Triglu is a pendant luminaire developed through computational design methods and digital fabrication workflows.
The design is based on a custom triangulated geometry generated using parametric algorithms. Unlike traditional geodesic structures, every triangular panel is individually defined, creating a unique surface pattern while maintaining overall geometric coherence.
The project explored how computational design can be translated into a manufacturable lighting product using lightweight composite aluminum panels and standard lighting components.
The development process covered the entire workflow:
parametric design and geometry generation;
digital prototyping;
fabrication studies;
production detailing;
lighting integration.
The modular construction allows the luminaire to be produced in various sizes while preserving its geometric logic and visual identity. The lightweight shell enables large-scale installations without excessive structural load.
Originally conceived for residential interiors, the concept can also be adapted for hospitality, retail, public spaces and architectural installations.
Project Information
Project: Triglu Parametric Luminaire
Role: Designer, Computational Designer, Lighting Designer
Tools: Rhino, Grasshopper, 3ds Max
Year: 2015
Type: Product Design Concept
Materials: Composite Aluminum Panels
Topics: Computational Design, Lighting Design, Digital Fabrication
