Theory and applications of shearlets
Demetrio Labate
Universidad de Houston

http://www.math.uh.edu/~dlabate

Several advanced multiscale representations, most notably curvelets and shearlets, were introduced during the last decade to overcome known limitations of wavelets and other traditional methods. In fact, even though wavelets are very efficient to handle signals with point singularities, they are suboptimal when dealing with edges and those distributed singularities which typically dominate multidimensional data. Shearlets by contrast are specially designed to combine the power of multiscale analysis with ability to handle directional information efficiently. As a result, they offer very useful microlocal properties and optimally efficient representations, in a precise sense, for a large class of  multivariate functions.

In this talk, I will illustrate the construction of shearlet frames and give a brief overview of their sparse approximation properties. Next, I will present and discuss several results illustrating the unique ability of the shearlet transform to provide a precise geometric characterization of singularities. These properties provide the theoretical underpinning for several state-of-the-art applications from signal processing and inverse problems, including data restoration, edge detection and feature extraction.

  Se le questiona acerca de si son mejores los filtros basados en Shearlet que en Least median squares, y da la observación de que depende del tipo de ruido del que se este trabajando. pues si, la caracterización del ruido determina su tipo o distribución.