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involving advanced techniques such as patch-clamp electrophysiology, hiPSC-derived cells, and animal models. Prior experience with electrophysiological techniques is strongly preferred. You are proactive
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on the mathematical theory enabling these advances, via asymptotic analysis and nonparametric modeling. You will work in the Statistics section at the Delft Institute of Applied Mathematics (DIAM
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needs to be supplied with rigorous uncertainty analysis. The focus of this project is on the mathematical theory enabling these advances, via asymptotic analysis and nonparametric modeling. You will work
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participation in forms of collaborative policy making. Your angle will be to investigate how features of social structure (e.g., social networks, social influence) affect the success or failure of inclusive
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mathematical modelling? Then you could be the ideal PhD candidate for this position. Self-assembled structures of colloidal particles and/or polymers at a liquid-air interface can be spontaneously generated when
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managers, and professors shares the ambition to create smart, sustainable, and equitable mobility systems. In our 12 collaborative labs we apply advanced technologies such as sensing, data analytics
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functioning (as assessed by structural and functional MRI) and immune-metabolic functioning (as assessed by blood sample analyses). These insights can improve the assessment of fatigue-related neurocognitive
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the potential to advance the development of multi-sensory interactive technologies and the innovative design of immersive systems, as well as the modeling of intelligent adaptive behavior, thereby affecting
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demand. However, demand drivers are manifold, including technology advancements, population and economic trends, and their future developments come with deep uncertainties. Infrastructure policies must
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and self-motivated PhD candidate to contribute to our understanding of advances, gaps and opportunities for impact-based forecasting for vulnerable population groups across Africa. You will work at the