Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
system perform well. This PhD project aims to answer this question. You will develop a unified mathematical theory and framework to study and explain how different reservoir systems work and how to design
-
theory and framework to study and explain how different reservoir systems work and how to design them for specific tasks. The project will combine: Mathematical modelling of dynamical systems
-
, signal processing, and electromagnetic sensing and countermeasure technologies, with a focus on Counter-Unmanned Aircraft System (C-UAS) applications. The successful candidate will contribute to advancing
-
of both physics-based and measurement-based models, as well as validation against experimental data. The models will be used to analyze how different design choices affect electromagnetic compatibility (EMC
-
) for offshore applications and renewable energy, including wind and tidal systems. It overcomes limitations of subsea cabling—cost, maintenance, and environmental vulnerability—by exploiting electromagnetic
-
established in the areas of electronic and electromagnetic simulation and design, machine learning and artificial intelligence in electrical engineering, electrical low-frequency and high-frequency measurement
-
Description: Our research group is working on metamaterials and related electromagnetic issues at Nagoya Institute of Technology (NIT), which is known as one of the top research universities in
-
Electromagnetic simulation We also welcome the researcher from different fields: AI (machine learning, big database, etc) Semiconductors As a minimum requirement, you must have a PhD degree in Electrical and
-
Luleå University of Technology is established in the areas of electronic and electromagnetic simulation and design, machine learning and artificial intelligence in electrical engineering, electrical low
-
into distribution networks and buildings across both D-Suite and SOLACE. Therefore, your research will focus on understanding electromagnetic transient processes (EMTP) in modern distribution networks and developing