About this role
Founded in 2015, Shield AI is a venture-backed defense-tech company with the mission of protecting service members and civilians with intelligent systems. Its products include Hivemind autonomy software and V-BAT and X-BAT aircraft. With offices and facilities across the U.S., Europe, the Middle East, and Asia-Pacific, Shield AI’s technology actively supports operations worldwide. For more information, visit www.shield.ai. Follow Shield AI on LinkedIn, X, Instagram, and YouTube.Â
Working in our Hivemind Solutions team you will lead the Modelling and Simulation capability for our Australian based Mission Autonomy programs. You will be responsible for developing and integrating the simulation and test environments which our autonomy engineers use to develop, test and demonstrate Mission Autonomy solutions for uncrewed aircraft.  In this role, you will guide multidisciplinary engineering teams in designing, implementing, and integrating high‑performance real-time and faster than real-time simulation frameworks across distributed, containerized, and hardware‑in‑the‑loop environments. Your work will directly support key customer programs, internal R&D, and mission‑critical autonomy development—ensuring our simulation ecosystem is robust, scalable, and operationally representative.Â
What you’ll do:Â
• Simulation Architecture Leadership – Lead the design and evolution of distributed, real‑time simulation systems that support autonomy development, verification, and validation across virtual, constructive, and live environments.Â
• High‑Performance Software Development – Architect and implement C++,  software for modelling, simulation, and integration workflows, while maintaining compatibility with legacy standards for seamless system interoperability.Â
• Real-Time & Distributed Simulation – Develop, optimize, and deploy software for real‑time mission execution environments, including multi‑agent scenarios and high‑fidelity system-of-systems simulations.Â
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• Simulation Framework Integration – Apply practical experience with defence simulation frameworks such as AFSIM or NGTS to accelerate capability delivery and ensure alignment with defence customer expectations.Â
• Containerized Deployment – Leverage Docker, Kubernetes or similar technologies to ensure repeatable, scalable, and modular simulation deployments across development, CI, and operational environments.Â
• Technical & Project Leadership – Lead engineering teams of 5+ contributors, ensuring alignment across software, test, autonomy, perception, and program stakeholders. Drive quality, delivery, and technical excellence.Â
• Collaboration & Delivery – Work closely with cross-functional teams to integrate simulation with autonomy algorithms, hardware interfaces, and test pipelines, enabling rapid experimentation, regression testing, and mission readiness.Â
• Innovation & Continuous Improvement – Champion best practices in CI/CD, test‑driven development, design patterns, and system architecture. Explore and adopt modern technologies to expand modelling and simulation capabilities.Â
Required qualifications:Â
• A tertiary qualification in Computer Science, Software Engineering, Mechatronics, or a related fieldÂ
• Extensive professional experience in software engineering and systems integrationÂ
• Strong experience in modern C++ with familiarity across legacy standardsÂ
• Professional experience with PythonÂ
• Significant experience building and delivering reliable software systems in fast‑paced environmentsÂ
• Experience leading teams to deliver complex engineering projectsÂ
• Experience with real‑time, distributed simulation systems or HWIL/SWIL environmentsÂ
• Experience with containerization technologies (Docker or equivalent)Â
• Experience working in Linux development environmentsÂ
• Demonstrated ability to solve complex problems quickly and effectivelyÂ
• Proven history of strong collaboration, accountability, and being a trusted and kind teammateÂ
• Ability to obtain an Australian NV1 security clearanceÂ
Preferred qualifications: Â
• Defence industry experienceÂ
• Experience with uncrewed systems, particularly in the air domainÂ
• Experience with AFSIM, NGTS, or equivalent defence simulation toolsÂ
• Experience with data processing, analysis pipelines, or test automation workflows, especially those using Python