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. Validate and test these solutions with respect to the classical methods. choose an appropriate data processing board, optimise the existing software that has been developed, tested, and validated, and then
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; science software development experience and programming skills; good analytical and communication skills, with the ability to work in a multicultural environment in an autonomous manner; experience in
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discipline will include: becoming familiar with PA/QA practices, methodologies and disciplines (PA/QA, RAMS (reliability, availability, maintainability and safety), software PA, EEE components, and materials
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spacecraft data management; monitoring and control systems, including for pre-launch, and testing procedures; electrical ground support equipment and system checkout equipment. In the context of digital twin
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mechanics, celestial mechanics, mission design, and guidance and control systems; further develop open-source software developed by the ACT, for example, pygmo (optimisation), pykep (astrodynamics), dCGP
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, spacecraft system and mission design, and analysis, as well as a valuable data source for studies and other research domains. This research aims to develop a lightweight software system, written in Python and