| Les deux révisions précédentes Révision précédente Prochaine révision | Révision précédente |
| fr:recherche [2021/09/23 13:01] – fhubert | fr:recherche [2026/02/08 16:28] (Version actuelle) – fhubert |
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| ==== Publications ==== | ==== Publications ==== |
| === Livres === | === Livres === |
| - <color #7092be>**F. Hubert**, J. Hubbard</color> <color #ff7f27>//CALCUL SCIENTIFIQUE - De la théorie à la pratique - Illustrations avec Maple et Matlab. Volume 1 : Equations algébriques, traitement du signal, géométrie effective//</color>, Vuibert, 2006. 432 pages. | - <color #7092be>**F. Hubert**, J. Hubbard</color> <color #ff7f27>//CALCUL SCIENTIFIQUE - De la théorie à la pratique - Illustrations avec Maple et Matlab. Volume 1 : Equations algébriques, traitement du signal, géométrie effective//</color>, Vuibert, 2006. 432 pages. |
| {{ :fr:book1.jpeg?100 |}} | {{ :fr:book1.jpeg?100 |}} |
| - <color #7092be>**F. Hubert**, J. Hubbard</color> <color #ff7f27>//CALCUL SCIENTIFIQUE - De la théorie à la pratique - Illustrations avec Maple et Matlab. Volume 2 : Equations différentielles ordinaires, équations aux dérivées partielles//</color>, Vuibert, 2006. 288 pages | - <color #7092be>**F. Hubert**, J. Hubbard</color> <color #ff7f27>//CALCUL SCIENTIFIQUE - De la théorie à la pratique - Illustrations avec Maple et Matlab. Volume 2 : Equations différentielles ordinaires, équations aux dérivées partielles//</color>, Vuibert, 2006. 288 pages |
| {{ :fr:book2.jpeg?100 |}} | {{ :fr:book2.jpeg?100 |}} |
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| === Articles dans des revues avec comité de lecture === | === Articles dans des revues avec comité de lecture === |
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| | - <color #7092be>U. Baltaeva, P. Agarwal, B. Khasanov, H. Hayitbayev, ** F. Hubert**</color> <color #ff7f27>// Inverse analysis of a loaded heat conduction equation.//</color> Nanosystems: Physics, Chemistry, Mathematics, 16 (6), pp.727-736, 2026. https://doi.org/10.17586/2220-8054-2025-16-6-727-736 |
| | - <color #7092be>L. Curci, M.P Valignat, O. Theodoly, ** F. Hubert**, J. Olivier</color> <color #ff7f27>// In silico phase-field modeling of cell directed migration towards environments of lower or higher adhesion//</color> Mathematical Modelling of Natural Phenomena, 2025. https://doi.org/10.1051/mmnp/2025028 |
| | - <color #7092be> R. P. Agarwal, U. Baltaeva, ** F. Hubert**, B. Khasanov </color> <color #ff7f27>//Existence and uniqueness of the solution to initial and inverse problems for integro-differential heat equations with fractional load,//</color> Electronic journal of differential equations.Vol. 2024, No. 64, pp. 1-19, 2024. [[https://ejde.math.txstate.edu/Volumes/2024/64/agarwal.pdf|pdf]] |
| | - <color #7092be> C. Tayou Fosto, S. Girel, F. Anjuère, V. Braud, **F. Hubert**, T. Goudon</color> <color #ff7f27>//A mixture-like model for tumor-immune system interactions. //</color> Journal of Theoretical Biology, Volume 581, 2024. https://doi.org/10.1016/j.jtbi.2024.111738 |
| | - <color #7092be> P. Agarwal, Y. Dermenjian, U. Baltaeva, B. Hasanov, ** F. Hubert** </color> <color #ff7f27>//The Cauchy problem for the heat equation with a fractional load,//</color> Discrete and Continuous Dynamical Systems - S, 2024. https://doi.org/10.3934/dcdss.2024176 |
| | - <color #7092be> S. Chauvet, **F. Hubert**, F. Mann, M. Mezache</color> <color #ff7f27>//Tumorigenesis and axons regulation for the pancreatic cancer: A mathematical approach //</color> Journal of Theoretical Biology, Volume 556, 2023. https://doi.org/10.1016/j.jtbi.2022.11130 |
| - <color #7092be>M. Gander, L. Halpern, **F. Hubert**, S. Krell</color> <color #ff7f27>//Discrete Optimization of Robin Transmission Conditions for Anisotropic Diffusion with Discrete Duality Finite Volume Methods //</color> Vietnam J. Math. 2021. https://doi.org/10.1007/s10013-021-00518-3 | - <color #7092be>M. Gander, L. Halpern, **F. Hubert**, S. Krell</color> <color #ff7f27>//Discrete Optimization of Robin Transmission Conditions for Anisotropic Diffusion with Discrete Duality Finite Volume Methods //</color> Vietnam J. Math. 2021. https://doi.org/10.1007/s10013-021-00518-3 |
| - <color #7092be>M. Gander, L. Halpern, **F. Hubert**, S. Krell</color> <color #ff7f27>//Optimized Schwarz methods with general Ventcell transmission conditions for fully anisotropic diffusion with discrete duality finite volume discretizations //</color> Moroccan Journal of Pure and Applied Analysis, 7(2), p. 182-213, 2021. Published online https://content.sciendo.com/view/journals/mjpaa/mjpaa-overview.xml?language=en&tab_body=latestIssueToc-79907 | - <color #7092be>M. Gander, L. Halpern, **F. Hubert**, S. Krell</color> <color #ff7f27>//Optimized Schwarz methods with general Ventcell transmission conditions for fully anisotropic diffusion with discrete duality finite volume discretizations //</color> Moroccan Journal of Pure and Applied Analysis, 7(2), p. 182-213, 2021. Published online https://content.sciendo.com/view/journals/mjpaa/mjpaa-overview.xml?language=en&tab_body=latestIssueToc-79907 |
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| === Articles dans des actes de conférences === | === Articles dans des actes de conférences === |
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| | - <color #7092be>M. Gander, L. Halpern, **F. Hubert**, S. Krell</color> <color #ff7f27>// Optimized Robin Transmission Conditions |
| | for Anisotropic Diffusion on Arbitrary Meshes |
| | , //</color> In: 27st International Conference on Domain Decomposition, Prague, July 2022. |
| - <color #7092be>M. Gander, L. Halpern, **F. Hubert**, S. Krell</color> <color #ff7f27>// Overlapping DDFV Schwarz algorithms on non-matching grids | - <color #7092be>M. Gander, L. Halpern, **F. Hubert**, S. Krell</color> <color #ff7f27>// Overlapping DDFV Schwarz algorithms on non-matching grids |
| , //</color> In: 22st International Conference on Domain Decomposition, Hong Kong, China, Décembre 2020. | , //</color> In: 22st International Conference on Domain Decomposition, Hong Kong, China, Décembre 2020. |