Job Description: We are seeking a highly motivated and experienced software engineer to architect and scale our Infrastructure & Mission Control software stack. In this role, you will be a key contributor to the "brains" of our systems, bridging the gap between high-level autonomy and low-level flight execution.
Requirements:
Job Description: We are seeking a highly motivated and experienced software engineer to architect and scale our Infrastructure & Mission Control software stack. In this role, you will be a key contributor to the "brains" of our systems, bridging the gap between high-level autonomy and low-level flight execution. You will own, develop, and optimize critical features across two main pillars: Mission Control: Building our Ground Control Station (GCS), mission computer stacks, autonomy co-pilots, and safety-critical flight control integrations. Infrastructure: Developing high-fidelity UAV simulations for deterministic testing, cloud-based telemetry analysis, and robust CI/CD pipelines for hardware-in-the-loop (HITL) validation. In this position, you will work in close collaboration with cross-functional teams such as Vision & GNC, Systems Engineering, Flight Operations, and Product, to deliver reliable, scalable, and operationally effective software. Responsibilities: Mission Logic & C2: Architect ground and airborne mission logic to support complex autonomous operations. HMI Excellence: Develop performant, low-latency, and intuitive Human-Machine Interfaces (HMI) for Real-Time UAV command and control. Flight Stack Integration: Deeply integrate with flight control software to ensure seamless telemetry and command execution. Simulation & Validation: Build and maintain SITL/HITL infrastructure (utilizing tools like Unreal Engine or Gazebo) to ensure system determinism across hardware iterations. Embedded & Real-Time : Develop the Embedded software stack, including Hardware Abstraction Layers and Real-Time application logic. Protocol Design: Design and optimize robust communication protocols (e.g., MAVLink, Protobuf) for Real-Time data exchange over serial and wireless links. Requirements: B.Sc./M.Sc. in CS, EE, or a related field with 5+ years of experience in Real-Time Embedded C / C ++ and complex distributed systems. Proficiency in ARM architecture / bare-metal and Linux environments, multi-threading, and low-level hardware protocols (SPI, I2C, CAN). Skilled in engineering for performance-critical, memory-constrained environments while ensuring strict system determinism. Strong command of OOP design patterns and scalable architecture for Mission Control, C2 systems, and Python -based backends. Advanced skills in hardware-software integration, protocol analysis (MAVLink/Protobuf), and complex log-based forensic debugging. Proven experience with UAV simulation (SITL/HITL), low-latency telemetry, or edge device development using modern frameworks ( React /Vue). Advantages: Hands-on experience with ArduPilot, PX4, or the ROS/ROS2 stack. Deep knowledge of the MAVLink protocol and serial communication (UART/UDP/TCP). Experience with RTOS, Embedded C ++17/20, or safety-critical software standards. Send your CV to: [email protected]
Job Description: We are seeking a highly motivated and experienced software engineer to architect and scale our Infrastructure & Mission Control software stack. In this role, you will be a key contributor to the "brains" of our systems, bridging the gap between high-level autonomy and low-level flight execution. You will own, develop, and optimize critical features across two main pillars: Mission Control: Building our Ground Control Station (GCS), mission computer stacks, autonomy co-pilots, and safety-critical flight control integrations. Infrastructure: Developing high-fidelity UAV simulations for deterministic testing, cloud-based telemetry analysis, and robust CI/CD pipelines for hardware-in-the-loop (HITL) validation. In this position, you will work in close collaboration with cross-functional teams such as Vision & GNC, Systems Engineering, Flight Operations, and Product, to deliver reliable, scalable, and operationally effective software. Responsibilities: Mission Logic & C2: Architect ground and airborne mission logic to support complex autonomous operations. HMI Excellence: Develop performant, low-latency, and intuitive Human-Machine Interfaces (HMI) for Real-Time UAV command and control. Flight Stack Integration: Deeply integrate with flight control software to ensure seamless telemetry and command execution. Simulation & Validation: Build and maintain SITL/HITL infrastructure (utilizing tools like Unreal Engine or Gazebo) to ensure system determinism across hardware iterations. Embedded & Real-Time : Develop the Embedded software stack, including Hardware Abstraction Layers and Real-Time application logic. Protocol Design: Design and optimize robust communication protocols (e.g., MAVLink, Protobuf) for Real-Time data exchange over serial and wireless links. Requirements: B.Sc./M.Sc. in CS, EE, or a related field with 5+ years of experience in Real-Time Embedded C / C ++ and complex distributed systems. Proficiency in ARM architecture / bare-metal and Linux environments, multi-threading, and low-level hardware protocols (SPI, I2C, CAN). Skilled in engineering for performance-critical, memory-constrained environments while ensuring strict system determinism. Strong command of OOP design patterns and scalable architecture for Mission Control, C2 systems, and Python -based backends. Advanced skills in hardware-software integration, protocol analysis (MAVLink/Protobuf), and complex log-based forensic debugging. Proven experience with UAV simulation (SITL/HITL), low-latency telemetry, or edge device development using modern frameworks ( React /Vue). Advantages: Hands-on experience with ArduPilot, PX4, or the ROS/ROS2 stack. Deep knowledge of the MAVLink protocol and serial communication (UART/UDP/TCP). Experience with RTOS, Embedded C ++17/20, or safety-critical software standards. Send your CV to: [email protected]
This position is open to all candidates.
