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Inria, the French national research institute for the digital sciences | Montbonnot Saint Martin, Rhone Alpes | France | 1 day ago
the understanding of physical systems with enhanced complexity. Objectives While studies exist regarding the mechanics and shape characterisation of a single curly hair, extensions to the understanding and modelling
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coupled neuronal and vascular dynamics of the human retina. Scientific Objective The goal of this PhD project is to develop new optical methods and advanced image-processing approaches to simultaneously
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mechanisms underlying the perception of peripersonal space (PPS) in the pseudo-ecological context of virtual reality. We seek to determine whether the mere proximity of an object is sufficient to trigger PPS
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domains: historical documents and Earth imagery. For example, from temporal series of multispectral Earth images, we will identify types of moving objects, areas with different types of vegetation
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BMAD simulation tool, an advanced open-source particle tracking framework, the doctoral candidate will perform start-to-end simulations, benchmark physical models, and explore tolerance studies. Specific
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Inria, the French national research institute for the digital sciences | Toulouse, Midi Pyrenees | France | 18 days ago
-Stokes, RANS and ZDES model equations. The objective of this PhD is to develop adaptive techniques compatible with high order boundary approximations. The aim is to be able to efficiently reduce the error
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mechanisms underlying DVG formation and their interaction with the host immune system remain poorly understood. The objective of this ANR-DFG-funded PhD project is to elucidate the mechanisms of DVG formation
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, amid increasing hydrological extremes (floods, low flows, and droughts). The objective is to understand how changes in hydrological regimes modify the relationships between people and rivers, and how
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. Key Objectives • Develop a complete laboratory optical testbed representative of the MADWIL Doppler channel. • Validate the performance of the QMZ interferometer and the overall optical architecture
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these results while expanding the methods and data sources and translating the forecasts into future projections. The main objectives are: • Update and deepen existing statistical analyses based on the BD-RTM