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currently an unmet need to characterize the efficiency of promising nanoagents. The objective of this doctoral project is to develop an innovative method for sensing and quantifying the hotspot effect in
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6-24): Construction of autoencoders for compression of high-dimensional fields. Sparse identification (SINDy) or genetic programming (GEP) for derivation of explicit, interpretable control laws
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forms part of past, present and planned international space missions to the rocky and icy bodies of the solar system. On Earth, research covers geosciences in the broadest sense, ranging from the Earth's
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sensing. This PhD project will take place at CNRS-Grenoble INP-Université Grenoble Alpes (France) . For amorphous SiCOI stacks the identification of the best processing route exhibiting the most favourable
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together expertise in physics, chemistry, nanoscience, and materials engineering. For more information about IS2M, please feel free to visit the website: https://www.is2m.uha.fr/ . The PhD candidate (M/F
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sensing and IoT with precision actuation technologies can significantly enhance decision-making in crop protection, enabling substantial reductions in pesticide use through optimized timing, dosage, and