Descripción de la oferta
About the roleUsted podría ser el solicitante perfecto para este trabajo. Lea toda la información asociada y asegúrese de presentar su candidatura.Imagine being technical backbone behind Destinus’ unmanned aerial vehicles, owning the system end to end and setting the technical direction that turns bold concepts into flight‑ready reality. The Head of UAV Systems is the technical authority and system owner for the development of unmanned aerial vehicles. This role leads the end‑to‑end technical execution of UAV development programs, from early concept and requirements definition through detailed design, prototype manufacturing, system integration, testing, and flight qualification. This position requires strong hands‑on technical background, proven leadership in complex aerospace programs, and a clear focus on results, quality, and delivery timelines.At Destinus, 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. Destinus 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.What You’ll DoTechnical Leadership & System OwnershipAct as the technical authority and system architect for UAV development programs.Own system‑level technical decisions, trade‑offs, and design rationale.Ensure coherence across all UAV subsystems and maintain system architecture and interfaces.Requirements & Vehicle DesignLead system and subsystem requirements definition and management.Translate mission, customer, and regulatory needs into verifiable technical requirements. xcskxlj Guide aerodynamic design and flight performance, mechanical design and structural sizing, and materials selection and manufacturing concepts.Drive system‑level optimization for performance, weight, cos#J-18808-Ljbffr
