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scientific expertise to active and passive microwave remote-sensing missions, i.e. radar altimeters and imaging microwave radiometers, and potentially imaging SAR; establishing and managing mission objectives
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the development of novel optical systems, such as spectroradiometric imaging instruments, operating from the UV to the infrared spectral range, and interferometers, including the related optical ground support
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-mm wave range as well as passive microwave imagers/sounders for ocean, land and atmospheric sensing. You will be engaged in the study and pre-development of one or more of these types of payloads. Your
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/algorithms for payload data products, image processing and optical payload data compression. Contribution to mission performance assessment and to data products quality monitoring and improvement. You are
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, monitoring, and interfaces with external entities; consolidating key security findings — risks, vulnerabilities, and controls — into the overarching system security picture and ensuring the implementation
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evolve and maintain a European Earth Observation Ecosystem Reference Architecture (blueprint) for the 2030–2060 timeframe; preparing new architectures addressing the paradigm shifts in Earth observation
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line with cost, schedule, quality and security requirements; supporting the design, implementation, integration and validation of prototype and pre-operational services making use of EO data, AI/ML
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-ground interfaces. CHIME mission: CHIME (Copernicus Hyperspectral Imaging Mission for the Environment) provides hyperspectral imaging data to support environmental monitoring, agriculture and climate
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, such as quantum sensors (Rydberg receivers, NV diamond sensors, etc.) and photonic sensors. You will also work on optical payloads based on more classical optical systems, including imagers and
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the design, implementation, integration and validation of prototype and pre-operational services making use of EO data, AI/ML techniques and modelling environments relevant to SRN applications; contributing