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24 August 2015 Fast angular synchronization for phase retrieval via incomplete information
Aditya Viswanathan, Mark Iwen
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Proceedings Volume 9597, Wavelets and Sparsity XVI; 959718 (2015) https://doi.org/10.1117/12.2186336
Event: SPIE Optical Engineering + Applications, 2015, San Diego, California, United States
Abstract
We consider the problem of recovering the phase of an unknown vector, x ∈ ℂd, given (normalized) phase difference measurements of the form xjxk*/|xjxk*|, j,k ∈ {1,...,d}, and where xj* denotes the complex conjugate of xj. This problem is sometimes referred to as the angular synchronization problem. This paper analyzes a linear-time-in-d eigenvector-based angular synchronization algorithm and studies its theoretical and numerical performance when applied to a particular class of highly incomplete and possibly noisy phase difference measurements. Theoretical results are provided for perfect (noiseless) measurements, while numerical simulations demonstrate the robustness of the method to measurement noise. Finally, we show that this angular synchronization problem and the specific form of incomplete phase difference measurements considered arise in the phase retrieval problem - where we recover an unknown complex vector from phaseless (or magnitude) measurements.
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Aditya Viswanathan and Mark Iwen "Fast angular synchronization for phase retrieval via incomplete information", Proc. SPIE 9597, Wavelets and Sparsity XVI, 959718 (24 August 2015); https://doi.org/10.1117/12.2186336
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KEYWORDS
Phase measurement
Phase retrieval
Signal to noise ratio
Cadmium
Algorithms
Error analysis
Numerical simulations
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