Hrushikesh Shah
LEED AP BD+C
LEED AP BD+C Workflow
By leveraging advanced computational techniques, the design achieves a seamless transition of geometric patterns, highlighting the interplay between algorithmic precision and aesthetic appeal. This piece demonstrates the transformative potential of digital tools in modern design, allowing for the creation of intricate and dynamic visual experiences. It stands as a testament to the fusion of technology and creativity, showcasing how parametric design can produce both visually captivating and mathematically rigorous results. This visualization not only captures the viewer's attention with its vibrant colors and evolving forms but also underscores the innovative capabilities inherent in computational design methodologies.
Parameters
Matrix Size
Density
Shape Distance
Shape sides
Shape Color
Shape Rotation
Shape Size
Attractor Point Trajectory
Color Gradient
Speed of change
Key Concepts
Attractor Point
The attractor point can be extensively applied to projects requiring dynamic elements. In three dimensions, it could be used as sun which can guide the movement of shading elements
Vectors and proximity
The attractor point requires a fundamental understanding of vectors and Proximity The distance from the attractor point is the key dataset resulting in dynamic movement.
Script
