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Beyond Procrustes: Balancing-Free Gradient Descent for Asymmetric Low-Rank Matrix Sensing

Cong Ma, Yuanxin Li, Yuejie Chi

2021IEEE Transactions on Signal Processing28 citationsDOIOpen Access PDF

Abstract

Low-rank matrix estimation plays a central role in various applications across science and engineering. Recently, nonconvex formulations based on matrix factorization are provably solved by simple gradient descent algorithms with strong computational and statistical guarantees. However, when the low-rank matrices are asymmetric, existing approaches rely on adding a regularization term to balance the scale of the two matrix factors which in practice can be removed safely without hurting the performance when initialized via the spectral method. In this paper, we provide a theoretical justification to this for the matrix sensing problem, which aims to recover a low-rank matrix from a small number of linear measurements. As long as the measurement ensemble satisfies the restricted isometry property, gradient descent-in conjunction with spectral initialization-converges linearly without the need of explicitly promoting balancedness of the factors; in fact, the factors stay balanced automatically throughout the execution of the algorithm. Our analysis is based on analyzing the evolution of a new distance metric that directly accounts for the ambiguity due to invertible transforms, and might be of independent interest.

Topics & Concepts

InitializationInvertible matrixGradient descentMatrix (chemical analysis)Rank (graph theory)Mathematical optimizationAlgorithmComputer scienceMatrix decompositionMathematicsRegularization (linguistics)Applied mathematicsCombinatoricsArtificial intelligencePure mathematicsProgramming languageComposite materialMaterials scienceArtificial neural networkQuantum mechanicsEigenvalues and eigenvectorsPhysicsSparse and Compressive Sensing TechniquesMicrowave Imaging and Scattering AnalysisElectrical and Bioimpedance Tomography
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