a collection of computational playthings.
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Updated
Jan 29, 2020 - JavaScript
a collection of computational playthings.
Artificial life. Particles driven by neural networks, fighting on a grid and evolving through genetic algorithms.
Artificial life. Particles driven by cellular automata, fighting on a grid and evolving through genetic algorithms.
Inner Self is an AI Dungeon mod that grants memory, goals, secrets, planning, and self-reflection capabilities to the characters living in your story!
An interactive experiment exploring the boundary between interference and fractal patterns in an iterative convolution system.
DigitalOrganism is an interactive, visually captivating cellular automaton simulation that explores the fascinating world of emergent patterns and complexity. This project, inspired by Multiple Neighborhood Cellular Automata.
Implementation of the Boids algorithm in JavaScript
A VGA-style browser observatory for emergent fish ecology. Watch autonomous fish navigate currents, shelter, food pressure, and seeded habitats inside a bounded tank.
A browser-based sandbox for exploring emergent intelligence in swarms of reinforcement learning agents, featuring interactive participation, dynamic ecology, and Turing Complete integration.
AXON: Agentic [AI] eXploratory + Observational Network
a second attempt at flocking simulation using an actual steering algorithm
a p5.js project, submitted to Hackclubs Emerge YSWS
Watch complex behavior emerge from simple rules of attraction between particles
The first AI system with an idle loop, internal states, and no purpose. Left alone, it stopped talking.
An interactive web-based implementation of Truchet tiling - a mathematical pattern system that creates complex visual designs through simple tile rotations.
WebGL2 particle life simulation — emergent behavior from a configurable force matrix, physics in a ping-pong fragment shader
A React application exploring agent-based modelling (ABM) and emergent behaviour — using Flocc.js to run two distinct simulations, each demonstrating how complex, unpredictable dynamics arise from agents following simple local rules.
Interactive boids flocking simulation in the browser — tune separation/alignment/cohesion live on plain Canvas. Zero dependencies, no build step.
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