Cellular Automata (CA) model for Belousov–Zhabotinsky (BZ) Reaction Diffusion system.
In BZ system non linear chemical oscillators give rise to pattern formation, large scale ordered patterns emerge from chaotic initial conditions.
The CA model gives rise to spiral waves patterns using only local interactions.
The periodic boundary conditions used in the CA gives a natural mapping on a torus.
Tag: cleannft
Reaction Diffusion
Cellular Automata (CA) model for Belousov–Zhabotinsky (BZ) Reaction Diffusion system.
In BZ system non linear chemical oscillators give rise to pattern formation, large scale ordered patterns emerge from chaotic initial conditions.
The CA model gives rise to spiral waves patterns using only local interactions.
https://objkt.com/asset/hicetnunc/591411
Noise Waves
Wave-like surfaces generated using Perlin noise and GLSL vertex shader.
The rendering is by means of a C++ program with openFrameworks toolkit.
Balloons in the Wind
Simulation of rising balloons whirling in the wind using particle systems and Perlin noise as source of stochastic motion.
The rendering is by means of a C++ program with openFrameworks toolkit.
Falling Petals in the Wind
Simulation of falling petals whirling in the wind using particle systems and Perlin noise as source of stochastic motion.
The rendering is by means of a C++ program with openFrameworks toolkit.
Spherical Harmonics
Spherical harmonics rendered as a surface using a parametric equation. Parameters variation in time with Perlin noise gives rise to the motion. The rendering is by means of a C++ program with openFrameworks toolkit.