SELECTED PROJECTS

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Project

Reclaimed Design is a computational design-to-fabrication framework for reclaimed lumber that enables structural systems to be designed around the availability and properties of existing materials rather than standardized stock. By combining material analysis, machine learning, equilibrium-based structural design, and robotic fabrication, the project demonstrates how digital technologies can support circular construction practices and unlock new possibilities for timber reuse.

The project is my joint Mater thesis with Laura Marsillo and Gonzalo Muñoz Guerreo.

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Read more here

SELECTED PROJECTS

+

Project

Reclaimed Design is a computational design-to-fabrication framework for reclaimed lumber that enables structural systems to be designed around the availability and properties of existing materials rather than standardized stock. By combining material analysis, machine learning, equilibrium-based structural design, and robotic fabrication, the project demonstrates how digital technologies can support circular construction practices and unlock new possibilities for timber reuse.

The project is my joint Mater thesis with Laura Marsillo and Gonzalo Muñoz Guerreo.

arrow

Read more here

SELECTED PROJECTS

+

Reclaimed Design is a computational design-to-fabrication framework for reclaimed lumber that enables structural systems to be designed around the availability and properties of existing materials rather than standardized stock. By combining material analysis, machine learning, equilibrium-based structural design, and robotic fabrication, the project demonstrates how digital technologies can support circular construction practices and unlock new possibilities for timber reuse.

The project is my joint Mater thesis with Laura Marsillo and Gonzalo Muñoz Guerreo.

Project
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Read more here