Advanced Robotics Controls Engineer, Frontier AI & Robotics

Amazon•San Francisco, CA

About The Position

We are seeking a highly skilled Mechatronics or Controls Engineer with deep expertise in actuation systems, low-level motor control, sensor integration and system characterization to help design, prototype, and refine high degree-of-freedom robotic systems. You will be a core contributor in the hardware–software integration loop, ensuring that our systems meet strict performance, safety, and research requirements. This role demands a blend of rigorous engineering skill, hands-on prototyping ability, and close collaboration with AI researchers and software engineers. Beyond day-to-day hardware and software development, this role also provides exciting avenues to contribute to innovative research projects. Whether you’re passionate about low-level control, state estimation, sensor fusion, or innovative actuation techniques, this role offers opportunities to explore research directions while shaping the core control stack that drives high–degree-of-freedom humanoid robots.

Requirements

Experience in automating, deploying, and supporting large-scale infrastructure
Master’s or PhD in Controls Engineering, Mechanical Engineering, Robotics, or a related field
3+ years of relevant industry experience
Knowledge of actuator and control system implementation
Experience with embedded firmware for control applications
Familiarity with robotic system calibration
Understanding of control theory and kinematics fundamentals
Experience with basic sensor integration (encoders, force-torque sensors)

Nice To Haves

Experience with distributed systems at scale
Experience with high-DOF robotic systems.
Experience developing inverse kinematics (IK) solvers, kinematic calibration, and running motion simulations (e.g. MuJoCo, IsaacSim, MATLAB/Simulink).
Experience producing models and simulations of complex, high degree-of-freedom dynamic electromechanical systems and actuators
Ability to spec or design force/torque sensors, or develop algorithms for estimating forces from motor currents for compliance and collision handling.
Ability to implement and tune inverse kinematics and dynamics algorithms; build and run simulations for system performance validation and motion planning
Specify, source, or design force–torque sensing capabilities, including developing algorithms for estimating forces from motor currents. Integrate sensing into system-level control strategies for collision response, compliance, and back-drivability
Proficiency in embedded firmware development for real-time control
Knowledge of estimating and improving actuator back-drivability
Knowledge of ROS/ROS 2 or similar robotic middleware.
Experience with programming languages like C++, Python, MATLAB
Experience with high-performance, safety-critical mechatronic systems.

Responsibilities

Implement and test motor & actuator integration into electromechanical subsystems according to specifications
Support the development and tuning of control systems, including position, velocity, and torque control loops
Assist with interfacing control systems with higher-level platforms
Help maintain motor control board hardware and firmware
Execute established SysID routines for electromechanical subsystems; implement calibration procedures for sensors and actuators
Ensure actuator and control systems adhere to safety and robustness requirements
Collaborate with mechanical, electrical, and AI teams to prototype hardware solutions

Benefits

health insurance (medical, dental, vision, prescription, Basic Life & AD&D insurance and option for Supplemental life plans, EAP, Mental Health Support, Medical Advice Line, Flexible Spending Accounts, Adoption and Surrogacy Reimbursement coverage)
401(k) matching
paid time off
parental leave

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