LEMON - 2016


Publications of the year

Doctoral Dissertations and Habilitation Theses

Articles in International Peer-Reviewed Journals

  • 2S. Barbier, A. Rapaport, A. Rousseau.

    Modelling of biological decontamination of a water resource in natural environment and related feedback strategies, in: Journal of Scientific Computing, 2016, vol. 68, no 3, 14 p. [ DOI : 10.1007/s10915-016-0178-9 ]

  • 3E. Blayo, D. Cherel, A. Rousseau.

    Towards optimized Schwarz methods for the Navier-Stokes equations, in: Journal of Scientific Computing, 2016, vol. 66, pp. 275–295.

  • 4E. Blayo, A. Rousseau.

    About Interface Conditions for Coupling Hydrostatic and Nonhydrostatic Navier-Stokes Flows, in: Discrete and Continuous Dynamical Systems - Series S, 2016, vol. 9, pp. 1565–1574.

  • 5M. Bossy, J. Espina, J. Morice, C. Paris, A. Rousseau.

    Modeling the wind circulation around mills with a Lagrangian stochastic approach, in: SMAI Journal of Computational Mathematics, September 2016, vol. 2, pp. 177-214. [ DOI : 10.5802/smai-jcm.13 ]

  • 6F. CHAVE, D. A. Di Pietro, F. Marche, F. Pigeonneau.

    A Hybrid High-Order method for the Cahn-Hilliard problem in mixed form, in: SIAM Journal on Numerical Analysis, 2016, vol. 54, no 3, pp. 1873-1898.

  • 7F. Campillo, N. Champagnat, C. Fritsch.

    Links between deterministic and stochastic approaches for invasion in growth-fragmentation-death models, in: Journal of Mathematical Biology, 2016. [ DOI : 10.1007/s00285-016-1012-6 ]

  • 8C. Lucas, J. C. Mcwilliams, A. Rousseau.

    Large scale ocean models beyond the traditional approximation, in: Annales de la Faculté des Sciences de Toulouse. Mathématiques. Série 6, June 2016.

  • 9C. Lucas, J. C. Mcwilliams, A. Rousseau.

    On nontraditional quasi-geostrophic equations, in: ESAIM: Mathematical Modelling and Numerical Analysis, 2016.


International Conferences with Proceedings

  • 10F. Campillo, M. Chebbi, S. Toumi.

    Stochastic modeling of the anaeorobic model AM2b: Models at different scales, in: 13th Africain Conference on Research in Computer Science and Applied Mathematics (CARI 2016), Tunis, Tunisia, October 2016.

  • 11N. Chahinian, A.-L. Piat-Marchand, S. Bringay, M. Teisseire, E. Boulogne, L. Deruelle, M. Derras, C. Delenne.

    How can big data be used to reduce uncertainty in stormwater modelling?, in: Spatial Accuracy, Montpellier, France, Proceedings of Spatial Accuracy 2016, July 2016, no ISBN: 978-2-9105-4510-5, pp. 322-329.

  • 12C. Delenne, J.-S. Bailly, M. Dartevelle, N. Marcy, A. Rousseau.

    Combining punctual and ordinal contour data for accurate floodplain topography mapping, in: Spatial Accuracy 2016, Montpellier, France, J.-S. Bailly, D. Grffith, D. Josselin (editors), Actes Avignon - ISBN: 978-2-9105-4510-5 - Juillet 2016, Jean-Stéphane Bailly, Didier Josselin, July 2016, vol. Proceedings of Spatial Accuracy 2016, pp. 350-357.


Other Publications

  • 13C. Acary-Robert, L. Dagnas, A. Rousseau.

    Modelling and simulation of coastal lagoons. : Application to the Tunquén lagoon, Chilean pacific coast, June 2016, working paper or preprint.

  • 14N. Aissiouene, T. Amtout, M. Brachet, E. Frénod, R. Hild, C. Prud 'homme, A. Rousseau, S. Salmon.

    Hydromorpho: A coupled model for unsteady Stokes/Exner equations and numerical results with Feel++ library, February 2016, working paper or preprint.

  • 15J. G. Caldas Steinstraesser, R. Cienfuegos, J. D. Galaz Mora, A. Rousseau.

    Optimized Schwarz method for the linearized KdV equation, August 2016, working paper or preprint.

  • 16F. Campillo, N. Champagnat, C. Fritsch.

    On the variations of the principal eigenvalue and the probability of survival with respect to a parameter in growth-fragmentation-death models, February 2016, working paper or preprint.

  • 17A. Duran, F. MARCHE.

    A discontinuous Galerkin method for a new class of Green-Naghdi equations on simplicial unstructured meshes, April 2016, working paper or preprint.

  • 18C. Fritsch, F. Campillo, O. Ovaskainen.

    A numerical approach to determine mutant invasion fitness and evolutionary singular strategies, December 2016, working paper or preprint.

References in notes
  • 19J. Auriault.

    Heterogeneous medium. Is an equivalent macroscopic description possible?, in: International journal of engineering science, 1991.
  • 20J. Auriault, P. Adler.

    Taylor dispersion in porous media: Analysis by multiple scale expansions, in: Adv. Wat. Res., 1995, vol. 18, pp. 217–226.
  • 21E. Barthélemy.

    Nonlinear shallow water theories for coastal waves, in: Surv Geophys, 2004, vol. 25, pp. 315–337.
  • 22E. Blayo, L. Debreu.

    Revisiting open boundary conditions from the point of view of characteristic variables, in: Ocean Model, 2005, vol. 9, no 3, pp. 231–252.
  • 23P. Bonneton, F. Chazel, D. Lannes, F. Marche, M. Tissier.

    A splitting approach for the fully nonlinear and weakly dispersive Green-Naghdi model, in: Journal of Computational Physics, 2011, vol. 230, no 4, pp. 1479 - 1498.
  • 24M. Brocchini, N. Dodd.

    Nonlinear Shallow Water Equation Modeling for Coastal Engineering, in: Journal of Waterway, 2008.
  • 25A. Chen, B. Evans, S. Djordjevic, D. Savic.

    A coarse-grid approach to representing building blockage effects in 2D urban flood modelling, in: J. Hydrol, March 2012, vol. 426, pp. 1–16.
  • 26A. Chen, B. Evans, S. Djordjevic, D. Savic.

    Multi-layer coarse-grid modelling in 2D urban flood simulations, in: J. Hydrol, March 2012, vol. 470, pp. 1-11.
  • 27R. Cienfuegos, E. Barthélemy, P. Bonneton.

    A fourth-order compact finite volume scheme for fully nonlinear and weakly dispersive Boussinesq-type equations. I. Model development and analysis, in: Internat. J. Numer. Methods Fluids, 2006, vol. 51, no 11, pp. 1217–1253.
  • 28B. Cushman-Roisin.

    Introduction to Geophysical Fluid Dynamics, 1st, Prentice Hall, April 1994.
  • 29A. Defina, L. D'alpaos.

    A new set of equations for very shallow water and partially dry areas suitable to 2D numerical models, in: Modelling Flood Propagation over Initially Dry Areas, 1994, pp. 82–101.
  • 30V. Dougalis, D. Mitsotakis, J.-C. Saut.

    Boussinesq Systems of Bona-Smith Type on Plane Domains: Theory and Numerical Analysis, in: Journal of Scientific Computing, 2010.
  • 31D. Dutykh, D. Mitsotakis.

    On the relevance of the dam break problem in the context of nonlinear shallow water equations, in: DCDS-B, 2010, vol. 13, pp. 799–818.
  • 32D. Dutykh, R. Poncet, F. Dias.

    The VOLNA code for the numerical modeling of tsunami waves: Generation, propagation and inundation, in: Eur J Mech B Fluids, 2011, vol. 30, no 6, pp. 598–615.
  • 33B. Engquist, A. Majda.

    Absorbing boundary conditions for the numerical simulation of waves, in: Math. Comp., 1977, vol. 31, no 139, pp. 629–651.
  • 34S. Frazao, Y. Zech.

    Undular bores and secondary waves–Experiments and hybrid finite-volume modelling, in: Journal of Hydraulic Research, 2002.
  • 35E. Frénod, A. Rousseau.

    Paralic Confinement: Models and Simulations, in: Acta Appl Math, January 2013, vol. 123, no 1, pp. 1–19.
  • 36V. Guinot, S. Soares-Frazão.

    Flux and source term discretization in two-dimensional shallow water models with porosity on unstructured grids, in: Int. J Numer. Meth. Fluids, 2006, vol. 50, pp. 309–345.
  • 37V. Guinot.

    Multiple porosity shallow water models for macroscopic modelling of urban floods, in: Adv Water Resour, 2012, vol. 37, pp. 40–72.
  • 38L. Halpern.

    Artificial boundary conditions for the linear advection diffusion equation, in: Math. Comp., 1986, vol. 46, no 74, pp. 425–438.
  • 39J.-M. Hervouét, R. Samie, B. Moreau.

    Modelling urban areas in dam-break flood-wave numerical simulations, in: International Seminar and Workshop on Rescue Actions Based on Dambreak Flow Analysis, Seinéjoki, Finland, 2000.
  • 40J. Klafter, A. Blumen, M. Shlesinger.

    Stochastic pathway to anomalous diffusion, in: Physical Review A, 1987, vol. 35, pp. 3081–3085.
  • 41D. Lannes, P. Bonneton.

    Derivation of asymptotic two-dimensional time-dependent equations for surface water wave propagation, in: Phys. Fluids, 2009, vol. 21, no 1, 016601.
  • 42D. Lannes.

    The water waves problem: mathematical analysis and asymptotics, in: Mathematical Surveys and Monographs, 2013.
  • 43O. Le Métayer, S. Gavrilyuk, S. Hank.

    A numerical scheme for the Green–Naghdi model, in: Journal of Computational Physics, 2010, vol. 229, pp. 2034–2045.
  • 44F. Lemarié, L. Debreu, E. Blayo.

    ... an Optimized Global-in-Time Schwarz Algorithm for Diffusion Equations with Discontinuous and Spatially Variable Coefficients, Part 1: The Constant Coefficients ..., in: Electronic Transactions on Numerical Analysis, 2012.
  • 45J. Lhomme.

    Modélisation des inondations en milieu urbain: approches unidimensionnelle, bidimensionnelle et macroscopique, Université Montpellier 2, France, 2006.
  • 46S. Majdalani, J.-P. Chazarin, C. Delenne, V. Guinot.

    Solute tranport in periodical heterogeneous porous media: importance of observation scale and experimental sampling, in: Journal of Hydrology, January 2015, vol. 520, pp. 52-60. [ DOI : 10.1016/j.jhydrol.2014.10.065 ]

  • 47R. Metzler, J. Klafter.

    The random walk's guide to anomalous diffusion: a fractional dynamics approach, in: Phys Rep, 2000, vol. 339, no 1, pp. 1–77.
  • 48A. Ogilvie, G. Belaud, C. Delenne, J.-S. Bailly, J.-C. Bader, A. Oleksiak, L. Ferry, D. Martin.

    Decadal monitoring of the Niger Inner Delta flood dynamics using MODIS optical data, in: Journal of Hydrology, April 2015, vol. 523, pp. 368-383. [ DOI : 10.1016/j.jhydrol.2015.01.036 ]

  • 49G. Papanicolau, A. Bensoussan, J.-L. Lions.

    Asymptotic analysis for periodic structures, in: North-Holland, 1978.
  • 50A. Rousseau, R. Temam, J. Tribbia.

    The 3D primitive equations in the absence of viscosity: boundary conditions and well-posedness in the linearized case, in: J. Math. Pures Appl. (9), 2008, vol. 89, no 3, pp. 297–319.
  • 51B. F. Sanders, J. E. Schubert, H. A. Gallegos.

    Integral formulation of shallow-water equations with anisotropic porosity for urban flood modeling, in: J. Hydrol, 2008, vol. 362, pp. 19–38.
  • 52S. Soares-Frazão, J. Lhomme, V. Guinot, Y. Zech.

    Two-dimensional shallow-water model with porosity for urban flood modelling, in: Journal of Hydraulic Research, 2008, vol. 46, no 1, pp. 45–64.
  • 53M. Tissier, P. Bonneton, F. Marche, F. Chazel, D. Lannes.

    A new approach to handle wave breaking in fully non-linear Boussinesq models, in: Coastal Engineering, 2012, vol. 67, pp. 54–66.
  • 54M. Velickovic.

    Macroscopic modeling of urban flood by a porosity approach, Université catholique de Louvain, Belgium, 2012.
  • 55J. Yan, C. Shu.

    Local discontinuous Galerkin methods for partial differential equations with higher order derivatives, in: Journal of Scientific Computing, 2002.
  • 56M. Zijlema, G. Stelling, P. Smit.

    SWASH : an operational public domain code for simulating wave fields and rapidly varying flows in coastal waters, in: Coastal Engineering, 2011, vol. 58, pp. 992–1012.