Extracting Signals and Graphical Models from Compressed Measurements
Author(s)
Zhang, Hang
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Abstract
The thesis is to give an integrated approach to efficiently learn the interdependency relation among high dimensional signal components and reconstruct signals from observations collected in a linear sensing system, Broadly speaking, the research topics consists of three parts: (i) interdependency relation learning; (ii) sensing system design; and (iii) signal reconstruction. In the interdependency relation learning part, we considered both the parametric and non-parametric methods to learn the graphical structure under the noisy indirect measurements. In the sensing system design part, we introduced a density evolution framework to design sensing systems for compressive sensing for the first time. In the signal reconstruction part, we focused on the signal reconstruction with a given sensing system, which consists of three parts: signal reconstruction with inexact knowledge of the sensing system; signal reconstruction with the signal being contaminated by undesired noise; signal reconstruction with the signal belonging to a union of convex sets.
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2021-12-08
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Dissertation