Undersampled Phase Retrieval via Majorization-Minimization

Abstract

In the undersampled phase retrieval problem, the goal is to recover an N-dimensional complex signal x from only M<N noisy intensity measurements without phase information. This problem has drawn a lot of attention to reduce the number of required measurements since a recent theory established that M≈4N intensity measurements are necessary and sufficient to recover a generic signal x. In this paper, we propose to exploit the sparsity in the original signal and develop low-complexity algorithms with superior performance based on the majorization-minimization (MM) framework. The proposed algorithms are preferred to existing benchmark methods since at each iteration a simple surrogate problem is solved with a closed-form solution that monotonically decreases the original objective function. Experimental results validate that our algorithms outperform existing up-to-date methods in terms of recovery probability and accuracy, under the same settings.