Senior Robotics Software Engineer, Motion Planning
About The Position
We are seeking a Senior Robotics Software Engineer, Motion Planning to join the AI Research team in the Autonomous Robotics Center (ARC). In this role, you will own the motion planning and collision avoidance capabilities for manufacturing manipulation systems—from planning scene representation and collision checking to planner configuration, runtime performance, and safe recovery behaviors. ARC’s AI Research team is building end-to-end robot policies that enable dexterous manipulation in real-world manufacturing environments. We advance embodied AI by integrating multimodal perception, robot learning architectures, and physical robotic systems to solve manipulation, autonomy, and simulation challenges at industrial scale.
Requirements
- B.S. or M.S. in Robotics, Computer Engineering, Computer Science, or a related field.
- 5+ years of experience developing motion planning and collision avoidance systems for robotic manipulators, with deployment exposure in real-world workcells.
- Strong programming experience in C++ and/or Python with solid software engineering practices in multi-module robotics systems.
- Hands-on experience with planning frameworks and collision-checking concepts (e.g., MoveIt planning scene, collision world, planner interfaces).
- Experience integrating planning systems with controllers and execution layers, including trajectory execution, controller configuration, and runtime monitoring.
- Strong hardware debugging skills including logging, root cause analysis, and systematic performance tuning.
Nice To Haves
- Production experience with ROS 2 and MoveIt2, including planning scene updates and controller integration.
- Experience working in dynamic environments (moving obstacles, human-aware constraints) and integrating safety considerations.
- Familiarity with industrial robotics integration patterns, including PLC interfaces, safety-rated stops, and cell interlocks.
- Experience developing integration or system tests for multi-node robotics systems.
Responsibilities
- Own planning scene and collision-checking integration for robotic manipulation workcells, including robust world modeling updates and constraint handling.
- Develop and tune motion planning pipelines (e.g., OMPL-based sampling planners and/or trajectory optimization approaches) to improve success rate, cycle time, and recovery robustness.
- Define collision avoidance strategies and performance guardrails, including discretization tolerances, validation thresholds, safety buffers, and regression criteria.
- Integrate trajectory generation with low-level controllers and execution systems, ensuring correct interfaces for joint trajectories, gripper actions, and execution monitoring.
- Build reliable recovery behaviors for plan or execution failures, including re-planning strategies, safe retreat logic, and consistent fault reporting for downstream analysis.
- Partner closely with AI/ML and validation teams to define upstream and downstream interface contracts and translate field failures into continuous planning improvements.
Benefits
- From day one, we're looking out for your well-being–at work and at home–so you can focus on realizing your ambitions. Learn how GM supports a rewarding career that rewards you personally by visiting Total Rewards resources.
Stand Out From the Crowd
Upload your resume and get instant feedback on how well it matches this job.
What This Job Offers
Job Type
Full-time
Career Level
Senior
Number of Employees
5,001-10,000 employees
