Several aspects must be taken into account when dealing with power electronic design. Within a system we can identify different elements such as thermal dissipation, electrical characteristics, ...

Real-time power system simulation and hardware-in-the-loop testing are among the key tools for power industry leaders. Learn how these technologies are paving the way for a secure and sustainable grid ...

In an era of increasing penetration of renewable energy and enhanced complexity in electrical networks, dynamic load modelling has emerged as a crucial research area. This approach involves developing ...

Real-time power system simulation and hardware-in-the-loop (HIL) testing have been transforming the power industry for over 30 years. These tools have revolutionized the way that engineers study power ...

Planning and operating a power system requires detailed grid studies to guide investment decisions and prepare for how the system may evolve over time. Long-term planning can identify the policy, ...

The field of mechatronics has evolved into a multidisciplinary arena where simulation, modelling and programming work in concert to optimise system performance, ensure reliability and reduce ...

On the path to carbon neutrality, more than 40 countries and the European Union – representing over 70 per cent of global CO2 emissions – have committed to net zero objectives, most of them by 2050.

Within the overall objective to support the development of fast reactor technology and to extend the predictive capabilities of existing simulation tools for design and safety analysis, this ...

Simulation is playing an increasingly critical and central role throughout the design-through-manufacturing flow, fusing together everything from design to manufacturing and test in order to reduce ...

Complexity in hardware design is spilling over to other disciplines, including software, manufacturing, and new materials, creating issues for how to model more data at multiple abstraction levels.