Autonomy Engineer II - Robotics

Responsibilities 

 
• Autonomy & Path Planning 
• Design and develop autonomous navigation and mission planning systems for aerial robotic platforms. 
• Develop trajectory generation, path planning, and obstacle avoidance algorithms for dynamic environments. 
• Implement behavior planning, mission management, and autonomous decision-making frameworks. 
• Develop autonomous capabilities for waypoint navigation, target tracking, landing, and mission execution. 
• Evaluate and integrate state-of-the-art robotics and autonomy algorithms into operational systems. 
 

Software Development 

 
 

Develop production-quality software for autonomous robotic systems. 

Implement autonomy algorithms in real-time embedded and Linux-based environments. 

Optimize autonomy software for performance, reliability, and deployment on resource-constrained platforms. 

Contribute to software reviews, testing frameworks, and continuous integration processes. 

Hardware Integration & Flight Testing 

Integrate autonomy software with flight controllers, onboard computers, sensors, and communication systems. 

Support hardware bring-up, system integration, and debugging activities. 

Conduct software-in-the-loop (SITL), hardware-in-the-loop (HITL), and flight testing. 

Analyze flight test data and identify opportunities to improve autonomy performance. 

Collaborate with hardware and flight operations teams to support deployment and field testing. 

Education 

 
 

 

• Bachelor’s degree in Robotics, Computer Science, Aerospace Engineering, Electrical Engineering, Mechanical Engineering, or a related technical field. 

 

Experience 

 

• 2+ years of industry experience in robotics, autonomous systems, aerospace, or related fields. 

• Strong proficiency in C++ and Python. 

• Experience developing autonomy, navigation, or robotic control systems. 

• Strong understanding of motion planning, path planning, and autonomous decision-making algorithms. 

• Experience with robotics middleware such as ROS or ROS2. 

• Experience developing software in Linux environments. 

• Hands-on experience integrating software with robotic hardware systems and sensors. 

• Experience with simulation and testing frameworks for autonomous systems. 

• Experience with MATLAB and Simulink for algorithm development, modeling, and simulation. 

Preferred Qualifications 

 

• Master's degree or PhD in Robotics, Aerospace Engineering, Computer Science, or a related field. 

• Experience with autonomous aircraft, UAVs, drones, or eVTOL systems. 

• Experience with PX4, ArduPilot, or similar autopilot frameworks. 

• Experience developing autonomy for multicopters, VTOL aircraft, or fixed-wing platforms. 

• Knowledge of state estimation, localization, SLAM, and sensor fusion techniques. 

• Experience with trajectory optimization, model predictive control (MPC), or advanced planning algorithms. 

• Experience with NVIDIA Jetson, embedded Linux systems, or edge computing platforms. 

• Familiarity with Gazebo, Isaac Sim, AirSim, or other robotics simulation environments. 

• Experience supporting flight testing and operational deployments. 

 

Why Pivotal 

 

At Pivotal, you'll work on some of the most challenging problems in autonomy, perception, and intelligent aircraft systems. You'll have the opportunity to develop technologies that move rapidly from concept to flight testing and deployment, working alongside a multidisciplinary team of engineers pushing the boundaries of autonomous aviation. 

Attributes aligned with Core Values   

 


• Demonstrates a proactive safety mindset by embedding safety into daily operations, identifying and mitigating risks through assessments and training, encouraging open dialogue on safety concerns, and continuously improving protocols to ensure a safe work environment. 
• Puts customers at the center of every action by deeply understanding their challenges, delivering exceptional value, and striving to exceed expectations to support their success as our core purpose. 
• Actively seeks and values diverse stakeholder perspectives, builds cross-functional relationships, and fosters trust through empathetic, fact-based communication—committing to shared decisions for the greater good. 
• Drives results with clarity and purpose by focusing on what matters most, adapting to change, taking initiative, and owning outcomes while aligning actions with a clear understanding of success at every level. 
• Navigates ambiguity with resilience and bold thinking, challenges the status quo, and combines innovative ideas with practical best practices to overcome obstacles and drive progress. 
• Fosters a high-performance culture grounded in respect, professionalism, and support—balancing high expectations with a healthy, collaborative environment and being a trusted, dependable teammate.