Teaching 2015-2016 Curriculum in Mathematics for Engineering
Discrete Harmonic Analysis Fabio Scarabotti; 20 hours
Tuesday room 1E 10:00-12:00 Friday room 1E 10:00-12:00
Starting data : Friday November 13
Program
The Discrete Fourier Transform (DFT), the discrete Fourier transform on the hypercube, the Fast Fourier Transform (FFT). Applications to random walks: the Ehrenfest diffusion model, convergence to the stationary distribution and the Diaconis cutoff phenomenon. Graph Laplacians and the isoperimetric constant. The inequalities of Alon-Milman and Dodziuk.
Asymptotic behaviour of the spectral gap: the Alon-Boppana-Serre theorem.
Expanders and Ramanujan graphs. The Margulis construction.
References
Ceccherini-Silberstein, Tullio; Scarabotti, Fabio; Tolli, Filippo Harmonic analysis on finite groups. Representation theory, Gelfand pairs and Markov chains. Cambridge Studies in Advanced Mathematics, 108. Cambridge University Press, Cambridge, 2008.
Ceccherini-Silberstein, Tullio; Scarabotti, Fabio; Tolli, Filippo Harmonic analysis on finite abelian groups and finite fields. Book in preparation.
Davidoff, Giuliana; Sarnak, Peter; Valette, Alain Elementary number theory, group theory, and Ramanujan graphs. London Mathematical Society Student Texts, 55. Cambridge University Press, Cambridge, 2003.
Hoory, Shlomo; Linial, Nathan; Wigderson, Avi Expander graphs and their applications. Bull. Amer. Math. Soc. (N.S.) 43 (2006), no. 4, 439-561.
Stein, Elias M.; Shakarchi, Rami Fourier analysis. An introduction. Princeton Lectures in Analysis, 1. Princeton University Press, Princeton, NJ, 2003.
Terras, Audrey Fourier analysis on finite groups and applications. London Mathematical Society Student Texts, 43. Cambridge University Press, Cambridge, 1999.
"Introduction to Sobolev Spaces and Differential Equations" Prof. Daniele Andreucci
2016-03-07 Mon 11:00-13:00
2016-03-09 Wed 11:00-13:00
2016-03-14 Mon 11:00-13:00
2016-03-22 Tue 10:15-12:15
2016-03-31 Thu 14:00-16:00
2016-04-04 Mon 11:00-13:00
Program
Lebesgue measure. Lp spaces. Convergence in Lp spaces. Weak derivatives. Sobolev spaces. Approximation. Traces. Sobolev embeddings. Hilbert spaces. Representation of linear operators. Lax Milgram theorem.
"Integro-differential equations" Prof. Daniela Sforza
06/4 11-13 room 1B1
11/4 11-13 room 1B1
13/4 11-13 room 1B1
18/4 11-13 room 1B1
20/4 11-13 room 1B1
Program
How to define viscoelastic partial integro-differential equations, by introducing in the wave equation memory terms. Structure and meaning of a memory term: an integral convolution between the unknown function and a kernel characterizing the viscoelastic material. The assumption of fading memory in viscoelasticity theory. Admissible classes of integral kernels. Representations by means of Fourier series of the solutions of integrodifferential equations when integral kernels are decreasing exponential functions. Existence and regularity of solutions of viscoelastic equations in the case of more general integral kernels. Dissipation of the energy.
"Elliptic equation: general existence results" Prof. Daniela Giachetti
June- July 2016
Program
Linear and semilinear elliptic equations. Lax-Milgram’s and Stampacchia’s Theorems.Nonlinear elliptic equations. The Leray-Lions existence Theorem. Some notions on spectral analysis for linear operator and applications to some semilinear equations.Maximum principle and strong maximum principle. Singular elliptic equations. Problems with source terms in L^1 or measures
Constrained Optimization Prof. Paola Loreti
Starting days
2016-04-18 Mon 14:00 via Eudossiana room 22
2016-04-21 Thu 15:45 via Eudossiana room 22
Syllabus
Convex sets and convex functions. Convexity and optimization. Constrained optimization. Constrained qualification. Karush-Kuhn-Tucker conditions. Examples of optimal control problems. The value function. The dynamic programming principle and the Hamilton-Jacobi-Bellman equation