A selection of computational systems designed to structure, automate and optimize complex technical environments across medical, architectural and fabrication domains.
Medical
Computational system for generating patient-specific subperiosteal implants from CT data. The workflow integrates anatomical reconstruction, parametric modeling and automated generation of STL geometries ready for additive manufacturing.
View case study >Medical
Computational system for planning cardiac occluder interventions using CT-derived anatomical models. The workflow generates patient-specific 3D models and simulation environments to support device sizing and preoperative evaluation.
View case study >BIM
Computational system for studying deployable spherical structures through parametric modeling and physics-based simulations, combining digital analysis with physical prototyping.
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Computational system for analyzing and fabricating deployable structures through parametric modeling, kinematic simulation and hybrid digital fabrication.
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Rule-based computational system for generating and evaluating housing configurations through parametric modeling and spatial logic.
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Computational workflow for designing and rationalizing a faceted façade through parametric modeling and fabrication-aware geometry.
View case study >Fabrication
Computational system for automating the design-to-fabrication workflow of modular kitchen furniture. The workflow converts configuration data into parametric cabinet components and optimized CNC cutting layouts.
View case study >Fabrication
Computational system for generating continuous furniture surfaces through parametric modeling and fabrication-aware panelization.
View case study >Fabrication
Computational system that converts recorded sound waveforms into parametric drawings for digital fabrication. The workflow analyzes acoustic signals and transforms their wave patterns into geometries produced through CNC machines.
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