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Field
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Bilevel programming (BP) is a powerful mathematical framework for modeling hierarchical decision-making processes involving two players: a leader and a follower. In energy network design, for example
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exoskeletons that regulate muscle–tendon forces during locomotion. This includes: Developing and calibrating real-time musculoskeletal ankle models (using CEINMS-RT), with emphasis on the Achilles tendon
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, you will work on a DFG/NWO Weave Grant in collaboration with a PhD student, Dr. Claudia Fichtel (German Primate Center, Göttingen) and Professor Carsten de Dreu (University of Groningen). Your job
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collaborate with the Principal Investigator and help coordinate research with and supervise the research of two PhDs working on the project (one who focuses on Nigeria, and one who focuses on Mozambique
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contribute to a major research project to improve our understanding of macroplastic pollution in coastal seas. Working at the intersection of numerical modelling and observations, you will develop simulations
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of this role, you will: collaborate with PhD-researchers across several universities working on ECCO-related topics develop your own leadership style, whilst working together with your fellow-postdocs
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and alignment of large language models (LLMs). In the last few years, LLMs found wide adoption in many areas of societal life. Their development, however, requires access to a vast amount of data and
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will design a novel, highly coarse-grained model of the nanocarrier and use Brownian dynamics simulations to investigate its assembly and disassembly mechanisms in relation to nutrient loading capacity
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Deep-UV spectral libraries or real-time interpretation models for plastics currently exist. The successful candidate will therefore act as a first mover, building foundational datasets and AI models
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the industry partner involved in the project Contributing to grant deliverables, presentations, and reporting Write high quality scientific manuscripts Contribute to our education program Train BSc, MSc and PhD