Staff AI/ML Vehicle Motion Control Engineer – Vehicle System Controls

About The Position

Requirements

• M.Sc. or Ph.D. in Controls, Robotics, Electrical/Mechanical Engineering, Computer Engineering, Applied Mathematics, or AI/ML with focus on control, robotics, or dynamical systems.
• 8+ years of experience in control systems and embedded software development, with significant time spent on vehicle motion, chassis, or closely related dynamic systems.
• Strong foundation in control and state estimation theory and its application to real‑time embedded systems.
• Practical experience developing and deploying embedded control software in C or C++.
• Experience using MATLAB/Simulink and auto‑code generation for production.
• Hands‑on experience with vehicle dynamics modeling and simulation and at least one of: CarSim, similar multi‑body dynamics tools, or high‑fidelity in‑house models.
• Proficiency with vehicle communication and measurement tools such as Vehicle SPY, INCA, and CANalyzer (or equivalent).
• Demonstrated experience using Python for data analysis.
• Introductory-to-intermediate experience with machine learning or data-driven modeling applied to control, estimation, or vehicle dynamics problems.
• Proven ability to lead complex technical efforts, including roadmapping, design reviews, and mentoring of other engineers.
• Excellent communication and collaboration skills, with the ability to work effectively across disciplines and locations (Milford, Michigan and Mountain View, California).

Nice To Haves

• Deep, applied experience with AI/ML in Control, Estimation and robotics, such as: Data‑driven dynamics modeling and system identification at scale.
• Learning‑based controllers (e.g., RL, model‑based RL, or approximate dynamic programming) for real systems.
• ML‑based estimation and prediction for driver intent, road conditions, or environment‑aware motion control.
• Applying deep learning architectures (e.g., CNNs, RNNs, and transformer‑based models) to perception, estimation, or decision‑making tasks that feed into vehicle motion control.
• Familiarity with large language models (LLMs) and large vision / vision‑language models (e.g., LVLMs), and how their outputs can be safely incorporated into planning, diagnostics, or advanced control workflows in an automotive context.
• Experience working with modern foundation‑model and multimodal AI ecosystems (e.g., tooling, prompt/response pipelines, safety filters) in conjunction with real‑time or near‑real‑time control systems.
• Experience with modern ML engineering / MLOps practices.

Responsibilities

• Serve as a staff‑level technical authority for AI/ML‑enabled vehicle motion control within the Vehicle System Controls organization.
• Define and own the technical roadmap for hybrid control architectures that blend model‑based and data‑driven methods.
• Provide hands‑on technical guidance, code and design reviews, and mentorship for engineers working in advanced control and AI/ML.
• Architect scalable, reusable motion control platform components and interfaces that support multiple vehicle lines and ECU/compute platforms.
• Design and implement advanced control algorithms, including state‑space control, observers/estimators, optimal/robust control, and model predictive control (MPC).
• Integrate AI/ML components (e.g., learned models, estimators, or policies) into real‑time control loops while maintaining safety, stability, and interpretability.
• Identify and lead high‑value AI/ML applications in motion control.
• Develop and validate models using Python‑based ML stacks (e.g., PyTorch, TensorFlow, scikit‑learn, NumPy/pandas), and integrate them with embedded control software.
• Apply reinforcement learning or model‑based RL under safety and real‑time constraints, and translate promising concepts into robust production designs.
• Lead the use of MIL/SIL/HIL/DiL environments and vehicle dynamics simulation (e.g., CarSim) for development and validation of both classical and AI/ML‑enabled controllers.
• Define data workflows for collection, curation, labeling, and feature engineering from simulation, proving grounds, and fleet data to support training and validation.
• Leverage and extend core toolchains including MATLAB/Simulink, embedded C/C++, Vehicle SPY, INCA, CANalyzer, and modern data/ML tools.
• Ensure that control and AI/ML solutions align with ISO 26262 functional safety processes and SOTIF (ISO 21448) for Safety of the Intended Functionality.
• Ensure that control and AI/ML solutions align with emerging automotive AI safety standards and best practices, including runtime monitoring, confidence measures, and safe fallback strategies.
• Define system‑level safety concepts, monitoring logic, and fail‑operational / fail‑safe behaviors around AI/ML components in safety‑relevant functions.
• Collaborate with internal stakeholders across our Milford, Michigan and Mountain View, California sites, and with external partners and academic institutions, to advance state of the art.
• Communicate strategy, trade‑offs, and technical decisions clearly to leadership, and help shape long‑term investment in tools, compute, and platforms for AI in controls.

Benefits

• Bonus Potential: An incentive pay program offers payouts based on company performance, job level, and individual performance.
• From day one, we're looking out for your well-being–at work and at home–so you can focus on realizing your ambitions.