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for spatiotemporal wound monitoring and patient-specific, timely wound treatment. Your tasks In this PhD project, you will develop sensors integrated in adaptive wound dressings. The sensors will be designed by
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methodology that develops physics-informed graph neural networks (GNNs) for composite space structure analysis. The methodology will aim to leverage the inherent structure of composite materials, embedding
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Chemistry group at Empa with high scientific excellence that has recently developed novel covalent adaptable networks (CANs) based on phosphorus chemistry, thereby enabling fire protection and recyclability
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100%, Zurich, fixed-term The Networked Systems Group is a research group in the Department of Information Technology and Electrical Engineering (D-ITET) at ETH Zürich led by Prof. Laurent Vanbever
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Applicants can apply for up to 3 PhD projects, indicating the order of preference. All applications will have to be written in English and will be checked for eligibility. Ineligible or incomplete applications will not be considered. Applications must be submitted through the RE-Fibre website ...
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Applicants can apply for up to 3 PhD projects, indicating the order of preference. All applications will have to be written in English and will be checked for eligibility. Ineligible or incomplete applications will not be considered. Applications must be submitted through the RE-Fibre website ...
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applications Multimodal data integration and prediction, including clinical, medical imaging, and sensor data (e.g. ECGs) The PhD student will have the opportunity to conduct both methodological and applied
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of Things), Wireless and Mobile Communications (e.g. IEEE 802.11, Bluetooth, etc.), Protocols (e.g., MAC, Network, and Transport). Mathematics: Statistical Learning, Stochastic Processes (e.g., Percolation
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carrying partially unknown loads. This uncertainty results in conservative estimates of braking rates and dynamic performance, reducing efficiency both at the individual train level and across the network
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. Computer Networking: Resource-Constrained Networking (e.g., Internet of Things), Wireless and Mobile Communications (e.g. IEEE 802.11, Bluetooth, etc.), Protocols (e.g., MAC, Network, and Transport