LocationRemote; Amsterdam; Atlanta - Hybrid; Berlin ; Dublin; Frankfurt ; Italy ; London ; Munich; Poland; Toronto - Remote; United Kingdom (Remote); Vancouver (Remote)Employment TypeFull timeLocation TypeRemoteDepartmentSafetyWho We AreAeroVect is transforming ground handling with autonomy, redefining how airlines and ground service providers around the globe run day-to-day operations. We are a Series A company backed by top-tier venture capital investors in aviation and autonomous driving. Our customers include some of the world's largest airlines and ground handling providers. For more information, visit www.aerovect.com.You willWork with the Head of Safety and Head of Systems to:Design, analyze, and perform Verification & Validation (V&V) of autonomous vehicle system architectureDevelop autonomous driving systems with cross-functional teams and construct the safety case that documents and defends the integrity of the solutionDrive the creation, evolution, and deployment of dependable, safety-critical systems for autonomous driving within the airport driving environmentHelp to:Define and monitor KPIs for data-driven engineering and system performanceDevelop data collection and analysis pipelines to support V&V processesDefine safety goals and requirements based on the ODD, hazards, and risksCreate and manage requirements documentation, traceability, and system architectureShape system behaviors for critical safety scenarios and ensure robust designsIdentify and communicate risks while coordinating solutions and mitigations across teamsCraft a pioneering safety framework for autonomous airside drivingEstablish, oversee, and uphold the rigorous engineering standards essential for the fail-safe performanceBe open to travel up to 25%You haveBS in Computer Science, Engineering, Mechatronics, Aerospace, or a related field (or equivalent experience)Hands-on experience with systems engineering (e.g., V Model, requirements documentation, traceability, V&V)Experience generating safety artifacts for a complex autonomous system such as Hazard Analyses (HARAs), FMEAs, FTAs, STPAsExperience in developing and deploying robotic systems and / or autonomous vehicles with safety-critical componentsFunctional safety and SOTIF basic experienceExperience with data analysis and reporting, including Python / SQL basic proficiency and/or willingness to learnAbility to communicate technical issues and solutions across all levels of the organizationHands-on approach with a willingness to engage deeply and enjoy the work in a fast-paced environmentWe PreferMS in Computer Engineering, Computer Science, Electrical Engineering, Aerospace Engineering, or a related technical fieldExperience with DOORS, Jama, Polarion, Enterprise Architect, etc.Knowledge and hands-on experience with safety standards in the development and deployment of complex autonomous systems (including but not limited to ISO 26262, ISO 21448, UL 4600, IEC 61508, ANSI B56.5, ISO3691, ANSI 15.08)Experience with safety in the context of aviation / airline and/or robotics applicationsFamiliarity with the airside driving environment at major global airportsBackground developing functional and SOTIF safety requirements and roadmap for an autonomous vehicleExperience with cybersecurity (especially for automated vehicles)Experience with data science and statistical analysisExperience with:Verification & Validation (V&V) of autonomous vehicle system architectureDeveloping autonomous driving systems with cross-functional teamsConstructing the safety case that documents and defends the integrity of the solutionDependable, safety-critical systems for autonomous drivingAirport driving environmentDefining and monitoring KPIs for data-driven engineering and system performanceDeveloping data collection and analysis pipelines to support V&V processesDefining safety goals and requirements based on the ODD, hazards, and risksCreating and managing requirements documentation, traceability, and system architectureShaping system behaviors for critical safety scenarios and ensure robust designsIdentifying and communicating risks while coordinating solutions and mitigations across teamsManaging rigorous engineering standards essential for the fail-safe performance#J-18808-Ljbffr