Digital design
Total results returned: 3
The Digital Design page serves as a hub for resources exploring the cutting-edge tools and technologies reshaping electric vehicle development. With access to reports, scientific papers, and case studies, this section highlights the growing role of virtual simulations, digital twin models, and advanced software in the design process. Whether you're researching how digital tools are accelerating design iterations or improving product quality, these materials provide essential information to support innovation in the EV digital design landscape.
Internet of Things (IoT) based Remaining Useful Lifetime (RUL) Estimation of Power Converter with In-situ Junction Temperature Measurement
31% of failures in power electronics are caused by semiconductor switch failure. Semiconductor junction temperature is the most crucial failure stress factor. A Remaining Useful Lifetime (RUL) estimation platform is needed for Prognostic and Health Management of power electronics converters.
Digital Design Professionals, Fleet Management Companies, Power Electronic Engineers
E-Volve Cluster, EFFEREST, IoT, Life-Span, Poster, Power Converters, Vehicle Health Monitoring
Link:
Poster
RHODaS Webinar 3: Software Design and Development of Digital Tools for EVs
The RHODaS Webinar Series presents four interconnected sessions exploring the latest European research on next-generation electric powertrain technologies. Hosted by the RHODaS consortium under the Horizon Europe framework, funded by the European Commission and as part of the E-VOLVE Cluster, the webinar series will feature insights from the RHODaS, SCAPE, Maxima and EM-TECH projects, bringing together leading experts in power electronics, digital systems, and sustainability. Each webinar focuses on a specific technological domain critical to the electrification of transport — from component design and thermal management to digital intelligence and circularity. Together, they illustrate how European research is transforming electric mobility through efficiency, reliability, and environmental responsibility.
Digitalization is redefining how electric vehicles are monitored and optimized. Experts from RHODaS, SCAPE, and MAXIMA will showcase digital twin technologies, fault management systems, and real-time health assessment tools for next-generation powertrains.
Digital Design Professionals, Digital Twin Researchers, Digital Twin Technology Specialists, Fleet Managers and Operators, Logistics and Fleet Management Companies
Digital Design, Digital Twin Technology, E-Volve Cluster, Fault Detection Algorithms, MAXIMA, Powertrain Systems, RHODaS, SCAPE, Vehicle Health Monitoring, Webinar
Link:
RHODaS webinar
Towards the future of smart electric vehicles: Digital twin technology
This work aims to bridge the gap between individual research to provide a comprehensive review from a technically informed and academically neutral standpoint. Conceptual groundwork of digital twin technology is built systematically for the reader, to allow insight into its inception and evolution. The study sifts the digital twin domain for contributions in smart vehicle systems, exploring its potential and contemporaneous challenges to realization.
Advanced Driver Assistance System Developers, Automotive Engineers, Automotive Industry Professionals, Battery Management System Developers, Consultants in Sustainable Transportation Solutions, Digital Twin Technology Specialists, Environmental Policy Makers, Smart Vehicle Technology Researchers, Transportation Policy Makers
Advanced Driver Assistance Systems, Autonomous Navigation, Battery Management Systems, Carbon Dioxide Reduction, Digital Twin Technology, Smart Electric Vehicles, Sustainable Transportation, Techno-Socio-Economic Impact, Vehicle Health Monitoring
Link:
sciencedirect.com