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Overview of interface algorithms, interface signals, communication and delay in real-time co-simulation of distributed power systems
In recent years, there has been growing research interest in the virtual integration of
hardware and software assets across different geographical locations. However, achieving …
hardware and software assets across different geographical locations. However, achieving …
Recognizing new trends in brain drain studies in the framework of global sustainability
Scholars had been documenting the Brain Drain phenomenon producing scientific literature
for more than 50 years. After three decades of slow but steady progress, literature about this …
for more than 50 years. After three decades of slow but steady progress, literature about this …
[HTML][HTML] On the model flexibility of the geographical distributed real-time co-simulation: The example of ENET-RT lab
The decarbonization of the energy sector represents a challenge that requires new tools and
approaches of analysis. This paper aims to demonstrate the fundamental role that …
approaches of analysis. This paper aims to demonstrate the fundamental role that …
A framework for sensitivity analysis of real-time power hardware-in-the-loop (PHIL) systems
Power hardware-in-the-loop (PHIL) simulation leverages the advanced real-time emulation
based technique to carry out in-depth investigations on novel real-world power components …
based technique to carry out in-depth investigations on novel real-world power components …
Distributed real-time simulations of power systems: A review
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 …
their components. However, significant computational resources are required to model large …
Applicability of geographically distributed simulations
Geographically distributed simulations (GDS) overcome the inherent limitations in
capabilities of single research infrastructure to accurately represent large-scale complex …
capabilities of single research infrastructure to accurately represent large-scale complex …
Exploring stability and accuracy limits of distributed real-time power system simulations via system-of-systems cosimulation
Electromagnetic transients (EMT) is the most accurate, but computationally expensive
method of analyzing power system phenomena. Thereby, interconnecting several real-time …
method of analyzing power system phenomena. Thereby, interconnecting several real-time …
Latency and simulation stability in a remote power hardware-in-the-loop cosimulation testbed
The modern applied research requires multidisciplinary approaches and can be effectively
enriched thanks to the close collaboration of universities' and industries' working teams. This …
enriched thanks to the close collaboration of universities' and industries' working teams. This …
Parallel scientific power calculations in cloud data center based on decomposition-coordination directed acyclic graph
With the expansion scale of interconnected power systems and refined state perception,
scientific power calculations become more complex and diverse. They need faster …
scientific power calculations become more complex and diverse. They need faster …
Interface compensation for more accurate power transfer and signal synchronization within power hardware-in-the-loop simulation
Power hardware-in-the-loop (PHIL) simulation leverages the real-time emulation of a large-
scale complex power system, while also enabling the in-depth investigation of novel actual …
scale complex power system, while also enabling the in-depth investigation of novel actual …