Bachelor’s/master’s degree in electrical engineering. Develop models of vehicle components (e.g. lights, ECUs, actuators, motors, switches) for application to electromagnetics simulation performed by the lead simulation engineer.
Models shall be in FMI/FMU format preferably or in tool-native formats where necessary.
Use industry tools such as Ansys EMC Plus, HFSS, and CST for modelling in support of simulation for EMI/EMC compliance, antenna design, and signal transmission.
Frequency ranges, operating modes, and standards (CISPR, FCC, ISO, etc.)
Accuracy targets and acceptable error margins
Boundary condition and environmental assumptions
Modeling Strategy / Solver Selection Rationale
Chosen solver(s) and justification (FEM, FDTD, MoM, Hybrid)
Trade-offs considering accuracy vs. runtime
Simplifications and exclusions.Automation scripts (Python and tool-specific APIs) for repetitive tasks
Reduced-order or surrogate models
Digital twin or system-level EM integration artifacts