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Developing and applying computational methods to extract, classify and integrate content-related features (e.g., from HTML, URLs, metadata) with digital behavioral data (from web tracking) Analyzing patterns
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programming skills in Python and R Experience in software development, particularly in dashboard or web application creation Familiarity with geospatial analysis, GIS tools, or related technologies is a plus
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design, fabricate, and test high efficiency superconducting nanowire single-photon detectors (SNSPDs) and detector arrays optimized for mid-infrared spectroscopy. The goal of this work is to develop both
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(Fixed-term and full-time for 2 years). Your future tasks Developing critical research pertaining to the impact of digital technologies on politics (broadly defined) (ideally country- or region
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Max Planck Institute of Molecular Cell Biology and Genetics | Dresden, Sachsen | Germany | 2 days ago
Dresden . Your responsibilities: Drive independent and collaborative research in applied topology within the group’s thematic focus. Develop and refine methods to address new mathematical questions
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code via differential testing)We focus on techniques that apply to real-world software systems. E.g., in the past, we have developed techniques that find and fix bugs in widely used Python, Java, C/C
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develops prediction methods and future scenarios for coastal systems. One focus of our research is the study of coastal ecosystems, which are subject to increasing pressure to change due to climate change
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(fluid mechanics, semiconductor device simulation, electro-chemistry). Expected are the participation in the software development of the group as well as the support of projects from applications in
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background in Statistical Mechanics and to mostly focus on analytical work and the development of novel quantitative methods for active matter, and to a lesser extent, on computer simulations of active fluids
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purpose of this position is to conduct research in the field of model reduction and uncertainty quantification for biological flows. The goal of the project is, in particular, the development of robust