As a member of the State Estimation team, you will conduct software development at the intersection of classical state estimation techniques, sensor fusion, artificial intelligence, machine learning, and machine perception. You will develop cutting-edge technology that provides robust and accurate estimates of vehicle pose and surroundings at all times in virtually any environment by fusing sensor data from noisy disparate sources.
What you'll do
Research and develop world-class state estimation algorithms and techniques
Write production quality software in C++
Write test code to validate your software
Collaborate with hardware and test teams to validate your algorithms/code on aerial robots
Write analyzers to ingest data and produce statistics to validate code quality
Enhance sensor models within a state-of-the-art simulation environment
Work in a fast-paced, collaborative, continuous development environment, enhancing analysis and benchmarking capabilities
Required qualifications
M.S. in Aerospace Engineering, Electrical Engineering, Robotics, Computer Science or related quantitative science with 7+ years of professional experience in state estimation, perception, or similar robotics field
Typically requires a minimum of 7 years of related experience with a Bachelor's degree; or 6 years and a Master's degree; or 4 years with a PhD; or equivalent work experience.
Proficient with sensor fusion for noisy high-bandwidth exteroceptive sensors on compute-constrained systems
Experience prototyping a feature in a high-level language like Python/MATLAB and transitioning it to production code
A solid foundation in theory related to controls, state estimation, probabilistic robotics, computer vision, and signal processing
Solid experience working in a collaborative development environment including continuous integration and delivery
A demonstrated record of working hard, being a trustworthy teammate, holding yourself and others to high standards, and being kind to others
Preferred qualifications:
Familiarity with high-fidelity simulation and sensor modeling
Shipped production grade code for an aerial platform