Block Coordinate Descent for Regularized Multi-convex Optimization

Date
2013-09-16
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Abstract

This thesis considers regularized block multi-convex optimization, where the feasible set and objective function are generally non-convex but convex in each block of variables.
I review some of its interesting examples and propose a generalized block coordinate descent (BCD) method. The generalized BCD uses three different block-update schemes. Based on the property of one block subproblem, one can freely choose one of the three schemes to update the corresponding block of variables. Appropriate choices of block-update schemes can often speed up the algorithm and greatly save computing time. Under certain conditions, I show that any limit point satisfies the Nash equilibrium conditions. Furthermore, I establish its global convergence and estimate its asymptotic convergence rate by assuming a property based on the Kurdyka-{\L}ojasiewicz inequality. As a consequence, this thesis gives a global linear convergence result of cyclic block coordinate descent for strongly convex optimization. The proposed algorithms are adapted for factorizing nonnegative matrices and tensors, as well as completing them from their incomplete observations. The algorithms were tested on synthetic data, hyperspectral data, as well as image sets from the CBCL, ORL and Swimmer databases. Compared to the existing state-of-the-art algorithms, the proposed algorithms demonstrate superior performance in both speed and solution quality.

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Degree
Master of Arts
Type
Thesis
Keywords
Block multi-convex, Block coordinate descent, Kurdyka-Lojasiewicz inequality, Nonnegative matrix and tensor factorization, Matrix completion, Tensor completion, Optimization
Citation

Xu, Yangyang. "Block Coordinate Descent for Regularized Multi-convex Optimization." (2013) Master’s Thesis, Rice University. https://hdl.handle.net/1911/72066.

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