Advanced HEV Simulation and Performance Research Engineer

Ford•Dearborn, MI

18d•Onsite

About The Position

We are the movers of the world and the makers of the future. We get up every day, roll up our sleeves and build a better world -- together. At Ford, we're all a part of something bigger than ourselves. Are you ready to change the way the world moves? In this position... Engineering complex electrified propulsion systems in today's competitive market requires sophisticated model-based development methodologies that can help deliver optimized products quickly and efficiently. There is a critical need to identify and explore opportunities for improving customer experience and value of our electrified vehicle products. We are seeking a highly skilled and innovative engineer to play a key role in the development, analysis, and optimization of vehicle attributes across a broad range of electrified propulsion architectures. Leveraging high-fidelity simulation models, you will perform detailed analysis across fuel economy, performance, thermal management, emissions, and passenger comfort, with a specific focus on evaluating and optimizing hybrid energy management strategies to achieve best-in-class fuel economy while meeting stringent emissions regulations. The role also focuses on simulating and analyzing real-world customer data to ensure our vehicles meet and exceed customer expectations.

Requirements

Bachelor's degree in mechanical engineering, Automotive Engineering, or Electrical Engineering.
3+ years of experience with analyzing various hybrid electric vehicle (HEV) architectures, including but not limited to full, plug-in, series, parallel, powersplit, and range extender systems.
3+ years of experience with analyzing electrified propulsion systems hardware and controls, including combustion engines, electric machines, batteries, thermal systems, driveline, and chassis systems.
3+ years of experience with operation, modeling and control of internal combustion engines and aftertreatment systems for ensuring regulatory compliance.
3+ years of experience with MATLAB / Simulink / Stateflow.
3+ years of experience with other relevant simulation tools (e.g., GT-SUITE, AVL CRUISE M, AMESim, etc.).
1+ years of experience with version control systems (e.g., GitHub, GitLab, SVN) and automation concepts.
Excellent written and verbal communication skills.
Excellent organizational skills, including strong attention to detail and the ability to manage multiple tasks simultaneously.
Demonstrated initiative, resilience, a strong work ethic, and a desire for continuous learning

Nice To Haves

Master's or PhD in Mechanical Engineering, Automotive Engineering, or Electrical Engineering.
Direct experience with model development of specific complex xEV architectures (e.g., powersplit, series, parallel, and advanced multi-mode hybrids)
Thorough understanding of current and upcoming EPA emissions regulations for light-duty / heavy-duty vehicles and technology pathways for meeting compliance requirements.
Working knowledge of thermal and hydraulic systems as applied to hybrid electric architectures as well as automotive climate systems and passenger comfort.
Experience with optimization techniques and tools applied to engineering problems.
Experience working with large datasets, particularly automotive telematics or connected vehicle data and with developing data visualization dashboards
Familiarity or experience with high-performance computing (HPC) or cloud environments for simulations/optimizations.
Experience contributing to technology roadmaps or advanced engineering projects

Responsibilities

Conduct detailed vehicle-level attribute analysis (fuel economy, performance, emissions, thermal management, passenger comfort) using high-fidelity simulation models across diverse xEV architectures to drive development and optimization of Ford's current and future xEV offerings.
Utilize models employing 1D and 3D methods to ensure comprehensive engine-out and tailpipe emissions analysis and assessment of compliance.
Perform functional validation and correlation of high-fidelity vehicle and propulsion system models against physical test data, ensuring accuracy and reliability across steady-state and transient operating conditions.
Lead and execute large-scale attribute optimization studies leveraging HPC/cloud environments to balance system performance objectives over regulatory cycles and representative real-world customer driving profiles.
Develop intuitive dashboards and reports to effectively visualize and communicate complex simulation results and real-world data insights to engineering teams and stakeholders.
Collaborate extensively with propulsion systems controls and calibration engineering teams, as well as other cross-functional teams (thermal, climate, etc.) to influence design decisions by providing simulation-based analysis and insights.

Benefits

Immediate medical, dental, vision and prescription drug coverage
Flexible family care days, paid parental leave, new parent ramp-up programs, subsidized back-up child care and more
Family building benefits including adoption and surrogacy expense reimbursement, fertility treatments, and more
Vehicle discount program for employees and family members and management leases
Tuition assistance
Established and active employee resource groups
Paid time off for individual and team community service
A generous schedule of paid holidays, including the week between Christmas and New Year's Day
Paid time off and the option to purchase additional vacation time.

Stand Out From the Crowd

Upload your resume and get instant feedback on how well it matches this job.

Upload and Match Resume