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, utilizing cutting-edge reconfigurable computing and sensors. The aim is to develop next-generation electronics and computing solutions that solve technology-related challenges in fields such as autonomous
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algorithm development in the biomedical context. We are particularly, but not exclusively, interested in candidates with competence in multi-modal data integration, including electronic health records, omics
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forward. They all require enhanced processing power and efficiency. Therefore, many of the sub-domains within Electrical Engineering, like advanced computing benefitting from novel chip designs, sensors and
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background within (at least one, preferably several of) the following fields: Biomedical circuits and systems Physiological Modelling Medical sensor and instrumentation technology Health Informatics Digital
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and efficiency. Therefore, many of the sub-domains within Electrical Engineering, like advanced computing benefitting from novel chip designs, sensors and embedded intelligent systems as well as next
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reconfigurable computing and sensors. The aim is to develop next-generation electronics and computing solutions that solve technology-related challenges in fields such as autonomous robots, drones, IoT, smart grid