Motion Planning and Controls Engineer

Maven RoboticsSan Francisco, CA

About The Position

Maven Robotics is building the world’s leading general-purpose AI robots. We are currently operating in stealth and are growing the world’s best team in AI robotics. We are looking for self-starters that are the world’s best in their field, who can innovate from a deep understanding of the fundamentals, and who share our values of unwavering truth seeking and integrity, humility, curiosity, and relentless determination. We are looking to recruit an exceptional Motion Planning & Controls Engineer to develop the software that brings our robot hardware to life, implementing planning and control algorithms that provide purposeful, performant, safe, reliable, and beautiful coordinated motion.

Requirements

  • MS or PhD in engineering, mathematics, computer science or a related discipline.
  • Experience in optimization-based motion planning and control algorithms such as Model Predictive Control.
  • Experience in control, estimation, modeling, and analysis of complex. multi-degree-of-freedom electromechanical systems, including forward/inverse kinematics, forward/inverse dynamics, and task/joint space control.
  • Practical experience with motor servo control (position/velocity/torque control) architectures and tuning.
  • Proficiency in Python and C++ programming, using up-to-date software development practices and tooling.
  • Self-starter attitude with strong ability to identify problems, prioritize them, then plan and execute working solutions.
  • Enthusiasm for working in a fast paced startup environment and eagerness to support the team on a variety of topics.

Nice To Haves

  • Familiarity with ground vehicle localization, mapping, and state estimation techniques (e.g. SLAM, Kalman filtering).
  • Familiarity with robotic simulation software frameworks/environments.
  • Familiarity with modern approaches to robotic manipulation, including state-of-the-art reinforcement learning (RL) and imitation learning (IL) approaches and their application to real-world robots.
  • Knowledge of brushless motor current control (e.g. field-oriented control).
  • Familiarity with functional safety (FuSa) concepts.

Responsibilities

  • Cover the entire software stack that governs robot motion, from optimization-based motion planning and control for an overactuated autonomous system, down to individual motor torque control (and everywhere in between).
  • Utilize deep expertise in and intuition for complex, high degree-of-freedom electromechanical systems.
  • Employ a true multi-disciplinary mindset, bridging mechanical, electrical, software, and systems engineering domains to solve real-world problems.
  • Interface with perception, intelligence, simulation, and platform software systems in designing thoughtful functional architectures that ensure world-class overall robot system performance.
  • Have an unrelenting drive to achieve exceptional motion quality via continual test, measurement, analysis, and improvement.
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