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integrate mechanical cues on such soft, fuzzy interfaces is, however, unknown. Using our combined expertise in building well-defined model glycocalyces in microfluidic devices, and in monitoring bacterial
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applications (https://dcm.univ-grenoble-alpes.fr/research/ingenierie-et-interactions-… ). The candidate will be based Grenoble, with secondments in other laboratories of the network. Grenoble is the largest city
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addresses the need for data-driven and hybrid modeling approaches that combine physics-based knowledge with artificial intelligence (AI) algorithms for accurate, interpretable, and robust health state
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of the grain assembly (e.g. frictional bridging, distributed damage). • (O3) Link microscale dissipation to macroscopic Gc by combining micro-tests, in situ tomography, and modeling. • (O4) Improve tensile
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protocols combining video and inertial measurements and optogenetic perturbations. - Analyzing the data obtained. - Neuroanatomical tracing experiments, histology, immunohistochemistry. - Writing a scientific
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to identify, quantify and compare these precursors using controlled laboratory experiments on granular systems combined with advanced optical measurements, with the objective of improving failure predictability