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fundamental understanding of droplet flow on single and complex fiber networks. Essential to the project is the development of a new understanding of capillary flow, drop impact, and wetting in fibrous networks
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October 1st, 2025. The fellowship period is 3 years. The project will provide a fundamental understanding of droplet flow on single and complex fiber networks. Essential to the project is the development
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-based, scalable framework for representing structural specifications and domain knowledge across complex engineering and industrial systems. The lab maintains a wide academic network and collaborates
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project funded by the sustainability initiative at UiO. The project will provide a fundamental understanding of droplet flow on single and complex fiber networks. Essential to the project is the development
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international working environment that values diverse perspectives Access to a strong network of top-level national and international collaborators Research mobility funds supporting short research stays and
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based at NHM’s interdisciplinary and highly international research group Evolution, eDNA, Genomics and Ethnobotany (EDGE) . Opportunities for networking across evolutionary biology, genomics, and
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referring to statistical and system characteristics in the real world contrary to an ideal learing setting. The candidate will contribute to understanding how neural networks extract the most relevant
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neural networks extract the most relevant information of the data to make a prediction using advanced mathematical tools. This insight opens the door for enjoying the real world. The candidate further
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at the forefront of modern science A friendly, inclusive, and collaborative international working environment that values diverse perspectives Access to a strong network of top-level national and international
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) . Opportunities for networking across evolutionary biology, genomics, and environmental science are extensive, both within the NHM and externally. More about the position The PhD project will explore whether