Robotics Navigation Engineer
Full Time
|
Boston, MA
|
ndimensions labs
AI Engineer – Robotics Navigation
About Ndimensions Labs
At Ndimensions, we're inventing the infrastructure for next-generation robotics AI systems. Our robots need to understand, map, and move through complex real-world environments with precision and intelligence.
We're looking for an AI Engineer focused on Robotics Navigation to push the boundaries of how autonomous systems perceive and traverse their environments. You'll research and implement novel approaches to SLAM, path planning, and spatial reasoning, combining classical robotics techniques with modern AI methods to solve navigation problems that don't yet have good solutions.
What You'll Do
Design and implement state-of-the-art SLAM systems (visual, LiDAR, and multi-sensor fusion) for real-time mapping and localization in dynamic environments
Develop novel navigation algorithms that combine learned representations with geometric reasoning for robust autonomous movement
Research and prototype new approaches to spatial understanding, including neural implicit representations, foundation model-based scene understanding, and learned cost maps
Build and optimize path planning and motion planning pipelines that operate under real-time constraints on robotic hardware
Integrate navigation systems with perception, manipulation, and high-level task planning modules
Design experiments and benchmarks to evaluate navigation performance across diverse environments and conditions
Deploy and validate navigation stacks on physical robots, iterating rapidly between simulation and real-world testing
What We're Looking For
Strong background in robotics navigation, SLAM, and autonomous systems with demonstrated research or engineering contributions
Deep understanding of traditional SLAM and navigation fundamentals, including:
Graph-based optimization
Factor graphs
Loop closure
Occupancy grids
Costmaps
Multi-sensor fusion (camera, IMU, LiDAR, and depth sensors)
Experience applying AI and learning-based approaches to navigation problems, such as:
Learned cost maps
Neural SLAM
End-to-end navigation policies
Foundation model-driven spatial reasoning
Strong working knowledge of the ROS/ROS2 ecosystem, including Nav2, move_base, tf2, and common navigation stacks
Proficiency in C++ and Python for real-time robotics software development
Experience implementing and deploying navigation systems on physical robots, not just in simulation
Strong foundation in linear algebra, optimization, probabilistic inference, and 3D geometry
Ability to read, reproduce, and extend results from recent research papers while developing novel algorithmic approaches
Master's or PhD in Robotics, Computer Science, or a related field, or equivalent industry experience
Bonus Qualifications
Publications in leading robotics or computer vision venues, including ICRA, IROS, RSS, CoRL, CVPR, or NeurIPS
Experience with neural SLAM, NeRF- or Gaussian Splatting-based mapping, or learned navigation policies
Familiarity with exploration and active perception strategies for unknown environments
Experience with multi-robot coordination and distributed mapping systems
Background in reinforcement learning or imitation learning applied to navigation tasks
How to Apply
We're looking for researchers and engineers who want to define how the next generation of robots will navigate and understand the world.
Apply using LinkedIn Easy Apply or email your resume to:
Please include links to relevant work, such as papers, repositories, or demos, with your application.
For engineers
Get matched with radiance field roles
Share your background and we’ll connect you with companies hiring for Gaussian splatting & NeRF — sometimes before roles are even posted.
We only share your details with companies you’d be a fit for.


