constrcuction System Utilisng 6-axis Robotic Fabriction Our research begins with a critique of how we build today. Technological advancements have enabled rapid, standardized, and seemingly affordable construction. But these efficiencies hide deeper costs. In reality, we’re paying through the loss of cultural specificity, environmental integrity, and material identity. What emerges is … Read more
The Challenge Traditional industrial robot software emphasizes reliability, precision, and repeatability. This approach can make the human-robot collaborations feel uncreative and non-engaging. Robots must by dynamic and engaging to thrive in a human-centered environment. The Solution The Overview Inverse Kinematics Using Inverse kinematics to orchestrate joint rotations, and constructing smooth mathematical functions that are composed … 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
This project comprises of 5 rapid prototypes developed over the course of 3 weeks. Each prototype is developed with a focus on a material and a process. These investigations were a means of developing the skillset of rapidly developing a robotic process and simultaneously became the palette from which we select our research lines for … 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
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
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
Leveraging Computer Vision for Sustainable Design with dimensional waste timber Building upon the established design principles of disassembly explored in the prior semester, Timber Narratives this semester investigated the potential of computer vision and image analytics to further optimize material conditioning and manufacturing processes for dimensional waste timber. This iterative approach aimed to integrate data-driven … Read more
State of the Art Raw Timber and AEC Industry Wood waste is often disregarded in the wood industry and the construction industry. Majority of wood used in construction is sawn and processed wood that not only generates waste on its production but it is also associated with high CO2 emissions, because of the embodied energy … 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
This project documents a 1-week workshop that introduced students to the COMPAS framework. Our goal was to design a tile mosaic that would be part of a collaborative pick-and-place workflow with the UR5, incorporating COMPAS Fab, Kangaroo (Grasshopper), and ROS. What is COMPAS? Utilizing the COMPAS framework developed by Gramazio Kohler Research and the larger … Read more
