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Fast Sublinear Sparse Representation using Shallow Tree Matching Pursuit
Sparse approximations using highly over-complete dictionaries is a
state-of-the-art tool for many imaging applications including denoising,
super-resolution, compressive sensing, light-field analysis, and object
recognition. Unfortunately, the applicability of such methods is severely
hampered by the computational burden of sparse approximation: these algorithms
are linear or super-linear in both the data dimensionality and size of the
dictionary. We propose a framework for learning the hierarchical structure of
over-complete dictionaries that enables fast computation of sparse
representations. Our method builds on tree-based strategies for nearest
neighbor matching, and presents domain-specific enhancements that are highly
efficient for the analysis of image patches. Contrary to most popular methods
for building spatial data structures, out methods rely on shallow, balanced
trees with relatively few layers. We show an extensive array of experiments on
several applications such as image denoising/superresolution, compressive
video/light-field sensing where we practically achieve 100-1000x speedup (with
a less than 1dB loss in accuracy)
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