Future Marine Energy Systems for yacht and superyacht: Topological Design and Control - This research theme focuses on the development and optimization of marine energy systems. It encompasses the study of topological design principles and advanced control methos to enhance the efficiency, reliability, and sustainability of marine energy systems. The goal is to create resilient systems that can adapt to varying environmental conditions and energy demands.
Optimal Power and Energy Management for Hybrid and Fully Electric Powertrains with Electrochemical Devices - This research theme aims to develop strategies for the optimal management of energy in hybrid and fully electric powertrains. It includes the integration and optimization of electrochemical devices such as batteries and fuel cells. The focus is on maximizing efficiency, extending the lifespan of components, and reducing overall emissions, thereby contributing to the advancement of cleaner and more efficient propulsion systems.
AI and Data-Driven Techniques for Marine Engineering Applications: Predictive and Prescriptive Strategies for Optimal Design and Operations - This research theme explores the application of data-driven methodologies in marine engineering. It involves the use of predictive analytics and prescriptive strategies to inform the optimal design and operational practices of marine systems. The objective is to leverage big data and machine learning to enhance performance, reduce costs, and improve the safety and sustainability of marine engineering operations.