There are 0 repository under self-organization topic.
Hierarchical self-organizing maps for unsupervised pattern recognition
Biologically-Inspired and Machine Learning Algorithms written in Python
Backend for Fractale: a self-organization platform
compatibility chart for personality types
POMG algorithm for large-scale pursuit game with partial observation and no communication.
Simulation of Systems of interacting mean-field Particles with High Efficiency
Collectivo is a modular open-source framework for buildig community platforms.
Minimalist implementation of an Elastic Principle Graph
Self-organized P2P ride sharing community
Predator-Prey-Grass gridworld environment using PettingZoo, with dynamic deletion and spawning of partially observant agents.
Frontend for Fractale: a self-organization platform
:hourglass_flowing_sand: 看板 A simple text-based personal kanban system written in Markdown
This project is inspired by the paper "Growing Neural Cellular Automata" found at the link: https://distill.pub/2020/growing-ca/. The project's objective is to develop an extension of the methodology described in this paper to enable the generation of complex structures in three dimensions.
Toolbox for Inferring Interaction Laws from Observing Various Self-Organized Dynamics
:green_heart: LG website and garden directory —
Defines the rules and processes of Nothing's authority structure.
Csharp Simulation for NASA ANTS project
A WordPress plugin to display a panel with live events from a Google Calendar or .ics files.
:family: :envelope: A course resource that displays groups and their members
Simulations of flocking behaviour in active agents, using a simple Viscek model
Artificial Intelligence for the study of emerging symbol-based communication in artificial creatures.
Multi-agent pursuit in matrix world (pursuitMW)
Self-organized P2P gift economy community
Self-Organized Hydrodynamics PDE solver in Julia
Deep reinforcement learning to solve self-organized settlement growth modeled as Markov decision processes.
This code for "Fairy circles imply high resilience of self-organized salt marshes" by L.-X. Zhao, K. Zhang, K. Siteur, X.-Z. Li, Q.-X. Liu, J. van de Koppel. The codes were implemented on anaconda platform with pyopencl package and Jupyter.