Robotics/UAS Project Engineer
About the role
We believe people should love what they do. In this role you will be responsible for:
- Architecting, leading, and executing the integration of UAS platforms with mission-critical subsystems—including automated target recognition (ATR), navigation and control algorithms, communication systems, and diverse payloads.
- Developing highly innovative solutions that enable seamless interoperability across hardware, software, autonomy, and mission-system components.
- Leading end-to-end integration activities that bring together third-party sensors, autonomy modules, onboard computing, and communication links to transform baseline UAS into complete mission-ready systems.
- Overseeing the development and integration of advanced mission payloads, including EO/IR and AI-enabled perception systems, ensuring compatibility with onboard processing, data pathways, and vehicle command-and-control.
- Directing the implementation and tuning of navigation, guidance, and control algorithms, resilient navigation approaches, and closed-loop system validation.
- Managing system-level communications integration, ensuring robust data links, network interoperability, and compliance with operational and security requirements.
- Establishing and refining integration processes, technical standards, and system verification strategies for complex UAS mission architectures.
- Leading simulation-based system validation, including high-fidelity modeling of autonomy, sensor performance, communication networks, and mission workflows to reduce risk prior to flight testing.
- Conducting sophisticated diagnostics and root-cause analyses across mechanical, electrical, software, and algorithmic domains to rapidly resolve integration challenges.
- Providing technical leadership in cross-functional design reviews and ensuring alignment of mission requirements, system architecture, and verification plans across all UAS subsystems.
- Mentoring engineering staff, guiding technical development roadmaps, and serving as a senior technical liaison with customers, leadership, and multidisciplinary partners.
Responsibilities
Apply advanced technical principles, theories, and concepts to architect, lead, and execute the integration of UAS platforms with mission-critical subsystems—including automated target recognition (ATR), navigation and control algorithms, communication systems, and diverse payloads.
Work on complex technical problems and develop highly innovative solutions that enable seamless interoperability across hardware, software, autonomy, and mission-system components.
Lead end-to-end integration activities that bring together third-party sensors, autonomy modules, onboard computing, and communication links to transform baseline UAS into complete mission-ready systems.
Oversee the development and integration of advanced mission payloads, including EO/IR and AI-enabled perception systems, ensuring compatibility with onboard processing, data pathways, and vehicle command-and-control.
Direct the implementation and tuning of navigation, guidance, and control algorithms, resilient navigation approaches, and closed-loop system validation.
Manage system-level communications integration, ensuring robust data links, network interoperability, and compliance with operational and security requirements.
Establish and refine integration processes, technical standards, and system verification strategies for complex UAS mission architectures.
Lead simulation-based system validation, including high-fidelity modeling of autonomy, sensor performance, communication networks, and mission workflows to reduce risk prior to flight testing.
Conduct sophisticated diagnostics and root-cause analyses across mechanical, electrical, software, and algorithmic domains to rapidly resolve integration challenges.
Provide technical leadership in cross-functional design reviews and ensure alignment of mission requirements, system architecture, and verification plans across all UAS subsystems.
Mentor engineering staff, guide technical development roadmaps, and serve as a senior technical liaison with customers, leadership, and multidisciplinary partners.
Requirements
B.S. in Robotics, Mechatronics, Aerospace Engineering, or related field; 18 years of experience in UAS system integration, mission-system development, and validation.
M.S. in Robotics, Mechatronics, Aerospace Engineering, or related field; 20 years of experience in UAS system integration, mission-system development, and validation preferred.
Demonstrated expertise applying advanced engineering principles to develop highly innovative solutions for complex unmanned system integration challenges.
Proven leadership in integrating UAS with advanced subsystems such as ATR systems, onboard AI/ML modules, navigation and control algorithms, communication architectures, and mission payloads.
Extensive experience with embedded systems, onboard computing, middleware, and hardware/software co-design for mission-critical UAS applications.
Strong proficiency in autonomy frameworks (ROS/ROS2, PX4, ArduPilot), including customization, tuning, and algorithm integration.
Deep understanding of modeling, simulation, virtual testing, and hardware-in-the-loop validation methods for autonomy, sensor processing, and mission execution.
Significant experience managing flight-test operations, system evaluations, data analysis, and verification/validation across multi-sensor, multi-domain UAS configurations.
Ability to influence technical direction, drive architectural decisions, and communicate complex system interactions to executive stakeholders, customers, and engineering teams.
Possesses or has ability to obtain a Secret level security clearance.
Qualifications
B.S. in Robotics, Mechatronics, Aerospace Engineering, or related field; 18 years of experience in UAS system integration, mission-system development, and validation.
M.S. in Robotics, Mechatronics, Aerospace Engineering, or related field; 20 years of experience in UAS system integration, mission-system development, and validation preferred.
Demonstrated expertise applying advanced engineering principles to develop highly innovative solutions for complex unmanned system integration challenges.
Proven leadership in integrating UAS with advanced subsystems such as ATR systems, onboard AI/ML modules, navigation and control algorithms, communication architectures, and mission payloads.
Extensive experience with embedded systems, onboard computing, middleware, and hardware/software co-design for mission-critical UAS applications.
Strong proficiency in autonomy frameworks (ROS/ROS2, PX4, ArduPilot), including customization, tuning, and algorithm integration.
Deep understanding of modeling, simulation, virtual testing, and hardware-in-the-loop validation methods for autonomy, sensor processing, and mission execution.
Significant experience managing flight-test operations, system evaluations, data analysis, and verification/validation across multi-sensor, multi-domain UAS configurations.
Ability to influence technical direction, drive architectural decisions, and communicate complex system interactions to executive stakeholders, customers, and engineering teams.
Possesses or has ability to obtain a Secret level security clearance.
Skills
Advanced technical principles, theories, and concepts for UAS platform integration.
Development and innovation of highly innovative solutions for complex unmanned system integration challenges.
Leadership in integrating UAS with advanced subsystems such as ATR systems, onboard AI/ML modules, navigation and control algorithms, communication architectures, and mission payloads.
Embedded systems, onboard computing, middleware, and hardware/software co-design for mission-critical UAS applications.
Customization, tuning, and algorithm integration in autonomy frameworks (ROS/ROS2, PX4, ArduPilot).
Modeling, simulation, virtual testing, and hardware-in-the-loop validation methods for autonomy, sensor processing, and mission execution.
Management of flight-test operations, system evaluations, data analysis, and verification/validation across multi-sensor, multi-domain UAS configurations.
Influence technical direction, drive architectural decisions, and communicate complex system interactions to executive stakeholders, customers, and engineering teams.
Benefits
Flexible Work Schedules
Education Assistance
Career Development & Training Opportunities
Wellness Program (including Fitness Reimbursement)
Medical, Dental, Vision & 401(K) with Company Funding
Paid Parental Leave
Pay
$165,700 - $254,900 per year
Schedule
Full-time