Sharp Time--Data Tradeoffs for Linear Inverse Problems

July 16, 2015 Β· Declared Dead Β· πŸ› IEEE Transactions on Information Theory

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Authors Samet Oymak, Benjamin Recht, Mahdi Soltanolkotabi arXiv ID 1507.04793 Category cs.IT: Information Theory Cross-listed cs.LG, math.OC, math.ST Citations 91 Venue IEEE Transactions on Information Theory Last Checked 4 months ago
Abstract
In this paper we characterize sharp time-data tradeoffs for optimization problems used for solving linear inverse problems. We focus on the minimization of a least-squares objective subject to a constraint defined as the sub-level set of a penalty function. We present a unified convergence analysis of the gradient projection algorithm applied to such problems. We sharply characterize the convergence rate associated with a wide variety of random measurement ensembles in terms of the number of measurements and structural complexity of the signal with respect to the chosen penalty function. The results apply to both convex and nonconvex constraints, demonstrating that a linear convergence rate is attainable even though the least squares objective is not strongly convex in these settings. When specialized to Gaussian measurements our results show that such linear convergence occurs when the number of measurements is merely 4 times the minimal number required to recover the desired signal at all (a.k.a. the phase transition). We also achieve a slower but geometric rate of convergence precisely above the phase transition point. Extensive numerical results suggest that the derived rates exactly match the empirical performance.
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