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Motion Planning and Controls Engineer

Maven Robotics
Posted 5 months ago, valid for 20 days
Location

San Francisco, CA 94102, US

Salary

Competitive

Contract type

Full Time

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Sonic Summary

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  • Maven Robotics is seeking a Motion Planning & Controls Engineer to develop software for their AI robots, focusing on optimizing motion planning and control algorithms.
  • Candidates should have a Master's or PhD in engineering, mathematics, computer science, or a related field, along with experience in optimization-based motion planning and control algorithms.
  • The role requires proficiency in Python and C++ programming, as well as practical experience with motor servo control and multi-degree-of-freedom electromechanical systems.
  • Ideal candidates are self-starters with a strong problem-solving mindset, enthusiasm for a fast-paced startup environment, and a commitment to achieving exceptional motion quality.
  • While the salary is not specified, applicants should have relevant expertise and experience to contribute effectively to the team.

Company Overview

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.

Role Description

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.

In this role you will:

  • 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.

Qualifications

Must-have:

  • 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-have:

  • 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.



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