Job Description:
The ideal candidates must be strong team players and willing to work in a fast paced environment, will be involved in developing control strategies related to strategic optimization of engine speed, gear, powertrain state, engine torque optimization, and tactical torque controls for drivability management, and hybrid shift execution strategies. The ideal candidate should have a strong background in modeling of mechanical transmission systems and be familiar with using lever analogy principles for determining dynamic torque and speed relations used extensively across hybrid torque controls.
• Master’s in mechanical, Electrical, Aerospace, or related Engineering field from an ABET accredited university with 3+ Years Automotive Experience
• Specialization in classical and modern control disciplines with vehicle application
• Embedded software experience
• Experience with model-based development tools such as MATLAB/SIMULINK
• Experience with data acquisition and analysis tools such as ETAS-INCA
• Demonstrated technical problem solving
• Strong overall knowledge of vehicle and powertrain functions
• Experience with modeling, simulation, development, testing, calibration and/or validation
• Outstanding interpersonal and problem-solving skills
Any Graduate