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or projects), including any of designing interaction techniques, building interactive systems (e.g., Unity3D), or running and analyzing user studies. Project background Mixed Reality promises flexible
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-of-the-art synthetic biology with advanced nanotechnology, and electrogenetic interfaces to engineer human cells for next generation bioelectronic medicine, designing programmable cells that respond
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for in vitro disease modeling. Our group integrates mechanical design, materials science, and bioengineering to build functional 3D organoid systems and reduce reliance on the use of animal models. We
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. We foster research excellence, industry innovation, and AI entrepreneurship to promote trustworthy, accessible, and inclusive AI systems for the benefit of society. Founded in autumn 2020, ETH AI
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platforms such as novel biosensors, gene switches, genetic closed-loop circuits, and chemical structures that interface with and actuate cellular activities, we design programmable cellular implants and
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Mixed Reality. This research combines physiological time series analysis (such as or similar to EEG, EMG, EOG), machine learning, and real-time system design for intelligent interaction systems
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health assistant designed to improve asthma control in adolescents by combining age-tailored coaching with low-burden, passive tele-monitoring. The system integrates measurements of lung function and
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for highly motivated law students with an interest in legal research related to law and technology (including a strong focus on AI) and/or contract design. The work will support upcoming courses in these areas
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100%, Zurich, fixed-term inspire AG is the leading Swiss competence centre for product innovation and advanced manufacturing. As a strategic partner of ETH Zurich, our mission is to transfer
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with the lab’s objectives. Support the next generation of scientists (PhD students, postdocs), fostering a collaborative and productive research environment. Key areas of support include design analysis