Ph3About the role /h3 pImagine designing the intelligence that guides a system through extreme conditions with precision and reliability. As a Guidance, Navigation and Control Engineer at Destinus, you will build and refine the algorithms that make autonomous flight systems think, adapt, and perform in real time. From shaping guidance laws to developing navigation filters and control architectures, your work directly impacts how advanced aerospace systems behave in mission critical scenarios. /p pAt bDestinus /b, we are revolutionizing the defense industry with cutting‑edge Unmanned Aerial Vehicles (UAVs). Our innovative technologies are designed to meet the unique demands of modern defense operations, delivering unparalleled speed, precision, and cost effectiveness. bDestinus /b partners with government agencies and defense organizations worldwide to provide advanced solutions for mission‑critical operations, enabling a new era of efficiency and technological superiority. Join us in shaping the future of defense with groundbreaking aerospace innovations. /p h3What You’ll Do /h3 ul liDrive the development of GNC algorithms, including guidance laws, navigation filters, and control architectures with a high level of autonomy. /li liDevelop, maintain, and extend GNC software solutions for safety‑critical applications, from early prototyping through to flight‑ready implementation. /li liImplement and refine GNC models and algorithms, including inertial navigation, target tracking, autopilot control loops, seeker processing, and environmental compensation. /li liBuild and integrate simulation and test utilities to support SIL and HIL test configurations, enabling rigorous validation of GNC functionality across integration levels. /li liDefine, decompose, and manage GNC‑specific system and software requirements, ensuring full traceability from concept through verification. /li liGenerate clear, structured, and technically rigorous documentation, covering algorithm design, modelling assumptions, validation results, and verification evidence. /li liWork cross‑functionally with Systems Engineering, Simulation Modelling, Flight Dynamics, Software, and Hardware teams to ensure GNC algorithm performance and alignment with overall system needs. /li liParticipate in design and technical reviews, presenting GNC methodologies, performance outcomes, and known limitations. /li liSupport Simulation‑Modelling and Software teams by providing algorithm specifications, interface definitions, and GNC validation scenarios. /li liActively contribute to continuous improvement of internal GNC capabilities, tool chains, and algorithm development workflows. /li /ul h3What You’ll Need /h3 ul liMSc in Aerospace Engineering, Automation Control Engineering, or a related field. /li li3‑5 years of experience as a GNC Engineer on flying systems (UAVs, rockets, missiles). /li liProven experience with GNC algorithm development. /li liProven coding experience, preferred Python, Rust or C/C++. /li liExperience with SIL and HIL simulations and verification processes. /li liStrong technical writing skills and experience producing advanced engineering documentation. /li liAbility to work collaboratively in multidisciplinary teams and communicate complex technical topics clearly. /li liProactive attitude, good problem‑solving skills, and willingness to take ownership of GNC tasks and development. /li liFluency in English is a must. /li /ul h3Who You Are /h3 pYou thrive in environments where precision meets speed and complexity is part of the daily game. You enjoy turning mathematical models into real‑world performance and you are not afraid to dive deep into both theory and code to make things work under pressure. You think analytically but act pragmatically, balancing innovation with reliability when it matters most. You take ownership of your work, pushing solutions until they are not just functional but robust and ready for real‑world deployment. /p /p #J-18808-Ljbffr