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

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 …

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 …

This paper presents an approach to extend the capabilities of smart grid laboratories
through the concept of Power Hardware-in-the-Loop (PHiL) testing by re-purposing existing …

The modern applied research requires multidisciplinary approaches and can be effectively
enriched thanks to the close collaboration of universities' and industries' working teams. This …

The smart-grid era is characterized by a progressive penetration of distributed energy
resources into the power systems. To ensure the safe operation of the system, it is necessary …

Grid operators are now considering using distributed energy resources (DERs) to provide
distribution voltage regulation rather than installing costly voltage regulation hardware. DER …

The paper presents the results of an on-going collaboration between two Italian universities,
Politecnico di Bari (PoliBa) and Politecnico di Torino (PoliTo), for the setting up of a …

This paper presents an X-in-Loop test platform designed for the Proof-of-Concept testing of
intelligent braking ECPBS in commercial vehicle. Firstly, the concept of intelligent braking is …