WS12026MSc2
Workshop MSc 2 (2026): Interactive Furniture for Arctic Environments
The Interactive Architecture Prototypes (IAP) workshop focuses on skill building in Artificial Intelligence (AI) supported Design-to-Robotic-Production and -Operation (D2RP&O) methods for the development of architectural hybrid assemblies ranging from micro levels, as material systems, to meso and macro levels as building components and buildings. In this context, hybrid assemblies will be explored by designing and robotically producing and/ or operating a structure that consists of various components assembled into an integrated larger whole.
FRAMEWORK
The focus is on an extreme environment, Antarctica, where conditions include extremely cold, dry, and windy polar desert characterized by severe temperatures (ranging from -80 to -20), strong katabatic winds, minimal precipitation, and very low humidity; extreme light cycles with months of continuous daylight or darkness, high UV exposure, reduced oxygen levels. In this context the Norwegian research station in Antarctica, Troll, consisting of containers, is struggling with the limited space that confines activities and limits various and changing needs of inhabitants with respect to work, rest, and leisure. Furthermore, health is highly sensitive to lighting conditions because of their impact on the circadian rhythms, sleep, hormone cycles, visual performance, mood, and spatial orientation. Inadequate or poorly tuned lighting may impair alertness, mental health, immunity, and safety - making advanced, tunable, spectrum-controlled lighting systems essential.
APPROACH
In order to address these challenges, the design focuses on developing reconfigurable, interactive furniture with integrated AI-supported embedded lighting for the Troll station, which is basically a collection of containers connected to each other. The task will focus on 1-3 containers and their potential for spatial and environmental reconfiguration using a Voronoi-based approach and AI-assisted illumination method. Both, will be supported by hands-on tutorials and knowledge transfer from extraterrestrial to terrestrial environments and vice versa.
The tutorials focus on D2RP&O:
1. Voronoi-based D2RP
The container is fitted with Voronoi-based components that serve various 24/7 changing uses ranging from work to leisure and sleep. Considering that 2-6 users are inhabiting 1-3 containers of 6/2.5/2.5m each the challenge is to design a Voronoi-based reconfigurable furniture that has integrated LED lighting. Reconfiguration relies mainly on folding, with facets of the Voronoi-cells creating variable seating, lying down, working areas. The facets have integrated wiring and LEDs and are robotically 3D printed using D2RP methods and recycled plastic.
2. AI-supported D2RO
To simmmulate less extreme lighting conditions indoors, the weather map data from Delft, Netherlands is integrated with a synthetic dataset that links ambient illuminance and basic color temperature, i.e. correlated colour temperature (CCT) to several physiological responses. Key assumptions are that higher illuminance creates increased heart rate, decreased HRV, smaller pupil, lower blink rate, higher skin conductance and respiration, while cooler light induces minor HR increase, HRV decrease, while diurnal baseline rhythms create slight circadian HR variation.
Prior to the tutorial students are asked to have installed Python, Jupyter notebooks, and some common libraries including Scikit Learn: https://digipedia.tudelft.nl/tutorial/jupyter-notebook-installation-and-overview/?tab=chapter-0
The tutorial has limited discussion of the theory, hence, it is recommend to review content from the Computational Intelligence for Integrated Design site:
Probability and Statistics: https://digipedia.tudelft.nl/course/computational-intelligence-for-integrated-design/?tab=chapter-1
Supervised Learning, and Neural Networks: https://digipedia.tudelft.nl/course/computational-intelligence-for-integrated-design/?tab=chapter-4
Additional reading: Machine Learning: An introduction by Kevin P. Murphy
DELIVERABLES
COORDINATORS, TUTORS & ASSISTANTS
Henriette Bier, Arwin Hidding, Lisa-Marie Mueller & Vera Laszlo
STUDENTS
Group 1
Group 2
Group 3
Group 4
Group 5
Group 6
Group 7
DOCUMENTS
Schedule: https://docs.google.com/spreadsheets/d/1wdQEvPvv7gUu-ZV9XkEZfpRcdz9t13LKzSTBah937-0/edit
Brief: https://docs.google.com/document/d/1lwgkOkwLq_MkuHcLVb7TmrxsUspAnb1R3pm0jOyIj8c/edit
Student list: https://docs.google.com/spreadsheets/d/1AOVUd0Er4L60kd4_d7-1HiplAooonuL7gRpy7-E8srU/edit
REFERENCES
