Mario Ricchiuto

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JOURNAL PUBLICATIONS      

Preprints

  • A.G. Filippini, L. Arpaia; V. Perrier, R. Pedreros, P. Bonneton, D. Lannes, F. Marche, S. De Brye, S. Delmas, S. Lecacheux, F. Boulaya,  M. Ricchiuto, An operational discontinuous Galerkin shallow water model for coastal flood assessment, submitted to Computer Physics Communications
  • B. Jouy, D. Violeau,  M. Ricchiuto, M.H. Le, One dimensional modelling of Favre waves in channels, submitted to Applied Mathematical Modelling
  • M. Ciallella, S. Clain, E. Gaburro, and M. Ricchiuto. Very high order treatment of embedded curved boundaries in compressible flows: ADER discontinuous Galerkin with a space-time Reconstruction for Off-site data, submitted to Computers and Mathematics With Applications https://arxiv.org/abs/2312.07170
  • J. Visbech, A.P. Engsig-Karup, and M. Ricchiuto. A spectral element solution of the Poisson equation with shifted boundary polynomial corrections: influence of the surrogate to true boundary mapping and an asymptotically preserving Robin formulation, submitted to J.Sci.Comp arxiv.org/abs/2310.17621
  • L.Micalizzi, M. Ricchiuto and R. Abgrall, Novel well-balanced continuous interior penalty stabilizations, submitted to J.Sci.Comp. https://arxiv.org/abs/2307.09697
  • M. Ricchiuto and D. Torlo,  Analytical travelling vortex solutions of hyperbolic equations for validating very high order schemes, https://arxiv.org/abs/2109.10183

Published 

  1. Y. Mantri, P. Offner and M. Ricchiuto, Fully well balanced entropy controlled DGSEM for shallow water flows: global flux quadrature and cell entropy correction,  J.Comput.Phys. 498, 2024, https://doi.org/10.1016/j.jcp.2023.112673 – preprint: https://arxiv.org/abs/2212.11931
  2. M. Kazolea and M. Ricchiuto, Full nonlinearity in weakly dispersive Boussinesq models: luxury or necessity ?, to appear on  ASCE- J.Hyd.Eng. (preprint)
  3. M. Ciallella, D. Torlo and M. Ricchiuto, Arbitrary High Order WENO Finite Volume Scheme with Flux Globalization for Moving Equilibria Preservation,  J.Sci.Comp. 96, 2023 https://doi.org/10.1007/s10915-023-02280-9   (preprint)
  4. T. Carlier, L. Nouveau, H. Beaugendre, M. Colin, and M. Ricchiuto, An enriched shifted boundary method to account for moving fronts, J.Comput.Phys. 489, 2023 https://doi.org/10.1016/j.jcp.2023.112295 (preprint)
  5. S. Michel, D. Torlo, M. Ricchiuto, and R. Abgrall, Spectral analysis of  continuous FEM for hyperbolic PDEs on triangular meshes: influence of approximation, stabilization, and time-stepping, J.Sci.Comp. 94, 2023  https://doi.org/10.1007/s10915-022-02087-0 (PDF)
  6. M. Kazolea, A.G. Filippini, and M. Ricchiuto,  A low dispersion finite volume/element method for nonlinear wave propagation, breaking and runup on unstructured meshes, Ocean Modelling, to appear (PDF)
  7. M. Ciallella, E. Gaburro, M. Lorini, and  M. Ricchiuto, Shifted boundary polynomial corrections for compressible flows: high order on curved domains using linear meshes, Applied Mathematics & Computation,  https://doi.org/10.1016/j.amc.2022.127698 (PDF)
  8. D. Torlo and  M. Ricchiuto, Model order reduction strategies for weakly dispersive waves, Mathematics and Computers in Simulation, https://doi.org/10.1016/j.matcom.2022.10.034 (PDF)
  9. E. Gaburro, P. Offner,  M. Ricchiuto,  and D. Torlo, High order entropy preserving ADER-DG schemes, Applied Mathematics & Computation,  https://doi.org/10.1016/j.amc.2022.127644 (PDF)
  10. G. Bellezza, G. Couegnat, M. Ricchiuto, G. Vignoles, A 2D image-based multiphysics model for lifetime evaluation and failure scenario analysis of self-healing Ceramic-Matrix mini-Composites under a tensile load,  J.Eur.Cer.Soc.,  https://doi.org/10.1016/j.jeurceramsoc.2022.07.037 (PDF)
  11. A. Assonitis, M. Ciallella, R. Paciorri,  M. Ricchiuto, and A. Bonfiglioli, A new shock-fitting technique for 2-D structured grids, AIAA Journal,  https://doi.org/10.2514/1.J061893
  12. A. Cauquis, P. Heinrich, and  M. Ricchiuto,  Lax-Wendroff schemes with polynomial extrapolation and simplified Lax- Wendroff schemes for dispersive waves: a comparative study, Water Waves https://doi.org/10.1007/s42286-022-00060-w,  (PDF)
  13. S.M. Joshi, M. Kazolea and M. Ricchiuto, Parameter sensitivity for wave breaking closures in Boussinesq-type models, to appear on Water Waves, in  press https://doi.org/10.1007/s42286-022-00068-2  (PDF)
  14. M. Ciallella, M. Ricchiuto, R. Paciorri, and A. Bonfiglioli,  Extrapolated DIscontinuity Tracking for complex 2D shock interactions, Computer  Methods in Applied  Mechanics and Engineering 391, 2022   https://arxiv.org/abs/2108.13975
  15. L. Arpaia, M. Ricchiuto, A.G. Filippini, and R. Pedreros, An efficient 3d/2d-covariant formulation of the spherical shallow water equations: well balanced DG approximation and application to tsunami and storm surge, Ocean Modelling 2021  doi.org/10.1016/j.ocemod.2021.101915  (PDF)
  16. L. Campoli, A. Assonitis, M. Ciallella, R. Paciorri, A. Bonfiglioli, and M. Ricchiuto, UnDiFi-2D: an Unstructured Discontinuity Fitting code for 2D grids, Computer Physics Communications 271, 2021    https://arxiv.org/abs/2105.14269
  17. S. Michel, D. Torlo,  M. Ricchiuto, and R. Abgrall, Spectral analysis of continuous FEM for hyperbolic PDEs: influence of approximation, stabilization, and time-stepping,  Journal of Scientific Computing 89, 2021   https://arxiv.org/abs/2103.16158
  18. L. Cirrottola, M. Ricchiuto, A. Frohely, B. Re, A. Guardone and G. Quaranta, Adaptive deformation of 3D unstructured meshes with curved body fitted boundaries with application to unsteady compressible flows,  J.Comput.Phys.    https://doi.org/10.1016/j.jcp.2021.110177     (PDF)
  19. M. Ciallella, M. Ricchiuto, R. Paciorri, and A. Bonfiglioli, Extrapolated Shock-Tracking: bridging fitting and embedded boundary methods to handle shock waves,  J. Comput. Phys.  412,  2020 https://doi.org/10.1016/j.jcp.2020.109440 (PDF)
  20. L. Arpaia and M. Ricchiuto, Well balanced residual distribution for the ALE spherical shallow water equations on moving adaptive meshes, J. Comput. Phys.  DOI: 10.1016/j.jcp.2019.109173 – (PDF)
  21. P. Bacigaluppi, M. Ricchiuto, and P. Bonneton, Implementation and Evaluation of Breaking Detection Criteria for a Hybrid Boussinesq Model,  Water Waves 2, 2020 https://doi.org/10.1007/s42286-019-00023-8 – (PDF)
  22. M.E. Hubbard, M. Ricchiuto, and D. Sarmany, Space-time residual distribution on moving meshes, Computer & Mathematics with Applications,  DOI: 10.1016/j.camwa.2019.09.019 – (PDF)
  23. L. Nouveau, M. Ricchiuto, and G. Scovazzi, High-Order Gradients with the Shifted Boundary Method: An Embedded Enriched Mixed Formulation for Elliptic PDEs,  J. Comput. Phys. 398, 2019. DOI: 10.1016/j.jcp.2019.108898 – (PDF)
  24. R. Chassagne, A.G. Filippini, M. Ricchiuto and P. Bonneton, Dispersive and dispersive-like bores in channels with sloping banks,  Journal of Fluid Mechanics 870, pp. 595-616, 2019.  DOI: 10.1017/jfm.2019.287  –  (PDF)
  25. G. Perrot, G. Couegnat, M. Ricchiuto, and G. Vignoles, Image-based numerical modelling of self-healing in a ceramic-matrix mini-composite,  Ceramics 2(2), pp. 308-326, 2019.  DOI: 10.3390/ceramics2020026  –   (PDF)
  26. A. Chertock, A. Kurganov, M. Ricchiuto and T. Wu, Adaptive moving mesh upwind scheme for the two-species chemotaxis model, to appear on Computer & Mathematics with Applications 77(12), pp. 3172-318, 2019 DOI: 10.1016/j.camwa.2019.01.021 –  (PDF)
  27. U. Bosi, C. Eskilsson, A.P. Engsig-Karup, and M. Ricchiuto, A spectral/hp depth-integrated model for nonlinear wave body interaction, Comp. Meth. Appl. Mech. Eng. 348, pp. 222-249, 2019 – (PDF)
  28. H. Kalisch, M. Ricchiuto, P. Bonneton, M. Colin and P. Lubin, Introduction to the Special Issue on Breaking Waves. European Journal of Mechanics  B/Fluids, 73, 1-5, 2019 – (PDF)
  29. A.G. Filippini, L. Arpaia, P. Bonneton, and  M. Ricchiuto, Modelling analysis of tidal bore formation in convergent estuaries, Eur.J.Mech.  B/Fluids 73,  2019, DOI: 10.1016/j.euromechflu.2018.01.001 –(PDF)
  30. M. Kazolea, A.G. Filippini, M. Ricchiuto, S. Abadie, M. Martin Medina, D. Morichon, C. Journeau, R. Marcer, K. Pons, S. Leroy, R. Pedreros, M. Rousseau, Wave propagation, breaking, and overtopping on a 2D reef: a comparative evaluation of codes for tsunami modelling, European Journal of Mechanics – B/Fluids 73, 2019  DOI: 10.1016/j.euromechflu.2017.10.010
  31. T. Song, A. Main, G. Scovazzi, and M. Ricchiuto, The shifted boundary method for hyperbolic systems: embedded computations of linear waves and shallow water flows, J.Comput.Phys. 369, pp. 45-79, 2018   (PDF)
  32. M. Kazolea and M. Ricchiuto, On wave breaking for Boussinesq-type models, Ocean Modelling 123C, pp. 16-39, 2018 (PDF)
  33. L. Arpaia and M. Ricchiuto, r-adaptation for shallow water flows: conservation, well balancedness, efficiency, Computers & Fluids 160, pp. 175-203, 2018    (PDF)
  34. S. Bellec, M. Colin and M. Ricchiuto,  Discrete Asymptotic Equations for Long Wave Propagation, SIAM J. Numer. Anal., 54(6):3280–3299, 2016 (PDF)
  35. A. Mazaheri, M. Ricchiuto and H. Nishikawa, A first-order hyperbolic system approach for dispersion, J.Comput.Phys., 321:593 – 605, 2016 (PDF)
  36. S. Pavan, J.M. Hervouet, M. Ricchiuto and R. Ata, A second order residual based predictor-corrector approach for time dependent pollutant transport problems. J.Comput.Phys., 318:122 – 141, 2016
  37. P. Bonneton, A. Filippini, L. Arpaia, N. Bonneton and M. Ricchiuto. Conditions for tidal bore formation in convergent alluvial estuaries. Estuarine, Coastal and Shelf Science, 172:121 – 127,  2016  (PDF)
  38. A. Filippini, M. Kazolea and M. Ricchiuto. A flexible genuinely nonlinear approach for wave propagation, breaking and runup. J.Comput.Phys., 310:381–417, 2016. (PDF)
  39. L. Nouveau, H. Beaugendre, C. Dobrzynski, R. Abgrall and M. Ricchiuto. An adaptive, residual based, splitting approach for the penalized Navier-Stokes equations. Comp.Meth.Appl.Mech.Eng., 303:208-230, 2016.
  40. M. Ricchiuto. An explicit residual based approach for shallow water flows. J.Comput.Phys., 280:306–344, 2015. (PDF)
  41. L. Arpaia, M. Ricchiuto and R.Abgrall. An ALE formulation for explicit Runge-Kutta residual distribution. Journal of Scientific Computing, 63:502–547, 2015.
  42. J. Dobes,  M. Ricchiuto,  R.Abgrall and H. Deconinck. On hybrid residual distribution-Galerkin discretizations for steady and time dependent laminar flows, Computer Methods in Applied Mechanics and Engineering 283, 2015 (PDF)
  43. A. Filippini, S. Bellec, M. Colin and M. Ricchiuto. On the nonlinear behavior of Boussinesq type models: amplitude-velocity vs amplitude-flux forms. Coastal Engineering, 99:109–123, 2015. (PDF)
  44. A. Warzynski, M. Hubbard and M. Ricchiuto. Runge-Kutta residual distribution schemes. Journal of Scientific Computing, 62(3):772–802, 2015.
  45. M. Ricchiuto and A. Filippini. Upwind residual discretization of enhanced Boussinesq equations for wave propagation over complex bathymetries. J.Comput.Phys., 271:306–341, 2014. (PDF)
  46. R. Abgrall, D. DeSantis and M. Ricchiuto. High-order preserving residual distribution schemes for advection-diffusion scalar problems on arbitrary grids. SISC – SIAM Journal of Scientific Computing, 36(3):A955–A983, 2014. (PDF)
  47. R. Abgrall, G. Baurin, D. DeSantis, A. Krutz and M. Ricchiuto. Numerical approximation of parabolic problems by residual distribution schemes. International Journal of Numerical Methods in Fluids, 71(9), 2013. (PDF)
  48. D. Sarmany, M. Hubbard and M. Ricchiuto. Unconditionally stable space-time discontinuous residual distribution for shallow water flows. J.Comput.Phys., 253:86–113, 2013.
  49. R. Abgrall, G. Baurin, P. Jacq and M. Ricchiuto. Some examples of high order parallel simulations of inviscid flows on unstructured and hybrid meshes by residual distribution schemes. Computers & Fluids, 61:6–13, 2012.
  50. R. Abgrall, A. Larat and M. Ricchiuto. Construction of very high order residual distribution schemes for steady inviscid flow problems on hybrid unstructured meshes. J.Comput.Phys., 230(11):4103 – 4136, 2011.
  51. M. Hubbard and M. Ricchiuto. Discontinuous upwind residual distribution: A route to unconditional positivity and high order accuracy. Computers & Fluids, 46(1):263 – 269, 2011.
  52. M. Ricchiuto. On the C-property and generalized C-property of residual distribution for the shallow water equations. Journal of Scientific Computing, 48:304–318, 2011 – (PDF)
  53. N. Villedieu, T. Quintino, M. Ricchiuto and H. Deconinck. Third order residual distribution schemes for the Navier-Stokes equations. J.Comput.Phys., 230(11):4301 – 4315, 2011.
  54. M. Ricchiuto and R. Abgrall. Explicit Runge-Kutta residual distribution schemes for time dependent problems: Second order case. J.Comput.Phys., 229(16):5653 – 5691, 2010 – (PDF)
  55. R. Abgrall, A. Larat, M. Ricchiuto and C. Tavé. A simple construction of very high order non-oscillatory compact schemes on unstructured meshes. Computers & Fluids, 38(7):1314 – 1323, 2009.
  56. M. Ricchiuto and A. Bollermann. Stabilized residual distribution for shallow water simulations. J.Comput.Phys., 228(4):1071–1115, 2009  (PDF)
  57. M. Ricchiuto, N. Villedieu, R. Abgrall and H. Deconinck. On uniformly high-order accurate residual dis- tribution schemes for advection-diffusion. Journal of Computational and Applied Mathematics, 215(2):547 – 556, 2008.
  58. M. Ricchiuto, R. Abgrall and H. Deconinck. Application of conservative residual distribution schemes to the solution of the shallow water equations on unstructured meshes. J.Comput.Phys., 222:287–331, 2007 (PDF)
  59. J. Dobes, M. Ricchiuto and H. Deconinck. Implicit space-time residual distribution method for unsteady laminar viscous flow. Computers & Fluids, 34(4-5):593 – 615, 2005.
  60. M. Ricchiuto, A. Csík and H. Deconinck. Residual distribution for general time dependent conservation laws. J.Comput.Phys., 209(1):249–289, 2005 – ( PDF)
  61. H. Staedtke, G. Franchello, B. Worth, U. Graf, P. Romstedt, A. Kumbaro, J. Garcia-Cascales, H. Paillére, H. Deconinck, M. Ricchiuto, B. Smith, F. D. Cachard, E. Toro, E. Romenski and S. Mimouni. Advanced three-dimensional two-phase flow simulation tools for application to reactor safety (ASTAR). Nuclear Engineering and Design, 235(2-4):379 – 400, 2005.
  62. A. Csík, M. Ricchiuto and H. Deconinck. A conservative formulation of the multidimensional upwind residual distribution schemes for general nonlinear conservation laws. J.Comput.Phys., 179(2):286–312, 2002 – (PDF)

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