Inverse Kinematics (‘bones’) were used to generate this array in order to maintain a dynamic coherence in the system. The lattice performs simultaneously as primary structure and mechanical infrastructure: filled with water, the array of struts creates a massive heat-exchange system-- a three-dimensional radiator-- capable of heating and cooling the space without the use of forced air. Struts also evolve locally into stairs, bridges, and secondary propping elements.
The design process involved generating hundreds of iterations of the the array and subjecting each to structural loading analysis. Those iterations deemed structurally ‘fit’ were bred with each other, generating even more complex and evolved mutations.
This project is part of our continuing research in designing buildings which evolve, converge, and operate ecologically in the broadest sense. Connectivity, for us, is not only an electrical or cultural phenomenon, but rather a basic natural force which is the baseline for any kind of material ‘intelligence’.
This proposal for Vitra is based on the concept of a monocoque structure, where hierarchical orders of skins, beams, columns, ducts, and passageways collapse into a three-dimensional latticework defined by its coherent morphology. As opposed to the Radiant Hydronic House, which is based on the flexible, adaptive surfaces as the operative medium, the Lattice House is a multidirectional array in space with an exceptional range of motion and adaptibility.
Inverse Kinematics (‘bones’) were used to generate this array in order to maintain a dynamic coherence in the system. The lattice performs simultaneously as primary structure and mechanical infrastructure: filled with water, the array of struts creates a massive heat-exchange system-- a three-dimensional radiator-- capable of heating and cooling the space without the use of forced air. Struts also evolve locally into stairs, bridges, and secondary propping elements.
The design process involved generating hundreds of iterations of the the array and subjecting each to structural loading analysis. Those iterations deemed structurally ‘fit’ were bred with each other, generating even more complex and evolved mutations.
This project is part of our continuing research in designing buildings which evolve, converge, and operate ecologically in the broadest sense. Connectivity, for us, is not only an electrical or cultural phenomenon, but rather a basic natural force which is the baseline for any kind of material ‘intelligence’.
LATTICE
HOUSE Los Angeles, 2005 Building Type - House prototype with monocoque structure Office - EMERGENT Principal - Tom Wiscombe Associate - Mona Marbach Project Team - Jan Fischer, Beau Trincia, Alex Jackson, Dennis Milam, Greg Williams, Timo Carl Structural - Derrick Roorda, DeSimone Consulting Engineers, NY Status - In planning http://www.emergentarchitecture.com/projects.php?id=8 |