Lead brake system analysis and virtual test activities in support of leading-edge vehicle programs and innovative technology development.
Develop high-fidelity virtual models for hydraulic and electric brake systems that couple physical system dynamics, actuator behavior, and embedded control-software execution.
Integrate multi-domain models into advanced co-simulation environments.
Align software releases, calibration milestones, and vehicle hardware release milestones.
Support resolution of program issues by aligning co-simulation partners to meet technical and timing demands.
Identify strategic opportunities for innovating processes and methods.
Develop, evaluate, review and verify guidelines for Functional Mock-up Unit (FMU) models provided by suppliers for various brake systems based embedded controller models for brake apply systems and calipers.
Create developmental test procedures to enhance virtual vehicle development, calibration, and validation.
Perform closed-loop learning to validate the performance of brake system co-sim models and analyze simulation data.
Develop and validate automated simulation run scripts using MATLAB, Simulink, and Python.
Support implementation and utilization of Simulation Data Management (SDM) and version control tools.

BS Mechanical Engineering, Electrical Engineering, Aerospace Engineering, Software Engineering or Computer Science.
5+ years of relevant engineering experience in product development, analysis, or validation.
5+ years of experience in brake system controls.
Proven ability to work in teams, balancing technical theory with practical limitations.
Strong verbal and written communication skills, with the ability to convey complex technical topics clearly and effectively.
Deep technical knowledge and understanding of brake system physics and control theory.
MS Mechanical Engineering, Electrical Engineering, Aerospace Engineering, Software Engineering or Computer Science.
2+ years experience using CAE tools and methods (preferred).
Working knowledge of tire modeling and its influence on system behavior (preferred).
Understanding of manufacturing processes related to brake system components (preferred).
Automotive hands-on experience with building, testing, and/or modifying vehicles (preferred).

Brake Systems Integration Engineer

Key skills