There are 1 repository under self-organized-criticality topic.
Measuring progress in literature
Matlab library to visualize the avalanche and power law characteristics of the Bak-Tang-Wiesenfeld sandpile model
Implementation of a minimal neural network model for the study of self-organized criticality
Which dynamical regime is beneficial for biological systems in the context of the criticality hypothesis? Agent-based evolutionary foraging game with experiments to evaluate generalizability, ability to perform complex tasks and evolvability of agents with respect to their dynamical regime. Paper: https://arxiv.org/abs/2103.12184
Forest Fire Simulation Project for the Completion of PH4505 Computational Physics - NTU Singapore Spring 2018
Paper: https://doi.org/10.1162/isal_a_00412 Which dynamical regime is beneficial for biological systems? Agent-based evolutionary foraging game with experiments to evaluate generalizability, ability to perform complex tasks and evolvability.
All the code used in the simulations for my masters thesis.
DEVELOPMENT OF A SOFTWARE TOOLKIT FOR INVESTIGATION AND MANAGEMENT OF EPIDEMICS IN SELF_ORGANIZING SYSTEMS
Various studies show that criticality is an attractor in biological evolution. Which conditions have to be fulfilled, such that criticality acts as an attractor in our neuroevolution simulation? -- Masters Thesis Project ---
An utterly trivial implementation of the abelian sandpile model, the simplest example of a system exhibiting SOC.
Simulation of sandpile dynamics via a cellular automaton and corresponding analysis to extract scaling exponents from avalanche statistics
Criticality analysis on complex networks using Power-law scaling functions, exponential relations, and phase transitions