THE ROLE:
Join the Product Development team and be a driving force behind the delivery of Ford's latest automotive infotainment and active safety technologies. The Software Product Engineer (SPE) lives at the intersection of Deep Technical Expertise, Product Ownership, and Engineering Execution. You will focus on defining and building the In-Vehicle Infotainment (IVI) software systems and Human-Machine Interface (HMI) for advanced camera and ADAS features. Serving as the "technical glue" across functions, you will own the end-to-end engineering lifecycle of how these complex, safety-critical features are visualized and interacted with by the driver.
YOUR IMPACT:
Technical Ownership & Execution: Own the end-to-end technical execution of the IVI Camera and ADAS HMI software from early design through production release. Maintain a deep architectural understanding of video processing pipelines, HMI rendering logic, UI workflows, interface interactions (CAN, SOA) between the IVI system and ADAS modules, and display hardware constraints.
Architecture & Design: Own and lead architecture and design for camera, parking and trailering HMI features, define interfaces and confirm specification completeness before software implementation begins.
Cross-Functional Leadership: Partner closely with Product, Design, UX/UI, and core ADAS engineering teams to shape feature direction. Ensure alignment between user experience, display performance (latency/framerate), technical feasibility, and strict safety/regulatory compliance.
Agile & Technical Planning: Translate product intent and UI/UX flows (e.g., Figma) into engineering-ready technical stories for IVI SW stack (HMI apps, feature arbitration, platform services etc). Lead technical inputs for Program Increment (PI) Planning and participate in sprint ceremonies not just as a facilitator, but as a technical voice guiding feasibility and execution.
Validation & Root Cause Triage: Lead defect triage with a focus on technical root cause isolation using vehicle logs and debug traces. Validate end-to-end feature functionality—including camera image quality, UI responsiveness, alert timing, and dynamic visual overlay accuracy—in simulated environments (HIL with video/sensor injection) and in-vehicle displays.
Quality & Compliance: Ensure software quality through code reviews, rigorous testing, DFMEA execution, ASPICE compliance, and strict adherence to functional safety (ISO 26262) and regulatory standards (e.g., FMVSS 111 for rear visibility).