In this position... 

We are seeking a highly technical professional who will develop the controls systems for our newest technologies, with a focus on chassis and vehicle motion control.  You will focus on analyzing customer needs and defining required architecture and functionality early in the development cycle, modeling and simulating vehicle system operation, designing and implementing control algorithms, and validating designs in desktop simulation, hardware benches, as well as in prototype vehicles. Successful candidates for this position will possess a track record of strong independent thinking, effective communication, self-motivation, complex system troubleshooting, and thrive in an environment where they need to understand the complete workings of vehicle controls and the complex interactions between subsystems.

You'll have... 

Bachelor’s Degree in electrical engineering, mechanical engineering, aerospace engineering or a related field with emphasis in control systems  3+ years experience in dynamic systems and embedded real-time controls development for automotive or similarly complex electromechanical systems, including C or C++ 3+ year’s experience in chassis (steering, suspension, brakes) systems and controls development Understanding of automotive powertrain systems and controls (including hybrids), with fundamental knowledge of dynamics, hydraulics, electric machines, batteries and mechatronics Experience with data analysis, scripting and modeling & simulation of dynamic systems using Python, Matlab, Simulink or Stateflow  Experience with standard systems engineering tools including boundary diagrams, fault tree analyses, FMEAs, P-diagrams, etc. Knowledge of ISO26262 Automotive Functional Safety standard Familiarity with AUTOSAR standards and tools for automotive software development

Even better, you may have...

Master’s Degree in mechanical, aerospace, electrical, systems engineering or similar field 3+ years of experience in distributed systems engineering including requirements management, function decomposition and allocation, failure mode avoidance, robustness analysis, and system validation and verification Experience with longitudinal controls for xEV systems (series hybrid, parallel hybrid, mild hybrid, battery electric, fuel cell) Familiarity with industry standard systems engineering tools including SysML, MagicDraw Familiarity with ISO26262 engineering tools including Hazard Analysis, Functional Safety Concept, Safety Requirements Specification, Functional Safety Requirements, Technical Safety Requirements Hands-on experience with distributed system prototyping, troubleshooting, and commissioning Experience using Matlab/Simulink for embedded controls development Experience with standard version control and collaboration systems (ClearCase, AccuRev, GitHub) Experience applying CAE (MIL/SIL/HIL, virtual system/plant models, regression testing) concepts and CI (Jenkins, GitHub, Gradle) tools in robust system controls development Knowledge of CAN/LIN/Ethernet communication protocols and development tools for automotive applications Familiarity with Ford development processes GTDS and GPDS Familiarity with Ford systems engineering systems and tools including VSEM, FEDE, Stages, FRD, HLF Problem-solving skills with a passion for new technology development Demonstrated effective communication, documentation, and interpersonal skills in a team environment Demonstrated ability to manage and balance multiple tasks and timelines  Proven ability to work well with others as part of a diverse global team

You may not check every box, or your experience may look a little different from what we've outlined, but if you think you can bring value to Ford Motor Company, we encourage you to apply!

As an established global company, we offer the benefit of choice. You can choose what your Ford future will look like: will your story span the globe, or keep you close to home? Will your career be a deep dive into what you love, or a series of new teams and new skills? Will you be a leader, a changemaker, a technical expert, a culture builder…or all of the above? No matter what you choose, we offer a work life that works for you, including:

• 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.

This position is a range of salary grades GSR 6-8.
For more information on salary and benefits, click here: https://fordcareers.co/GSR-HTHD

Visa sponsorship is not available for this position. 
Candidates for positions with Ford Motor Company must be legally authorized to work in the United States. Verification of employment eligibility will be required at the time of hire.

We are an Equal Opportunity Employer committed to a culturally diverse workforce. All qualified applicants will receive consideration for employment without regard to race, religion, color, age, sex, national origin, sexual orientation, gender identity, disability status or protected veteran status. In the United States, if you need a reasonable accommodation for the online application process due to a disability, please call 1-888-336-0660.

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What you'll do...

Develop chassis (steering, suspension, brakes) control algorithms for advanced chassis systems to deliver vehicle attributes, including control architecture selection, algorithm simulation, implementation, and verification and validation via leveraging a combination of model-in-the-loop (MIL), software-in-the-loop (SIL), hardware-in-the-loop (HIL) and vehicle test environment.  Leverage, subsystem- and component-level CAE models to analyze dynamic systems and complex system interactions, and to support concept analysis and verification, parameter optimization, and controls/design verification and validation.  Define and review physical system testing and characterization to validate CAE models and guide vehicle and control system design. Control algorithm implementation on embedded controllers.  Support the quality process workstreams (P-diagrams, FMEAs, requirements development, functional safety – (ISO26262).  Create and maintain comprehensive documentation to support global engineering and quality processes, and to facilitate technology transfer: system models, use cases, requirements, design validation tests and methods Leverage connected vehicle technologies (wireless communication, location and route data, cloud-compute resources, AI/ML techniques, etc.) to improve customer experience with enhanced controls and prognostics