There are 2 repositories under kuramoto-model topic.
Tool to numerically solve and analyse simplicial Kuramoto models.
Numerical integration of the Kuramoto Model in Python 3
A series of simulation codes used to emulate quantum-like networks in the simulation of emergent adaptive behavior, such as network synchronization, and relate the nature of the coupled harmonic oscillators with non-local behavior and chimera states in systems of quantum particles. Coding Used is based on mathematical modelling of transport in quantum many-body systems and networks made tractable using the quantum newtons cradle. A full showcase of this project is discussed in the following videos:https://www.youtube.com/watch?time_continue=115&v=WX3Ds_xCOaE
This is a python implementation of Kuramoto model with adaptive rewiring. Adaptive rewiring is meant to simulate the ebb and flow of social interactions.
Kuramoto - Sakaguchi Model Applet
Matlab code for running the NRPS, RAPS, FEPS and nonlinear Kuramoto models: Models for electric grids that capture the dynamics of synchronous machines and VSMs.
Simple stochastic integrator for the mean field Kuramoto model.
An animation of synchronization of sine functions
A python/CUDA pkg which solves numerically the kuramoto model through the Heun's method
Multiagent Persistent Monitoring via Time-Inverted Kuramoto Dynamics
I have tried to explain the multi-step-methods of solving ODEs via Adams-Bashforth and Adams-Moulton methods which are explicit and implicit methods respectively. I also have implemented them explicitly to solve for a system of ODEs, I have also done an explicit implementation of fourth order Runge-Kutta method in the process as it is needed.
Simple C++ library for the kuramoto model of syncronization of fireflies.