Physical Manifestations of Invisible Forces:
My graduate thesis project which uses environmental parametrics as input for emergent morphological development. This project explores the emergence of tectonic systems through the simulation of fluid & thermodynamic forces simulation modeled after seasonal climate data.
This project uses fluid & thermo-dynamic simulation to challenge traditional legal & public boundaries, while informing the development of tectonic architectural systems that exploit stochastic climate change. By setting up a simulation environment that using annual prevailing wind speed & temperature data within a the confines of the property line and the required building cores as obstacles the natural flow of air speed & temperature creates complex fluid geometry with inherent logics drawn from their behavioral interactions.
By choreographing the stochastic nature of fluid & thermo-dynamic systems within a simple geometric simulation environment complex geometries emerge. These morphological behaviors give rise to geometric, programmatic & tectonic systems that feed from and respond to the environment in which it lies. Active mechanical systems expand & contract, open & close, in response to the shifting wind and temperature patterns within a choreographed stochastic mechanical & architectural system response.
COMING SOON
SCI-Arc Undergraduate Thesis & Spring Show
Project featured: variable material & transformations
]]>* Featured in the SCI-Arc 2010 Spring Show
adaptive material behavior logics within a robotic fabrication feedback loop analyzing adaptive material behavior logics within a robotic fabrication feedback loop analyzing adaptive material behavior logics within a robotic fabrication feedback loop analyzing adaptive material behavior logics within a robotic fabrication feedback loop analyzing adaptive material behavior logics within a robotic fabrication feedback loop analyzing adaptive material behavior logics within a robotic fabrication feedback loop towards material centric construction processing variable material which creates hybridized material ecologies that infrom new material centric construction processing variable material which creates hybridized material ecologies that infrom new material centric construction processing variable material which creates hybridized material ecologies that infrom new material centric construction processing variable material which creates hybridized material ecologies that infrom new material centric construction processing variable material which creates hybridized material ecologies that infrom new material centric construction processing variable material which creates hybridized material ecologies that infrom new material centric construction processing variable material which creates hybridized material ecologies that infrom new material centric construction processing variable material which creates hybridized material ecologies
project: Foley & Lardner
]]>Morphodynamic generation of structural membrane system logics for output to fiber strand layup via robotic fabrication.
Path length analysis algorithm:
Particle motion paths are analylized & sorted
by length into five fiber strand categories
using a grasshopper defintion. Each fiber
strand category varies in length and thickness
creating an emergent material logic based on
particle velocity.
Morphodynamic generation of structural membrane system logics for output to fiber strand layup via robotic fabrication.
Robotic fabrication cell design.
Massive scale lightweight pneumatic structure & membrane system.