theses

Those interested in developing a thesis in numerical analysis, dynamical systems or applied mathematics in general can contact me. The arguments concern numerical methods of interpolation and approximation, integration, collocation, continuation and bifurcation in the context of functional equations of differential and integro-differential types and infinite-dimensional dynamical systems. Applications are relevant to the stability analysis of models of population dynamics and of control theory in general. Alternative proposals are welcome, anyway to arrange.

examples

  1. G. Bosco. tba. MSc in Mathematics 2023/24, advisor.

  2. C. A. Tanase. tba. MSc in Mathematics 2023/24, advisor.

  3. M. Palermo. tba. MSc in Mathematics 2023/24, advisor.

  4. A. Pecile. Data-driven methods for delay differential equations. MSc in Mathematics 2021/22, advisor.

  5. S. De Reggi. Bivariate collocation methods for computing the basic reproduction number of population dynamics with double structure. MSc in Mathematics 2019/20, advisor.

  6. A. Claudi. Valutazione numerica delle opzioni finanziarie. BSc in Mathematics 2018/19, advisor.

  7. M. Gambone. Applicazioni della differenziazinoe automatica al calcolo di equilibri di sistemi dinamici. BSc in Mathematics 2018/19, advisor.

  8. A. Lanza. Alternating implicit direction methods for option pricing, in collaboration with Centrale Supélec, Paris. MSc in Mathematics 2017/18, advisor.

  9. F. Florian. Numerical computation of the basic reproduction number in population dynamics. MSc in Mathematics 2017/18, advisor.

  10. G. Gava. Behavioral epidemiology: how past information affects vaccinating behaviours. MSc in Mathematics 2016/17, advisor.

  11. M. Meinero. Ongoing project on Modeling of industrial processes for control and optimization. MSc in Mathematics 2016/17, advisor.

  12. T. Erjavec. Riemannian manifolds and tangent spaces: application to human activity recognition. MSc in Mathematics 2016/17, co-advisor.

  13. S. Busato. Automatic differentiation and applications to financial problems. MSc in Mathematics 2015/16, advisor.

  14. M. Nonino. On a special characteristic equation and its application to structured populations. MSc in Mathematics 2015/16, advisor.

  15. G. Menegon, On characteristic roots of delay differential equations. MSc in Mathematics 2014/15, advisor.

  16. S. Della Schiava, Computation of Lyapunov exponents for differential equations. MSc in Mathematics 2013/14, advisor.

  17. D. Liessi, A model for the dynamics of the impact between hammer and string in the grand piano. MSc in Mathematics 2012/13, co-advisor.

  18. V. Busoni, Pseudospectral approaches for approximating retarded functional differential equations. MSc in Mathematics 2012/13, advisor.

  19. C. Narduzzi, Efficient determination of the stability of equilibria for delay differential equations. MSc in Mathematics 2012/13, advisor.

  20. R. Mauro, Chebfun: polynomial roots and eigenvalues. BSc in Mathematics 2010/11, advisor.

  21. P. Osgnach, Adaptive refinement for image compression. MSc in Informatics 2009/10, advisor.

  22. A.M. D’ambrosio, Perron and Frobenius Theorems and ranking algorithms. BSc in Mathematics 2009/10, co-advisor.

  23. C. Narduzzi, Wavelets and multiresolution analysis. BSc in Mathematics 2009/10, advisor.

  24. A. Paussa, Pseudospectral methods for the numerical simulation of nanoelectron devices. MSc in Engineering 2007/08, co-advisor.

  25. D. Sechi, Development of a graphic user interface to study the stability of delay differential systems. BSc in Informatics 2004/05, co-advisor.