Senior Safety Systems Engineer

What you will own

• Safety Systems Engineering & Leadership
  • Own the architecture, design, and validation of safety-critical systems including fail-safe emergency stops, safety relays, safety controllers, watchdog mechanisms, and machine-state enforcement.
  • Lead comprehensive hazard analyses (FMEA, HAZOP, FTA), identifying failure modes across mechanical, electrical, control, and software boundaries - and ensuring mitigation strategies are designed and validated.
  • Ensure rigorous traceability from hazards to requirements to design to validation to field behavior, enabling audit readiness and compliance.
  • Define and refine Concepts of Operations (ConOps) for safe machine use across diverse operating environments, customer workflows, and machine capabilities.
  • Develop safety training and system understanding for internal teams, field operators, and customers.
• Systems Architecture & Requirements Leadership
  • Translate broad product goals into detailed system-level requirements across sensing, compute, networking, control, telemetry, autonomy subsystems, and safety pathways.
  • Define system architecture for multi-domain integration - embedded systems, hydraulics, perception pipelines, operator interfaces, and cloud components.
  • Drive architectural clarity across teams and ensure design principles (serviceability, reliability, manufacturability, testability) are upheld.
  • Identify cross-domain dependencies and risks early; influence design decisions to maximize safety margins and mitigate architectural pitfalls.
  • Build scalable requirements frameworks that support multiple machine types, configurations, and generational evolution.
• System Observability & Performance Insights
  • Architect observability infrastructure that provides deep visibility into system health - safety system status, sensor health, compute performance, networking reliability, machine performance, uptime, and availability.
  • Define monitoring requirements and data flows for real-time diagnostics, predictive maintenance, and fleet-wide performance analytics.
  • Collaborate with autonomy, cloud, and software engineering to ensure system data informs operational excellence and continuous improvement.

• Verification, Validation & Field Readiness
  • Own end-to-end verification and validation of complex systems - environmental testing, networking performance, shock/vibration tolerance, compute performance, and safety response times.
  • Build and maintain comprehensive test plans, including automated test suites for safety-critical components and continuous regression coverage.
  • Validate system behavior under extreme physical, environmental, and operational conditions - ensuring field readiness long before customer deployment.
  • Maintain complete validation documentation to support regulatory compliance, partner integration, and customer trust.

Basic Qualifications

• Bachelor's degree in Systems Engineering, Mechanical/Electrical Engineering, Robotics, or a related technical field.
• 7+ years of systems engineering experience, including responsibility for safety-critical or mission-critical systems.
• Proven experience with hazard analysis methodologies (FMEA, FTA, HAZOP) and safety-critical decision pathways.
• Strong background in hardware/software integration, systems architecture, and multi-domain engineering trade-offs.
• Experience defining system-level requirements and driving alignment across hardware, firmware, autonomy, and software teams.
• Experience with verification & validation of complex systems - environmental, mechanical, networking, or compute.
• Strong communication skills - able to influence engineers, TPMs, TLs, managers, and external partners.
• Demonstrated ability to drive cross-functional initiatives, resolve ambiguity, and deliver systems that work in real-world conditions.

Preferred Qualifications

• Master's degree in Systems Engineering or related field.
• Professional certifications (CSEP, INCOSE) or functional safety certifications.
• Experience with autonomous systems, robotics, or heavy industrial equipment.
• Knowledge of functional safety standards (ISO 13849, IEC 61508, ISO 26262, or analogous frameworks).
• Experience designing or validating emergency stop systems, safety relays, or fail-safe control pathways.
• Experience with test automation frameworks or hardware-in-the-loop (HIL) testing.
• Background in manufacturing, industrial control, or real-world fielded systems.
• Program management experience or partnership with TPMs and TLs.

How you'll stand out

• You bring holistic systems thinking - architecture, requirements, safety, and field reality - into every decision.
• You influence design across hardware, autonomy, firmware, and software through deep technical judgment and clarity of reasoning.
• You understand that safety is not a feature - it is an architecture.
• You enjoy diving deep into complex, multi-domain systems while stepping back to define long-term architectural direction.
• You bring order to ambiguity, rigor to safety decisions, and clarity to engineering teams moving fast under field pressure.

What we offer

• The opportunity to define the safety and systems architecture for a first-of-its-kind autonomous platform.
• A high-impact role with visibility across engineering, product, OEM partners, and global deployments.
• Significant autonomy, ownership, and influence over the future of AIM's system-level engineering.
• Competitive compensation, equity, full benefits, and global travel opportunities to deployment sites.
• The chance to build systems that directly transform how the world builds.