Strategic & Technical Leadership** + Define and execute the technical vision for AI-enabled autonomous systems with an emphasis on physical system realization and field transition + Lead development of integrated autonomy architectures spanning mechanical systems, sensing, controls, embedded compute, and AI/ML stacks + Translate sponsor mission needs into engineered robotic systems and deployable autonomy capabilitiesEstablish digital twin and physical prototyping capabilities that accelerate system validation and transition **Mechanical Engineering & Robotic System Development** + Lead mechanical design and integration of robotic platforms including: + Structural systems + Actuation and mobility subsystems + Power distribution and thermal management + Payload integration and sensor mounting architectures + Engineer robotic embodiments capable of operating in austere and mission-relevant environments + Develop modular hardware architectures to enable rapid prototyping and mission reconfiguration + Oversee fabrication, assembly, integration, and validation of robotic platforms + Conduct system-level trade studies balancing weight, power, compute, and autonomy performance **Autonomy & AI Integration** + Design and implement end-to-end autonomy stacks integrating: + Perception (EO/IR, LiDAR, IMU, multi-modal fusion) + State estimation and navigation + Planning and decision-making + Controls and low-level actuation + Deploy advanced ML architectures onto edge and embedded hardware platforms (e.g., NVIDIA Jetson-class devices) + Optimize models for real-time, low-latency operation within power- and compute-constrained robotic systems + Develop scalable MLOps pipelines tailored for robotics environments **Digital Twin & Test Infrastructure Development** + Architect and implement high-fidelity digital twin environments for robotic systems using simulation platforms such as Omniverse, Isaac Sim, Unreal, or equivalent + Establish software-in-the-loop (SIL), hardware-in-the-loop (HIL), and human-in-the-loop testing frameworks + Design hybrid physical/digital experimentation workflows linking lab hardware with simulation-based validation + Develop robotic laboratories and autonomy experimentation facilities capable of supporting multi-domain platforms + Build data pipelines for synchronized physical and simulated experimentation + Enable rapid iteration between simulated and real-world deployments **Systems Engineering, Test & Evaluation** + Lead requirements definition, verification, validation, and accreditation (VV&A) + Execute Test & Evaluation (T&E) for fieldable systems under sponsor constraints + Conduct performance characterization of mechanical, electrical, and autonomy subsystems + Ensure systems meet safety, cybersecurity, and compliance requirements for defense applications + Lead integration and demonstration efforts during on-site DoD test events **Research, Funding & Mentorship** + Shape internal R&D investments in robotic autonomy and physical AI systems + Author and contribute to proposals, journal publications, technical reports, and patent disclosures + Sustain and grow sponsor-funded programs + Mentor junior engineers in mechanical design, robotics integration, and autonomy development + Advise leadership on emerging technologies in embodied AI and autonomous systems **This position is based in Richland, WA and requires onsite engagement with robotic laboratories and hardware development environments.** **Qualifications** Minimum Qualifications: + BS/BA and 9+ years of relevant work experience -OR- + MS/MA and 7+ years of relevant work experience -OR- + PhD with 5+ years of relevant experience Preferred Qualifications: + Core Technical Depth + Demonstrated experience designing and deploying integrated robotic systems + Strong background in mechanical system design for mobile or fieldable platforms + Experience developing and validating digital twins of physical robotic systems + Expertise in autonomy stack integration across hardware and software layers + Experience with embedded systems and edge AI optimization + Proficiency in Python and modern C++ Experience with ROS/ROS2 and robotics middleware + Testbed & Infrastructure Development + Experience building robotic laboratories or autonomy experimentation facilities + Experience implementing SIL/HIL frameworks + Experience integrating COTS embedded compute platforms (Jetson, Raspberry Pi, M.2 accelerators) + Experience generating and scaling datasets through simulation engines (Omniverse, Isaac Sim, Unreal, Blender) + Research & Field Deployment + Sustained experience in autonomous systems R&D + Experience transitioning research systems into operational environments + Record of peer-reviewed publications or juried conference presentations + Experience working with federal sponsors, particularly within defense or national security missions + Knowledge of security and compliance requirements for fielded autonomous systems **Hazardous Working Conditions/Environment** Not applicable. **Rockstar Rewards** Employees and their families are offered medical insurance, dental insurance, vision insurance, robust telehealth care options, several mental health benefits, free wellness coaching, health savings account, flexible spending accounts, basic life insurance, disability insurance*, employee assistance program, business travel insurance, tuition assistance, relocation, backup childcare, legal benefits, supplemental parental bonding leave, surrogacy and adoption assistance, and fertility support.