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studies fundamental and applied aspects of multiphase flows, combining advanced experiments and state-of-the-art numerical simulations. Research focuses on dense dispersions, turbulence interacting with
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clinical cohorts. By investigating hemodynamics, organ perfusion, and device–heart interactions, you contribute directly to improving bedside decision-making. You translate experimental findings
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are a revolutionary paradigm for autonomous driving, enabling systems to jointly perceive, reason, and act in complex environments. However, evaluating such end-to-end models remains challenging, as most
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comprehension, while ensuring responsible and pedagogically sound use of GenAI. The concept of co-regulation of learning provides a valuable framework for examining these interactions and clarifying the roles
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PhD “Climate Change and Cooperation in Asia, 1945 to the Present" Faculty: Faculty of Humanities Department: Department of History and Art History Hours per week: 36 to 40 Application deadline
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(Scalable AI-Driven Framework for Gameplay Characterization; https://cordis.europa.eu/project/id/101220528 ) within the Human-Technology Interaction (HTI) group at Eindhoven University of Technology. HTI
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/101220528 ) within the Human-Technology Interaction (HTI) group at Eindhoven University of Technology. HTI brings together psychology, AI, data science, and design to study how interactive systems shape human
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understand how it unfolds and escalates in everyday social interactions. Our Colleagues: You will be in the Applied Social Psychology (ASP) section that is embedded in the Department of Work and Social
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channel-drug interactions. Within this project we will develop the implementation of this technique and work towards use in clinical diagnostics. Key objectives include: Optimising expression of ion channel
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-accoustics: the noise annoyance as perceived by humans and even wildlife. An important part of your work consists of designing and contributing to measurement campaigns, but you will also play a central role