ESA Graduate Trainee in Future Engineering Lab & Infrastructure - Advanced Engineering Environments
European Space Agency - ESA
Noordwijk, Netherlands
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During your traineeship, you will contribute to the creation and operation of the Future Engineering Laboratory, which is envisioned as a modular, scalable and world-class innovation engine. The laboratory will function as a sandbox, model testbed and showcase for advanced engineering, enabling closer collaboration between the European Space Agency and industry, and accelerating innovation for future space missions. You will be involved in activities that support this vision, including: supporting the consolidation and implementation of the Future Engineering Laboratory, including requirements definition, architectural concepts and the integration of digital and physical engineering assets; contributing to the development of a modular and scalable laboratory architecture that can adapt to future needs and evolving technologies; supporting the integration of collaborative digital platforms and engineering tools to enable seamless workflows and data-driven engineering, in close collaboration with the Future Engineering Laboratory/infrastructure and Future Engineering Data Hub; contributing to the definition of engineering environments that support modelling, simulation and advanced engineering processes based on shared and structured data; supporting the use of shared infrastructure for joint pilot projects with industry, enabling experimentation, testing and technology validation; assisting with the definition and application of governance, security and compliance principles to ensure interoperability and the long-term sustainability of the Laboratory; contributing to continuous improvement activities that allow the laboratory to evolve in an agile manner in response to operational business needs; supporting open innovation activities, such as idea campaigns, workshops and demonstrations, to engage internal teams and external partners; participating in preparatory activities related to the development of a future digital model factory, aimed at streamlining design-to-production workflows, simulation and testing; exploring advanced engineering approaches, including model-based engineering methods, digital representations of systems and processes, immersive engineering environments and data-driven engineering techniques; supporting research and technology development activities related to smart manufacturing concepts, production process planning and advanced inspection methods for space systems; preparing technical documentation, concept notes, presentations and communication material to support decision-making, coordination and outreach activities. Through these activities, you will gain hands-on experience in modern engineering environments and innovation infrastructure, while contributing to the transformation of how future space missions are designed, developed and prepared.
