Algorithmic sculptures that evolve with environmental inputs through parametric design and generative algorithms.
Creating physical sculptures that respond to their environment in real-time while maintaining structural integrity and aesthetic coherence.
Developed algorithms that translate real-time data (temperature, light, sound) into parametric adjustments of 3D-printed geometric forms.
This sculpture adapts its geometric density based on ambient noise levels - denser patterns form in louder environments.
This version uses light sensors to transform its shape from convex to concave structures between 9AM-3PM daily.
Custom C++ algorithms using OpenSCAD integration for real-time parametric mesh generation.
Integrated environmental sensors for light, sound, and temperature measurement with real-time data streaming.
3D printed in thermoplastic elastomers, enabling dynamic morphing between rigid and flexible states.
Interactive light installations that transform urban spaces through augmented reality overlays.
View ProjectGenerative models that create adaptive fashion designs based on user behavior and style evolution.
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