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Deep Learning meets Numerical Analysis – DeepNuM
OBJECTIVE: DeepNuM aims at developing the interplay between two families of computational approaches, Deep Neural Networks (DNNs) and Partial Differential Equations (PDEs), with the goal of modeling complex dynamical systems arising from the observation of natural phenomena. Three central questions
HYPHES: IA & RO for a systemic approach to the management and resilience of urban infrastructure networks: energy, mobility, logistics – HYPHES
Within urban areas, the management of mobility, both the mobility of people and urban logistics and the management of energy, from its production to its consumption, including its distribution and storage, can no longer be thought of. independently, in a logic of silos, if these territories want to
Theoretical, Experimental, and Computational Study of Carriers Localization in Nitride Devices – TECCLON
Modern (opto)electronic devices rely on band engineering capabilities, made possible by the use of semiconductor heterostructures in which band gaps, offsets and strains in the active layers are optimized by associating pure compounds and alloys. High electron mobility transistors create two-dimensi
Simulation of latex drying: from the fundamentals to complex formulation – LatexDry
While it is well known that the drying of latex films play a critical role in paints, cosmetics and inks, a realistic description of the drying process is in fact not yet available. The final properties of the film, such as its adhesion, its optical and mechanical properties depend not only on the f
Youth and Logistics Integration in the 15-Minute City – INCLUCity+
The 15-minute city (15mC) promotes walkable, mixed-use neighbourhoods that prioritize accessibility, local services, and human-centric urban design to reduce car-dependency and foster more sustainable, inclusive, active and liveable cities. However, much of the research on 15mC overlooks the unique
SPuttering appliqué aux accumulateurs au LIThium – SPLIT
SPLIT project aims to demonstrate that a technical breakthrough is possible for the improvement of the specific capacity of Li-ion batteries. The first objective is to demonstrate the feasibility of a Lithium-ion battery with a specific energy (by weight or volume) improved by 50 % thanks to the use
Silicon Nitride and Graphene Nanopores for Biotechnology and Biology – BioGraph'n
Numerous chemical or biological processes involve the transport of macromolecules through tiny channels of nanometric size. We have been the firsts in France to study these processes (as early as 2003) using natural channels and artificial channels obtained by drilling nanopores in ultra-thin SiC an
Simulation of latex drying: from the fundamentals to complex formulation – LatexDry_Ukraine
While it is well known that the drying of latex films play a critical role in paints, cosmetics and inks, a realistic description of the drying process is in fact not yet available. The final properties of the film, such as its adhesion, its optical and mechanical properties depend not only on the f
Microcrystalline SiC/Si3N4 matrix composites for high temperature applications thought a PIP-CVI hybrid process – MATRIX
To face the energy, environmental and economic challenges of air transportation, significant efforts are devoted to the next generation of aircraft turbojets, particularly in the field of advanced materials and their elaboration processes. The main objective is a decarbonisation of air transportatio
COndensation And Liquid Atomisation – COALA
The project objective is to provide in a medium term view predictive tools suited to the challenges that must be faced by aircraft industry to improve the performances of air conditioning system loaded in planes. The project will enable improving our knowledge of physical phenomena involved in these
