Phase retrieval without small-ball probability assumptions: Recovery guarantees for phaselift

2015 International Conference on Sampling Theory and Applications (SampTA) Pub Date : 2015-05-25 DOI:10.1109/SAMPTA.2015.7148966

F. Krahmer, Yi-Kai Liu

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引用次数: 2

Abstract

We study the problem of recovering an unknown vector x ε Rⁿ from measurements of the form y_i = |a^T_i x|² (for i = 1,..., m), where the vectors a_i ε Rⁿ are chosen independently at random, with each coordinate a_ij ε R being chosen independently from a fixed sub-Gaussian distribution D. However, without making additional assumptions on the random variables a_ij - for example on the behavior of their small ball probabilities - it may happen some vectors x cannot be uniquely recovered. We show that for any sub-Gaussian distribution V, with no additional assumptions, it is still possible to recover most vectors x. More precisely, one can recover those vectors x that are not too peaky in the sense that at most a constant fraction of their mass is concentrated on any one coordinate. The recovery guarantees in this paper are for the PhaseLift algorithm, a tractable convex program based on a matrix formulation of the problem. We prove uniform recovery of all not too peaky vectors from m = 0(n) measurements, in the presence of noise. This extends previous work on PhaseLift by Candès and Li [8].

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无小球概率假设的相位恢复:相位提升的恢复保证

我们研究了从yi = |aTi x|2(对于i = 1，…)的测量值中恢复未知向量x ε Rn的问题。， m)，其中向量ai ε Rn是随机独立选择的，每个坐标aij ε R是从固定的亚高斯分布d中独立选择的。然而，如果不对随机变量aij做额外的假设-例如对它们的小球概率的行为-可能会发生一些向量x不能唯一恢复的情况。我们证明，对于任何亚高斯分布V，在没有额外假设的情况下，仍然有可能恢复大多数向量x。更准确地说，人们可以恢复那些不是太尖峰的向量x，因为它们的质量最多有一个常数部分集中在任何一个坐标上。本文的恢复保证是针对PhaseLift算法，一个基于矩阵形式的可处理凸规划问题。我们证明了在存在噪声的情况下，m = 0(n)测量中所有不太尖峰的向量的均匀恢复。这扩展了cand和Li[8]之前在PhaseLift上的工作。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 International Conference on Sampling Theory and Applications (SampTA)

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