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–specific ways, and their downstream biological effects remain poorly understood. This project tackles this fundamental gap — by building computational models that simulate what goes wrong in the brain, one
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theoretical modeling, numerical simulation, and experimental validation. Key objectives can include: Developing theoretical and computational models for friction-induced damping in joints and interfaces
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of computational power over the last decade has enabled scale-resolving simulations (SRS) of turbulent flows at an unprecedented resolution. In combination with high-performance computing (HPC), parallel
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photovoltaics (PV) was identified by the IPCC as the technology with the highest potential among emission mitigation options. Scientific studies modelling energies scenarios for net zero emissions by 2050 project
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Job description The exponential increase of computational power over the last decade has enabled scale-resolving simulations (SRS) of turbulent flows at an unprecedented resolution. In combination
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of options when it comes to secondary employment conditions. Within our terms of employment individual choices model, you can think of exchanging leave days and/or salary for benefits such as an advantageous
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diagnosis methodologies that meet these challenges head-on. You will dive into areas such as: AMS fault modeling. AMS test stimuli and detection generation. Automatic AMS test pattern generation and
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speech, test infants’ reliance on sound cues, and use computational models to simulate the learning of two languages from speech. Your job In the PhD subproject, you work with Dutch-English bilingual
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department and Multiscale Modeling and Simulation in the Department of Applied Mathematics at the University of Twente (Geurts). The Department of Chemical Engineering and Chemistry focusses on solving
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of your research, and possible alternatives to optimize existing policies. The output of your research will be used by a teammate to create a simulation model to optimize future innovation policy mixes. As