User-centred Optimal Design of Electric Vehicle with Smart E-Corners

HORIZON.2.5HORIZON-IAID: 101138110
EC Contribution
€45,757
Consortium Size
12 orgs
Summary

In-wheel motors (IWMs) have become a mature technology that is well-suited for new user-centric electric vehicles (EVs). IWMs can be integrated in multi-functional and controllable modules consisting of the electric powertrain, friction brake and suspension/steering actuation. By combining several vehicle functionalities in a compact solution, the modules offer substantial opportunities to enhance the design and the operation of EVs. This is the starting point of the SmartCorners project. Using machine learning and AI, an adaptive multilayer control strategy will be implemented with historical and current data from the vehicle, its environment, and users, including relevant EV fleets. This approach will pave the way toward software-defined vehicles, ena-bling rightsizing, holistic optimisation, innovative fault mitigation and actuator allocation strategies as well as more efficient, adaptive, predictive, and personalised system operation. SmartCorners will bring a so far un-explored authority level over: i) vehicle design, through skateboard-like chassis configurations; ii) energy management aspects, covering pre-conditioning and predictive thermal management during EV operation; iii) comfort and functional aspects, in terms of user-centric cabin thermal management, and pre-emptive vehicle body control; and iv) dismantling process and recycling of the vehicle. The development and industrialization of the project outcomes will be accelerated by comprehensive and integrated simulation, design and validation methodologies to decrease development time and cost, and support the uptake of AI-based solutions. In con-clusion, SmartCorners will provide a significant competitive advantage of the European industry and contrib-ute to achieve key strategic orientations C and A of the EU Strategic Plan.

Consortium (12)

Project Results (11)

Source: CORDIS, the EU research results database.

Publications (5)
Affordable Road Obstacle Detection and Active Suspension Control Using Inertial and Motion Sensors
World Electric Vehicle Journal· 2025DOI
Andrew Valdivieso-Soto; Gennaro Sorrentino; Giulia Moscone; Renato Galluzzi; Nicola Amati
Electrification of powertrain and chassis components as opportunity for efficient and usercentric road transportation – Insights of the R&D projects HighScape, EM-TECH, and SmartCorners
EVS38· 2025DOI
Florian Ratz, Eric Armengaud, Marius Heydrich, Luca Avarello, Miguel Dhaens, Giulia Moscone, Gennaro Sorrentino, Tomaž Kompara, Matic Herzog, Umberto Montanaro, Davide Tavernini, Patrick Gruber, Bo Wang, Aria Noori Asiabar, Liaoyuan Ran, Sebastiaan van Aa
European Initiatives for User-Centric Design of Electric Vehicles
Proceedings of the SAE World Congress 2025· 2025DOI
Ratz, Florian; Baeuml, Thomas; Kompara, Tomaz; Kospach, Alexander; Simic, Dragan; Jan, Petra; Möller, Sebastian; Fuse, Hiroyuki; Paredes Barros, Esteban; Armengaud, Eric; AMATI, NICOLA; Sorniotti, Aldo; Lukesch, Walter
AI-Based Power Split Strategy for Hybrid Commercial Vehicle Applications
Lecture Notes in Mechanical Engineering (LNME) ISBN: 9783031703911· 2024DOI
Pratheesh Sivaraman Nair; Tomislav Bukic; Dominik Burnner; Georgios Koutroulis; Milan Zivadinovic
IEEE Access
IEEE Access· 2024DOI
Gabriele Rini; Victor Mazzilli; Francesco Bottiglione; Patrick Gruber; Miguel Dhaens; Aldo Sorniotti
Deliverables (6)