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.
In Software I, we explored computational logic with a focus on iterative processes. Using voxels (short for volume elements), we created collections of geometric elements using the Grasshopper and Anemone plugins. The goal of the seminar was to gain a deeper understanding of iterative processes and computational logic. Specifically, we focused on creating voxel-based shapes … Read more
Abstract The main objective of the Software I seminar was to engage in computational logics and growth assemblages using voxels as its main geometrical component. The logic utilizes algorithms and visual programming in Grasshopper and Loops using Anemone Plugin. By definition, an assemblage is the process of combining individual components or parts to generate a … Read more
This project revolved around utilising computational thinking and logical principles for crafting assembly and growth processes. This exploration involved using iterative algorithmic approaches, commencing with essential spatial building components. We have designed a few essential components in the form of voxels that served as fundamental computational units, having the capability to both store and process … Read more
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
