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Modelling & Software 193, 106580. https://doi.org/10.1016/j.envsoft.2025.106580 Delestre, O., Rousseau, M., Razafison, U., Laguerre, C., Darboux, F., Lucas, C. FullSWOF_2D software, swhid : swh:1:dir
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Laboratoire INSERM UMR1311 Rouen Normandie Université | Rouen, Haute Normandie | France | 2 days ago
on three main Workpackages (WPs): • WP1: Characterizing the inflammatory response and airway remodeling in a novel 3D model of Apical-Out Airway Organoids (AOAO) derived from pediatric asthmatic patients
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differential equation models of bacterial persistence. A particular challenge, both for simulation and for machine learning, lies in the high dimensionality of these equations, which causes grid-based numerical
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model for the reactivity/selectivity in superacid conditions. Where to apply Website https://emploi.cnrs.fr/Offres/Doctorant/UMR7285-FREGUE-005/Default.aspx Requirements Research FieldChemistryEducation
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condensed matter physics • Ability to learn and develop skills in analytical computation, theoretical modelling and numerical simulations, in particular the numerical solution of partial differential
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the field. Perform quantitative analysis and agent-based modeling of behavior. Report, discuss, and present data to the team. The position is for 36 months. Laboratory work using virtual reality (VR
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modelling in addressing these challenges (e.g. Raoux et al. 2017; Noguès et al. 2023). The initial study focused on the Seine Bay area, extending northwards to the boundary of French waters, and concentrated
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characterization platform for innovative materials by combining advanced experimental techniques, physics-based mesoscopic modeling, and artificial intelligence. Within this context, high-throughput experiments will
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developed to model acoustic propagation in the atmosphere. The state of the art in wind energy applications [3,5] is largely based on the parabolic equation, an efficient method for modeling acoustic
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platform for innovative materials by combining advanced experimental techniques, physics-based mesoscopic modeling, and artificial intelligence. Within this context, high-throughput experiments will provide