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involve dense research activities in the area of designing, experimenting and theoretical development with the following combined research areas linked with National, European and Worldwide R&D Projects
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storage, and optics. From AI modelling of materials and biological complexity to the design of multifunctional micro- and nano systems, we combine theory, fabrication, and innovation to tackle challenges in
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gene repertoires, recombinant antibody development, and immunochemical analysis to study the evolution of such responses during therapy, in combination with assessment of clinical outcomes of the therapy
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, neural interfaces, energy harvesting and storage, and optics. From AI modelling of materials and biological complexity to the design of multifunctional micro- and nano systems, we combine theory
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· Perform computational analyses to investigate gut microbiota composition The selected candidate will use a combination of animal and in vitro studies to reach these aims. Work tasks also include designing
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We invite you to apply for a 2-year postdoctoral position in the area of hybrid AI, combining modern language models (LMs) with ontologies and knowledge graphs (KGs). The position is part of a newly
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. English is widely used in academia. Combined with stable public research funding, strong research infrastructure, and close collaboration between academia and industry, this creates a secure and stimulating
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communication limitations, adversarial conditions, continual and adaptive learning in dynamic environments. The research will combine tools from distributed optimization, stochastic approximation, information
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and cancer becoming an attractive drug target. The position is funded by an Emmy-Noether DFG grant and aims to combine single-molecule localization methods and cell biology to dechiper the stoichiometry
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and biomedical engineering. The Automatic Control division conducts research and education in the analysis and control of dynamic systems. Our work combines fundamental control theory with applications