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of this research sub-project is to develop and apply advanced, patient-specific models of the knee joint fo design iteration and optimisation. Specific duties: Develop and apply a finite element model of a knee
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electrochemical assays with cell biology on micro-/nano-electronic devices. The aim is to develop molecular assays (genomics and proteomics) and cellular assays and support experimental work across a range of CMOS
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to be a place that promotes independent thinking and an environment that inspires excellence. Located in the heart of Europe, yet forging connections all over the world, we work together to develop
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links to the ETH AI Center and the Reliability and Risk Engineering Lab . Job description Collaborate with other researchers to develop high-fidelity emulators for large-scale, energy system optimization
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typically conduct work related to membrane synthesis, experimental characterization, and transport modeling. Job description The postdoctoral researcher will lead and develop research activities on next
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vision with technical expertise in hardware and software development. We investigate these questions on a number of real-world robots such as the Unitree G1 humanoid, Stretch 3, and drones. For details
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are essential for controlling the highly dynamic power flow. For pushing the efficiency and power density limits of these SSTs you will develop multi-physics models of transformers, which describe not only
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development and validation of the mobile platform. The postdoc will play a major role in preparing ethics applications, research collaboration agreements, study protocols, and regulatory documentation, as
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networks changes under mechanical loading, enabling the development of bio-based sensing systems for structural health monitoring. Project background We seek a motivated Student Assistant (HiWi) to support
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modeling, laboratory experiments, and theoretical analyses, we seek to link microscopic processes with the macroscopic behavior of both engineering and natural systems and develop predictive tools