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-compliant and biocompatible sensors for recording and monitoring biomechanical signals from the human body. The research activity aims to explore and develop flexible piezoelectric materials, and to process
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to macro-scale atmospheric flow; from designing the turbines of tomorrow to the digital energy solutions of the future; from developing electric power systems to exploring more democratic processes for
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to macro-scale atmospheric flow; from designing the turbines of tomorrow to the digital energy solutions of the future; from developing electric power systems to exploring more democratic processes for
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and plasmonics, integrated with piezoelectric transducers to record acoustic signals. You will join a laboratory with expertise in photonics, piezoelectric materials and device fabrication methods
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high-quality research on the intersection of machine learning, data science, power system simulation and operation, both from a theoretical/analytical point of view and coding. We are looking for self
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monitoring system that can automatically estimate component response through processing of sensor signals; Develop a prognostics module that estimates the likelihood of failure of a connection based on the
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monitoring system that can automatically estimate component response through processing of sensor signals; Develop a prognostics module that estimates the likelihood of failure of a connection based on the