21 Master "Max Planck Institute for Psycholinguistics" Fellowship positions at University of Bergen
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candidates. These doctoral candidates will enjoy a multi-disciplinary and international environment with abundant training opportunities and exchange within the institutions involved in the network. The main
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within the institutions involved in the network. The main goal in the project connected to this position is to develop highly accurate numerical methods for nearshore wave forecasting faster. Specifically
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writing. Besides working towards your PhD degree, you will have the opportunity to contribute to teaching, outreach, and other departmental tasks for 25% of your time. The primary research focus is on
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% of your time. The primary research focus is on parameterized graph algorithms, particularly their real-world applications. These include algorithms relevant to social network theory, robotics, and data
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the development. Qualifications and personal qualities: Applicants must hold a master's degree or equivalent education in applied and computational mathematics, scientific computing, computational physics
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examples will be used to guide and prototype the development. Qualifications and personal qualities: Applicants must hold a master's degree or equivalent education in applied and computational mathematics
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interference, and in situ hybridization will be employed in this study. Qualifications and personal qualities: Applicants must hold a master's degree or equivalent education in biology, molecular biology, fish
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molecular techniques, including high-throughput sequencing, RNA interference, and in situ hybridization will be employed in this study. Qualifications and personal qualities: Applicants must hold a master's
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transparency and build trust in AI-based methods. Qualifications and personal qualities The applicant must hold a master's degree or the equivalent in computer science, or must have submitted his/her master's
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University of Bergen. The main research interest of the lab is the study of neural circuits in the mammalian retina and the project will address mechanisms of circuit plasticity related to sensory adaptation