61 algorithm-development-"Multiple"-"Embry-Riddle-Aeronautical-University" positions in Finland
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develop advanced data analysis methods. Invasive brain recordings in patients are possible through our collaboration with Helsinki University Hospital. In addition, we support studies of collective behavior
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is to train problem-solvers in engineering and contribute to a wider understanding of our world through research in technology. Our research and education are characterised by an entrepreneurial
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coordinates multiple large-scale research projects and globally unique data resources, such as FinnGen, nationwide health registry data and the Finnish Twin Study and leads the molecular profiling of cancer
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coordinates multiple large-scale research projects and globally unique data resources, such as FinnGen , nationwide health registry data and the Finnish Twin Study and leads the molecular profiling of cancer
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limited. This research project funded by research Council of Finland is focused on developing methods for statistical analysis that ecologists can use to better predict future changes in ecological
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spectroscopy with a novel, rapid chemical separation technique, Gas Ion Distillation (GID, see https://www.helsinki.fi/en/projects/gidprovis for details). The Doctoral researcher will develop a mid-IR laser
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, inclusion, and well-being. Group members have ample opportunities to develop both technical and transferable skills—including programming, data visualization, communication, networking, and leadership
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the research group of Professor Klaus Nordhausen in the project “Signal recovery in noisy spatial data”. The research group develops modern and efficient multivariate statistical methods tailored
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potential. Our research focuses on Materials physics, Quantum technology, Soft & living matter, and Advanced energy solutions. Topics extend from fundamental research to important applications. We educate
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manipulation of developing mouse organs. The project will focus on how signaling pathways operate at the intersection of growth control and branching morphogenesis in the developing mammary gland and will use