Sr. Controls Engineer

Who We Are:

Aurelius Systems is a VC backed defense tech startup building autonomous, edge deployed robotics systems using directed energy for counter-UAS.

We build laser weapons to shoot down drones.

We're a small team of ~10 engineers, former US military operators, and subject matter experts scaling America's directed energy dominance. The first cost effective, reliable and robust laser weapon system.

Our namesake isn't an accident. Marcus Aurelius wrote about doing the work in front of you, every day, without excuses. Henry Ford didn't wait for permission to reinvent manufacturing. That's how we operate; small team, unreasonable output, no hiding behind the unachievable.

In addition to our San Francisco lab/office, we opened our Detroit manufacturing hub and we field test weekly on our own 400-acre private range.

The Role & Your Impact

You'll own the precision motion stack that puts a laser on a drone.

The critical gap we're hiring for is a hand -on robotics controls engineer who can iterate fast on real hardware. Someone who can take a model, get it on the hardware, characterize what's actually happening, and tighten the loop. You think in Bode plots and step responses.

This is a senior IC role on the controls side. You'll own the architecture and tuning of the precision pointing and tracking control loops, the state estimation behind them, and the closed loop integration with the tracker.

What You'll Own

• Architecture and tuning of the precision pointing and tracking control loops

• Closed loop tracking from sensor input through actuator command at hundreds of Hz

• State estimation across IMU, encoder, and vision based feedback (Kalman filters, complementary filters, sensor fusion)

• System identification and modeling of the gimbal, mount, and actuator dynamics

• Actuator tuning, gain scheduling, and compensation for nonlinearities (backlash, friction, saturation)

• Resonance characterization, notch filtering, and structural compensation

• Simulation infrastructure for controls development

• Hardware-in-the-loop test infrastructure for controls validation

• Field characterization of the system against real targets at the range

• Author controls documentation and tuning standards

What We're Looking For

• 4+ years of experience in robotics

• Strong knowledge of fundamentals: classical controls, state space, LQR, MPC

• Proven simulation experience and a track record of managing the sim-to-real gap on actual hardware

• Modern C++ for real time control implementation

• Python or MATLAB/Simulink for modeling, system ID, and analysis

• State estimation in practice (Kalman, EKF, UKF, complementary filters)

• System identification and frequency domain tuning

• Direct experience with motion control hardware — servo drives, brushless motors, encoders, IMUs

• Comfortable working at the seam between mechanical, electrical, and software

• Understanding of latency, jitter, and how they kill control loop performance

Not a fit if: Your controls experience is purely simulation, your real world tuning amounts to changing PID gains in a UI, or you've never had to characterize a resonance, model an actuator, or fight a sensor that lies to you. We need someone who's tuned hardware that fought back.

Nice-to-Haves

• Advanced MPC — nonlinear MPC, robust MPC, or real-time NMPC on resource constrained hardware

• Gimbal, beam director, or precision pointing system experience

• Aerospace, defense, or directed energy controls background

• Adaptive or robust control implementation in production

• Vision-in-the-loop control (visual servoing, image-based tracking)

• Hardware-in-the-loop simulation experience

• High bandwidth sensor pipelines (cameras, radar, IMUs at high rate)

• Prior work on a system that had to hit a moving target

Education

MS in Mechanical Engineering, Aerospace Engineering, Electrical Engineering, Robotics, or related field is the sweet spot. BS with strong hands-on robotics experience or PhD with a real shipping record both welcome.

How You Operate

• Extreme bias for action. You'd rather tune on hardware tomorrow than model it for a month

• Rigorous testing mindset. You characterize your own loops before the field does

• Comfortable with ambiguity and fast, constantly iterating in a startup environment

• Your brain only releases dopamine when you're building

• You debug from first principles

• Clear communicator across mechanical, electrical, optical, and software teams

• Self-directed. You identify what needs to happen next and do it without being told

Why Join Aurelius Systems?

• Build more in 1 month than most engineers build in 1 year. We field test weekly. Your work goes downrange, not into a filing cabinet.

• Career velocity is real. Erick Brito went from Founding Robotics Engineer to Lead in 12 months. At ~10 engineers, there are no layers between you and impact, or between you and your next title.

• Work on a problem that actually matters. Small, cheap drones are