Organizers: Giovanni Catino and Fabio Cipriani
Matteo Santacesaria, Politecnico di Milano,
Inverse problems for PDE via infinite dimensional compressed sensing, Tuesday, November 14, 2017, time 15:15, Aula seminari 3° piano
Abstract:Abstract:
Compressed sensing stands for a series of techniques whose aim is to recover a sparse signal from a small number of measurements. Since the 2006 seminal papers of Candes-Romberg-Tao and Donoho, which concerned the recovery of a sparse vector from few discrete Fourier coefficients, the subject has been extensively studied and generalized. In this talk we will present new results concerning generalization of compressed sensing in the framework of Hilbert spaces: in particular, the measurement operator does not need to be a orthonormal transformation and the unknown is assumed to be sparse in a frame. Applications to inverse problems for PDE, such as electrical impedance tomography, will be discussed as well. This is a joint work with Giovanni S. Alberti.
Fabio Punzo, Politecnico di Milano,
The Porous Medium Equation with Large Initial Data on Negatively Curved Riemannian Manifolds , Wednesday, October 18, 2017, time 15:15, Aula seminari 3° piano
Abstract:Abstract:
We discuss existence and uniqueness of very weak solutions of the Cauchy problem for the porous medium equation on Cartan–Hadamard manifolds satisfying suitable lower bounds on Ricci curvature, with initial data that can grow at in?nity at a prescribed rate, that depends crucially on the curvature bounds. Furthermore, we give a precise estimate for the maximal existence time, and we show that in general solutions do not exist if the initial data grow at in?nity too fast. Such results have been recently obtained jointly with G. Grillo and M. Muratori.
Ciprian G. Gal, Florida International University, Miami, USA,
Doubly nonlocal Cahn-Hilliard equations, Friday, July 14, 2017, time 11:00, Aula seminari 3° piano
Abstract:Abstract:
We consider a doubly nonlocal nonlinear parabolic equation
which describes phase-segregation of a two-component material in a
bounded domain. This model is a more general version than the recent
nonlocal Cahn–Hilliard equation proposed by Giacomin and Lebowitz,
such that it reduces to the latter under certain conditions. It turns
out that there are four possible cases of double interaction in which
the nonlocality is reflected, we shall discuss some of them.
Antonio Segatti, Università degli studi di Pavia,
A gradient flow approach to a porous medium equation with fractional pressure, Wednesday, June 14, 2017, time 14:15, Aula seminari 3° piano
Abstract:Abstract:
In this seminar I will show how a porous medium equation with fractional pressure,
that has been recently introduced and studied by Caffarelli and Vazquez,can be understood as
a Wasserstein gradient flow.
The results include the energy dissipation inequality, the regularizing effect and decay estimates for the L^p norms.
This is a joint work with S. Lisini and E. Mainini. dimat.unipv.it/segatti
Enrico Laeng, Politecnico di Milano,
A quantitative Riemann-Lebesgue Lemma with application to equations with memory, Wednesday, June 14, 2017, time 16:00, Aula seminari 3° piano
Abstract:Abstract:
We prove a quantitative version of the Riemann-Lebesgue lemma for functions supported on the half-line. We apply our result to some linear differential equations with memory, obtaining optimal decay rates for solutions at infinity.
Wilfredo Urbina, Roosevelt University - Chicago USA,
Transference results from the $L^p$ continuity of operators in the Jacobi case to the $L^p$ continuity of operators in the Hermite and Laguerre case, Wednesday, May 24, 2017, time 13:15, Aula seminari 3° piano
Abstract:Abstract:
Using the well known asymptotic relations between Jacobi polynomials and Hermite and Laguerre polynomials we develop a transference method to obtain the $L^p$-continuity of the Gaussian-Riesz transform and the $L^p$-continuity of the Laguerre-Riesz transform from the $L^p$-continuity of the Jacobi-Riesz transform, in dimension one as well as the $L^p$-continuity of the Gaussian-Riesz transform and the $L^p$-continuity of the Laguerre-Riesz transform from the $L^p$-continuity of the Jacobi-Riesz transform. The case of the corresponding Littlewood-Paley g-functions will also be discussed.