Particle Pavilion

Particle Pavilion

Project Description

Computational Form Finding

Particle Pavilion is a parametric structure that takes the extent of open space as a “container” and generates a particle-driven response based on given restraints. The use of swarm logic allows particles to self-organize and respond to the environment and other particles within their network given any site parameters.

The application of generative design allows for certain rules and parameters to be set where the design process can become more automated while still producing desired results.

The generation of swarm particles produce behaviors based on 4 rules: Move towards the position of neighbors, environmental constraints, steer to avoid neighbors, and move towards the heading of neighbors. Once the form is generated, the solar heat gain of the site is used to create an adaptive louvered system with aperture size contingent on the solar conditions along with the panel. As the panels get to become more shaded, the louvers open to allow more sunlight through as well as provide cover from precipitation.

Self-organizing systems can be used to generate unique and complex forms for use within many scales.

Ashley Vias

MSc Computational Methods in Architecture

My name is Ashley Vias. I am currently pursuing a Post-Graduate degree in Computational Methods in Architecture. I received my Bachelor of Architecture at Florida Atlantic University in Fort Lauderdale, Florida where my interest in Parametric and Computational design began. After getting my undergraduate degree, I worked at a residential Architecture firm in Miami, Florida that specialized in Tropical Modernist Single Family homes. This is what solidified my interest in Computational Design Methods that can be integrated into everyday practice.

Other work by Ashley