Senior Firmware Engineer
The world's shipping fleets burn the dirtiest fuel on Earth and coat their hulls with biotoxins to slow biofouling. Fleet Robotics is building the robots that will mitigate both problems.
The Short Version
Fleet Robotics builds autonomous robots that walk on steel structures using electropermanent magnets. We're a small team doing hard technical work at the intersection of autonomy, climate work, marine systems, and novel adhesion technology. We're looking for a firmware engineer who wants to own a complex production codebase that spans multiple domains.
What Our Robot Does
Our robot is a biped that adheres to steel structures (e.g. large marine vessels) using electropermanent magnets (EPMs): solid state magnets that are switched electrically and hold their state without power. A "step" is the atomic unit of locomotion: disengage one foot's EPMs, move, re-engage. Everything in the platform exists to execute that sequence reliably in field conditions.
The firmware spans multiple microcontroller targets communicating over CAN using a custom protocol. It handles motor control, EPM engagement, inertial sensing, and real-time step execution across two magnetically-adhered feet, and interfaces with a companion compute platform running our autonomy stack. The EPM subsystem manages adhesion control and sensing.
There are soft real-time constraints, custom protocols, hardware-specific memory layout requirements, and open problems that matter for safety and performance.
What You Would Own
You will be the primary firmware engineer on the team: managing real-time control firmware, motor coordination, EPM control and sensing, power management, and the boundary between firmware and the high-level autonomy system.
On day one, you will manage gaps in abort behavior, limitations in logging, challenges in stepping sequences, and timing workarounds used to address symptoms rather than root causes. In the medium term, you will own development of our next iteration of the robot as we enter into pilots with customers. In the long term, you will shape the firmware architecture as the robot evolves.
The Stack
Who Does Well Here
Backgrounds that could translate well: medical device firmware, automotive embedded systems, industrial automation, actuator hardware. Robotics experience is useful but not required. What matters is whether you think carefully about systems where firmware failure has physical consequences.
Qualifications
What to Expect from a Small Team
We're about fifteen people at the seed stage. Firmware decisions you make ship on the robot. There's no dedicated QA org and no siloed scope - you'll work closely with mechanical, electrical, and software engineers and need enough range to make good calls at those boundaries.
If you want a lot of formal structure early on, this probably isn't the right fit. If you want to build something real with a small team that moves fast, we'd like to talk.
We are open to relocation candidates.
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