Interior Rendering


Advanced Computing Fall 2015
Duration: 6 Weeks
Collaborators: Alex LaFerla & Milton Naula
Critics: Jonathan Scelsa

For this project, we were to design a canopy installation for the ground floor gallery space of the Spitzer School of Architecture at City College of New York based on a geometry given to us. Our given geometry was the hyperbolic paraboloid.

Our goal was to utilize the hyperbolic paraboloid’s natural shape for structure, light, and sound within the canopy space, and to make the physical units capable of being assembled by anyone to assist with the fabrication process. The overall scheme features 4 inverted hyperbolic paraboloid passages that lead to a larger, hyperbolic paraboloid assembly space. The 4 passages serve as galleries and critique spaces alike. The natural negative gaussian curvature of the form helps it to be self structural. Thus, once constructed, the canopies stand on their own without any secondary posts or ties. The coffering of each unit is used to bounce the sounds and amplify noise within the spaces for critiques, lectures, etc. The varying size openings are intended to allow different levels of natural light into the spaces.

Each unit was designed to be laser cut from museum board, or a material of similar malleability, and attached together using brass paper fasteners. This simplifies fabrication of the units and assembly of the canopy for the workers constructing it.

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  • Interior Rendering
  • Interior Rendering
  • Gallery Plan
  • Light Diagram
  • Sound Diagram
  • Diagram A
  • Diagram B
  • Diagram C
  • Diagram D
  • Diagram E
  • Diagram F
  • Final 1/8" Model
  • Final 1/8" Model
  • Final Detail Model
  • Final Detail Model
  • Final Detail Model