About the Project

A co-design framework for the energy management system control architecture will be implemented based on adaptive digital twins, which will be derived from high-fidelity physics-based simulation models and specific measurements with the help of AI and machine learning (ML) techniques. The system of interacting digital twins allows for model-based optimization for component rightsizing and the development of an integrated predictive model-based control for the combined system of powertrain thermal management and cabin comfort system. The EFFEREST combined vehicle control system will adapt to user specific characteristics and preferences during operation to further improve the overall efficiency and user acceptance.

EFFEREST will demonstrate its achievements in a series vehicle, which is specifically modified during the project and tested on test benches as well as under realistic driving conditions. In addition, virtual demonstrators will be used in a complementing way to assess EFFEREST developments in an extensive set of scenarios, representing the realistic vehicle usage in the EU. To derive those relevant testing scenarios real fleet data from different sources is analyzed and characteristic vehicle use-cases are derived during the project, which allows for the estimation of the effective impact of EFFEREST on the overall reduction of the vehicles CO2 footprint.