mathematical model

Improving Dynamic Performance of Low-Inertia Systems through Eigensensitivity Optimization

An increasing penetration of renewable generation has led to reduced levels of rotational inertia and damping in the power network. The …

A. Venkatraman, U. Markovic, D. Shchetinin, E. Vrettos, Petros Aristidou, G. Hug

LQR-Based Adaptive Virtual Synchronous Machine for Power Systems With High Inverter Penetration

This paper presents a novel virtual synchronous machine controller for converters in power systems with a high share of renewable …

U. Markovic, Z. Chu, Petros Aristidou, G. Hug

Interval-Based Adaptive Inertia and Damping Control of a Virtual Synchronous Machine

This paper presents a novel virtual synchronous machine controller for converters in power systems with a high share of renewable …

U. Markovic, N. Fruh, Petros Aristidou, G. Hug

Co-Simulation of Electromagnetic Transients and Phasor Models: A Relaxation Approach

Co-simulation opens new opportunities to combine mature electromagnetic transients (EMT) and phasor-mode (PM) solvers, and takes …

F. Plumier, Petros Aristidou, C. Geuzaine, T. Van Cutsem

Power System Dynamic Simulations Using a Parallel Two-Level Schur-Complement Decomposition

As the need for faster power system dynamic simulations increases, it is essential to develop new algorithms that exploit parallel …

Petros Aristidou, S. Lebeau, T. Van Cutsem

Dynamic Simulation of Large-Scale Power Systems Using a Parallel Schur-Complement-Based Decomposition Method

Power system dynamic simulations are crucial for the operation of electric power systems as they provide important information on the …

Petros Aristidou, D. Fabozzi, T. Van Cutsem