The integration of smart grid technologies in interconnected power system networks
presents multiple challenges for the power industry and the scientific community. To address …

Over the past decade, the world's electrical grid infrastructure has experienced rapid growth
in the integration of grid-edge inverter-based distributed energy resources (DERs). This has …

In recent years, there has been growing research interest in the virtual integration of
hardware and software assets across different geographical locations. However, achieving …

Geographically distributed simulations (GDS) overcome the inherent limitations in
capabilities of single research infrastructure to accurately represent large-scale complex …

Novel concepts enabling a resilient future power system and their subsequent experimental
evaluation are experiencing a steadily growing challenge: large scale complexity and …

Electromagnetic transients (EMT) is the most accurate, but computationally expensive
method of analyzing power system phenomena. Thereby, interconnecting several real-time …

This article presents the development of a platform for the validation of controllers applied to
photovoltaic systems (PVS) interconnected with the main grid (MG), integrating simulation …

Real-time simulations (RTS) are widely used to study the behavior of power systems and
their components. However, significant computational resources are required to model large …

With an increasing number of power electronics connected renewable energy sources,
electromagnetic transient (EMT) simulations become increasingly important to accurately …

This article studies the stator windings asymmetry fault in direct-drive permanent magnet
synchronous generator (PMSG)-based wind turbines (WTs), having passive converters at …