Location
Dates
Presentation
The purpose of this school is to focus on two particularly active areas which are representative of new interactions between harmonic analysis and signal and image processing that had striking developments in the last 10 years.
- Sparse representation and Compressed sensing.
- Multifractal Analysis.
Administrative and scientific coordinators
Scientific program
Course 1: "Scale invariance and multifractal analysis : from theory to applications", Patrice Abry (CNRS and ENS Lyon, France)
Course 2: "Computational Harmonic Analysis (from foundations to the numerical realization)", Hans Feichtinger (Universität Wien, Austria)
Course 3: "A tutorial on Compressive Sensing", Simon Foucart (Drexel University, USA)
Course 4: "Multifractal analysis of Cantor-like measures", Kathryn Hare (University of Waterloo Canada)
Course 5: "Signal Classification and Multifractal Analysis with Invariant Representation", Stéphane Mallat (École Polytechnique, France)
Course 6: "Wavelets and multifractal analysis", Stéphane Seuret (Université Paris Est Créteil - Val de Marne, France)
Course 7: "Lebesgue Type Inequalities for Greedy Approximation", Vladimir Temlyakov(University of South Carolina, USA)
Course 8: "Fourier Operators in Applied Harmonic Analysis", John Benedetto (Norbert Wiener Center, University of Maryland, USA)
Course 9: "The Kadison-Singer Problem in Mathematics and Engineering", Pete Casazza (University of Missouri, USA)
Course 10: "Multi-scale imaging with sparsely sampled seismic reflection data using curvelets", Maarten de Hoop (Purdue University, USA)
Course 11: "Three ways to time-frequency sparsity", Patrick Flandrin (ENS Lyon, France)
Course 12: "Quasi-greedy bases and Lebesgue type inequalities", Eugenio Hernández (Universidad Autónoma de Madrid, Spain)
Course 13: "Optimal Compressive Imaging for Fourier Data", Gitta Kutyniok (Technische Universität Berlin, Germany)
Course 14: "Gabor frames and complex analysis ", Yuri Lyubarsky (Norwegian University of Science and Technology, Norway)
Course 15: "On linear independence of systems of translates ", Sandra Saliani (Università degli Studi della Basilicata, Italy)