There are 5 repositories under optimal-power-flow topic.
A Julia/JuMP Package for Power Network Optimization
Benchmarks for the Optimal Power Flow Problem
A Julia/JuMP Package for Unbalanced Power Network Optimization
An Open-Source Optimal Power Flow Formulation: Integrating Pyomo & OpenDSS in Python
AC-OPF Implementations in Various NLP Modeling Frameworks
Power System simulation tool to visualize the steady state power system operation, such as optimal power flow and state estimation. The functions also include generating false data injection (FDI) attacks and detect by using Moving Target Defence (MTD).
A package for solving optimal power flow problems using distributed algorithms.
Parser of PSS/E-format Power Flow Raw Data Files (.raw)
Final project of Convex Optimization II to solve AC Optimal Power Flow with convex relaxations
A PowerModels.jl Extension Package for Exploratory Work
Benchmarks for the Optimal Power Flow Problem with HVDC Lines
Network generation for paper Multi-Agent Reinforcement Learning for Active Voltage Control on Power Distribution Networks.
JuliaGrid is an easy-to-use power system simulation tool for researchers and educators provided as a Julia package.
This repo contains code and visualisation for "Robust moving target defence against false data injection attacks in power grids"
Julia package with tools at the cross-section of Power System Operations, Applied Mathematics, High-Performance Computations, and Machine-Learning.
MATLAB implementations for the courses Analysis of Power Systems (EE 521) and Power System Stability and Control (EE 523) at Washington State University.
Toolbox for power system analysis
AC optimal power flow for networks with multiple frequencies, with each frequency as an optimization variable.
Thesis
Master Thesis: Optimal Power in Power Systems using Graph Neural Networks
Power Market Tool for the comprehensive analyses of modern electricity markets (Python+Julia)
Optimal Power Flow calculation for the Electrical Grid Simulator (EGS).
Source code to replicate research findings of the paper 'Understanding the Structural Characteristics of Convergence Bidding in Nodal Electricity Markets.' Developed using CVXPY.
Honours project: Optimal Power Flow Approximation for Transmission Switching
Multi-Period Optimal Power Flow for Active Distribution Systems with Spatially Distributed Computation
Grid-edge Technologies
An electrical grid simulator to calculate the least grid cost using optimizers from nevergrad package.
Optimal Power Flow: Predicting v and theta at each bus of a MATPOWER power grid