Preprints/Submitted

  1. M. Nonino, D. Torlo
    Calibration-Based ALE Model Order Reduction for Hyperbolic Problems with Self-Similar Travelling Discontinuities (2024).
    [preprint]
  2. I. Prusak, D. Torlo, M. Nonino, G. Rozza
    Optimisation--Based Coupling of Finite Element Model and Reduced Order Model for Computational Fluid Dynamics (2024).
    [preprint]
  3. I. Prusak, D. Torlo, M. Nonino, G. Rozza
    An optimisation-based domain-decomposition reduced order model for parameter-dependent non-stationary fluid dynamics problems (2023).
    [preprint]
  4. D. Pradovera, M. Nonino, I. Perugia
    Geometry-based approximation of waves in complex domains (2023).
    [preprint]

Book Chapters

  1. M. Nonino, F. Ballarin, G. Rozza, Reduced Order Methods for Fluid-Structure Interaction Problems, in G. Rozza, G. Stabile, F. Ballarin (Eds.), "Advanced Reduced Order Methods and Applications in Computational Fluid Dynamics", Siam series on Computational Science and Engineering, pages 283-310 (2022), Siam.

Journals

  1. I. Prusak, M. Nonino, D. Torlo, F. Ballarin, G. Rozza
    An optimisation-based domain-decomposition reduced order model for the incompressible Navier-Stokes equations (2022).
    Computers & Mathematics with Applications, 51 (2023).
  2. M. Nonino, F. Ballarin, G. Rozza, Y. Maday
    A Reduced Basis Method by means of transport maps for a fluid-structure interaction problem with slowly decaying Kolmogorov n-width.
    Advances in Computational Science and Engineering, 1, 1 (2023).
    [PDF]
  3. M. Nonino, F. Ballarin, G. Rozza, Y. Maday
    Projection Based Semi-Implicit Partitioned Reduced Basis Method for Fluid-Structure Interaction Problems.
    Journal of Scientific Computing 94, 4 (2022).
    [PDF]
  4. E. Karatzas, M. Nonino, F. Ballarin, G. Rozza
    A reduced order Cut Finite Element Method for geometrically parametrized steady and unsteady Navier-Stokes problems.
    Computer & Mathematics with Applications (2021).
    [pdf]
  5. M. Nonino, F. Ballarin, G. Rozza
    A monolithic and a partitioned Reduced Basis Method for Fluid-Structure Interaction problems.
    Fluids, 6, 229, (2021).
    [PDF]
  6. D. Breda, G. Menegon, M. Nonino
    Delay equations and characteristic roots: stability and more from a single curve.
    Electronic Journal of Qualitative Theory of Differential Equations, 89, pp. 1-22 (2018).
    [PDF]

Theses

  1. M. Nonino
    PhD thesis
    On the application of the Reduced Basis Method to Fluid-Structure Interaction problems.
    Supervisor: Prof. G. Rozza.
    Co-advisor: Dr. F. Ballarin
    [PDF]
  2. M. Nonino
    Master thesis
    On a special characteristic equation and its application to structured populations.
    Supervisor: Dr. D. Breda
  3. M. Nonino
    Bachelor thesis
    Modelli matematici sull'evoluzione spaziale e temporale delle epidemie.
    Supervisor: Prof. P. Baiti