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of privacy-preserving artificial intelligence for the benefit of humanity. What You Will Do: Research (Federated Continual Learning): You will develop novel and privacy-preserving algorithms that allow
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interaction and/or surface flux computation, including familiarity with bulk flux algorithms and observational QA/QC procedures. Experience with processing, analyzing, and interpreting multi sensor
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An already acquired Phd in Electrical Engineering, Computer Science, Applied Mathematics, or a relevant field Affinity for formal and simulation models, as well as algorithmic solutions to problems
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that astrocytes use for interacting with synapses and to tune their function, in health and disease. The candidate will perform genetic manipulation of astrocytes to study their structural and functional
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The project aims to identify the behavioural, neuroendocrine, and (epi)genetic mechanisms of parochialism—how cooperation and conflict emerge within and between primate groups. You will experimentally
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responses are converted into biochemical signals. This research might include the identification and characterization of signaling proteins, investigating the effects of genetically modifying these proteins
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engineering using genetic modification can solve some of these problems, but introduces regulatory complexities and biological challenges of it’s own. Epigenetic editing, the controlled reprogramming
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degree in plant biology, bioinformatics, biochemistry, genetics or a related field. Strong bioinformatics skills, preferably in transcriptomic analyses and network inference. Expertise in molecular biology