At Rhoda AI, we're building the full-stack foundation for the next generation of humanoid robots — from high-performance, software-defined hardware to the foundational models and video world models that control it. Our robots are designed to be generalists capable of operating in complex, real-world environments and handling scenarios unseen in training. We work at the intersection of large-scale learning, robotics, and systems, with a research team that includes researchers from Stanford, Berkeley, Harvard, and beyond. We're not building a feature; we're building a new computing platform for physical work — and with over $400M raised, we're investing aggressively in the R&D, hardware development, and manufacturing scale-up to make that a reality.
We're looking for a Robotics Software Engineer to help develop and maintain the software that runs on our robots. You'll focus on integrating sensors and perception systems to enable robust operation in customer environments.
What You'll Do
Develop and maintain onboard software, including control, monitoring, and power management systems
Integrate and calibrate sensors (e.g., cameras, LiDAR, IMUs, depth sensors) with robot platforms
Implement interfaces for sensor-driven perception and task execution logic
Collaborate with research and product teams to deploy and run perception and control models reliably on hardware
Contribute to system reliability, fault detection, and recovery logic for robust real-world operation
Support bring-up and field testing of new hardware revisions and sensor configurations
What We're Looking For
3+ years of experience building software for robotic systems, embedded platforms, or perception systems
Experience with ROS, real-time systems, or embedded Linux development
Strong programming skills in C, Python, or Rust
Familiarity with networking, IPC, and system diagnostics for hardware-software systems
Ability to debug across the full stack — from driver-level issues to application behavior on live hardware
Nice to Have (But Not Required)
Experience with multi-sensor fusion and calibration
Experience deploying and monitoring software on edge devices or embedded compute platforms
Familiarity with teleoperation systems or remote robot control workflows
Exposure to learned perception or control models and their integration into real-time robot stacks
Why This Role
Your code runs on the robot — the software you write has a direct, physical impact on what our humanoids can do in the real world
Work at the boundary of hardware and AI, integrating state-of-the-art perception and control models onto real robotic systems
High ownership in a small, fast-moving team where your contributions shape how the next generation of humanoid robots operate in production environments
