Project “DymoBat”
Intend: „AI assisted communication technologies for dynamic optimization of mobility and energy storage for frequency stabilization and energy supply.“
Partner:
Brief description:The DymoBat project will advance electric mobility by developing energy management tools that integrate electric vehicles, renewable energy sources and traditional grid structures into a sustainable and efficient energy ecosystem. It uses a two-layer architecture for energy system management at different levels, from individual households to multi-cell configurations, and leverages technologies such as 5G, AI and smart charging to optimise energy use and support grid operations. The DymoBat project addresses the increasing complexity and demands of modern energy systems, which include growing penetration of renewable energy sources and the integration of electric vehicles. As the energy landscape evolves towards decentralised and digital solutions, there is a critical need for innovative management strategies that ensure reliability, efficiency and sustainability.The main objective of the DymoBat project is to develop marketable solutions that improve the functionality and efficiency of the future energy grid. The project focuses on:
- Bidirectional power flows between electric vehicles and the grid to improve energy flexibility and grid support
- Optimisation of energy storage and consumption to manage peak loads and reduce costs
- Smart charging solutions for electric vehicles to minimise environmental impact and improve user experience
- Integration of technologies such as 5G and AI to enable real-time energy management and improve the capabilities of energy management systems (EMS)
These objectives are in line with broader goals such as supporting smart city developments and contributing to the European Green Deal, emphasising the project’s role in shaping a sustainable energy infrastructure.
Further information for journalists:
Dr.-Ing. Rico Radeke
TU Dresden
Deutsche Telekom Chair of Communication Networks
Tel.: +49 (0) 351 46339245
E-Mail: rico.radeke@tu-dresden.de
Further information on the project: https://dymobat.de/