24 algorithm-development-"Multiple"-"Simons-Foundation"-"Prof"-"UCL"-"St" Postdoctoral positions at KTH Royal Institute of Technology
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data for urban characterization. The work includes developing algorithms, performing large-scale analyses, and collaborating with partners across disciplines in remote sensing, urban studies, and climate
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for a two year postdoctoral position to characterize the statistics of brain activity and relate it to the underlying network properties. Recent data has revealed the multiple ways brain activity
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of this position is to conduct independent research and develop theories and methodologies that help in improving the reliability and trustworthiness of large-scale machine learning models (e.g., LLMs) in a
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, social behaviours for virtual characters and human-centered evaluation methods. Excellent research and peer-reviewed publications related to the areas above. You have well developed analytical and problem
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approach needs to include supply and demand for green electricity and other fuels, the connection to the expansion of the electricity grid, the pace of infrastructure expansion, the pace of development
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vehicles. The Postdoctoral researcher is also expected to develop mechatronic concepts for rail vehicles and implement these ideas as simulation models to validate the concepts. The projects you will work
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degree, obtained within the last three years prior to the application deadline Experience from developing methods and tools for decision support in urban planning, spatial land use modelling and analysis
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Framework Programme? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Job description The research will deal with development
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for Clean Energy Conversion: Learning Multiscale Dynamics in Fuel Cell Systems”. The project aims to develop a multiscale modeling framework that combines computational fluid dynamics (CFD), electrochemical
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brain injury are widely used for neurotrauma research and therapeutic development. Today, the mechanistic pathway of experimental neurotrauma is largely unknown and yet little biomechanical reference