Optimization of the Electric Powertrain using Machine Learning Methods
Engineering Electric Vehicles & Optimisation of Highly Integrated Electric Powertrain
Electric & Hybrid Vehicle Propulsion and Powertrain Technologies – Market Overview, Trends, Supply Chain & Future Challenges
Electric Motor Thermal Management Systems for Hybrid & Electric Drives
Thermal Analysis and Management of High-Performance Electrical Machines
Progressing flow and thermal simulation of pure and hybrid integrated e-powertrain systems and components
Direct e-motor cooling through hollow conductors – a breakthrough for power density and efficiency
Power Analysis on High-Performance Electric Powertrains
Current Trends & Future Developments in Electric Motor Developments & EV Inverters
Holistic Assessment of E-Motor Technologies in Automotive Applications
Emerging & State-of-the-Art Winding Technologies for Electric Motors
Rethinking electrified powertrain architectures – How to develop optimal control strategies?
How to optimize your electronic systems to ensure overall integrity?
New approaches for the virtual development of transmissions in electric powertrains
Challenges and opportunities to tackle e-nvh on component and complete vehicle level
NVH Test Validation vs Specifications
Interaction between Electrified Powertrain and Modern Brake Systems – NVH Challenges for Autonomous, Electric Vehicles
Route-based optimization for long-term rides regarding energy consumption and battery management
What are the best ways to develop compact and cost-efficient on-board-chargers?
What are the simulation and development benefits of using a Digital Twin for electric motors in general and electric actuators in particular?
What is the impact of future central E/E-Architectures on Powertrain Systems?