149 parallel-computing-numerical-methods positions at European Space Agency in Netherlands
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/transformative innovation in the sector. Our vision is to become an “EO innovation hub”, connecting EO with a growing ecosystem of disruptive and transformative innovation, encompassing AI, ML, quantum computing
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develop methods for efficient covariance/uncertainty propagation that are suitable for embedded use on space processors. The goal is to develop methods that can be used to perform real-time covariance
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Location ESTEC, Noordwijk, Netherlands or ESAC, Villanueva de la Cañada, Madrid, Spain. Description As Head of the Programme Planning & Management Support Office (SCI-M), you will report directly to
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directly to the upstream swt-initiative31/skija prototype, focusing on: rendering logic. layout behavior. and basic widget implementations. In parallel, they will evaluate how the Skija backend could be
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website: http://www.esa.int Field(s) of activity for the internship Topic of the internship: Algorithmic Optimisation of Stowage for a Cargo Return Vehicle You will help develop a numerical optimisation
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the Mechanical Department laboratories and computing infrastructure, including the thermal computing facility, in conjunction with the TEC infrastructure function; Analysis methods and tools for the thermal
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navigation. The task also includes the development of the necessary analytical and numerical methods and software tools. Candidates interested are encouraged to visit the ESA website: http://www.esa.int Field
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detection is set according to the local statistics of the radar sea clutter. The threshold method works well for large ships due to their high intensity value compared to sea clutter. However, in cases
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integrate modern AI methods into control and decision-making, enabling humanoid robots to adapt to unpredictable environments and support astronauts more effectively. The project contributes to ESA’s efforts
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hyperspectral imaging mission for the environment. You will design methods that combine large “foundation” models with ultra-light detection running on the satellite to deliver trustworthy, low-latency