Robotics Software Engineer – Robot Integrations at Field AI – Irvine, California

Field AI is building the future of autonomy—from rugged terrain to real-world deployment. We’re on a mission to develop intelligent, adaptable robotic systems that operate beyond simulation and thrive in unpredictable environments.

As our Robotics Software Engineer – Robot Integrations, you’ll lead the integration of new robotic platforms into our software stack and help make them reliable, controllable, and deployment-ready. You’ll develop and maintain robot drivers and interfaces spanning state, sensing, actuation, and control, while improving the performance and responsiveness of robots across a range of platforms.

This role sits at the intersection of robotics software, controls, and systems integration. You’ll work closely with hardware and software platform teams to bring up new robots, improve existing integrations, and ensure our systems perform robustly in the lab and in the field.

If you enjoy working directly with real robots, solving full-stack integration challenges, and turning complex hardware into dependable, high-performing systems, this is your role. This is Field AI.

• Bring up and integrate robotic platforms into Field AI’s software stack.

• Develop and maintain robot drivers and interfaces for sensing, state, command, and control.

• Build reusable integration patterns that support multiple robot types, including legged, wheeled-legged, wheeled, and humanoid systems.

• Work across vendor SDKs, middleware, and internal software abstractions to create robust platform support.

• Design and improve software components for robot state, calibration, timing, diagnostics, and control paths.

• Maintain reliable interfaces between onboard compute, sensors, actuators, and higher-level autonomy software.

• Debug issues across software, networking, hardware communication, and system configuration boundaries.

• Improve maintainability, observability, and robustness of robot integration infrastructure.

• Profile end-to-end system performance from perception and state updates through command execution.

• Tune and refine control strategies to improve stability, responsiveness, and overall controllability.

• Analyze telemetry and on-robot behavior to identify bottlenecks and drive meaningful performance improvements.

• Help ensure each platform achieves strong motion quality and dependable real-world behavior.

• Partner closely with hardware teams during bring-up, validation, and troubleshooting of new robotic platforms.

• Work with software platform teams to improve tooling, deployment workflows, abstractions, and testing infrastructure.

• Support structured validation from bench testing to full robot trials.

• Contribute to best practices for integration, regression testing, and long-term platform support.