Title :
Error bounds for noisy compressive phase retrieval
Author :
Bodmann, Bernhard G. ; Hammen, Nathaniel
Author_Institution :
Math. Dept., Univ. of Houston, Houston, TX, USA
Abstract :
This paper provides a random complex measurement matrix and an algorithm for complex phase retrieval of sparse or approximately sparse signals from the noisy magnitudes of the measurements obtained with this matrix. We compute explicit error bounds for the recovery which depend on the noise-to-signal ratio, the sparsity s, the number of measured quantitites m, and the dimension of the signal N. This requires m to be of the order of s ln(N/s). In comparison with sparse recovery from complex linear measurements, our phase retrieval algorithm requires six times the number of measured quantities.
Keywords :
compressed sensing; sparse matrices; error bounds; noise-to-signal ratio; noisy compressive phase retrieval; random complex linear measurement matrix; sparse recovery; sparse signal complex phase retrieval; Approximation methods; Compressed sensing; Measurement uncertainty; Noise; Noise measurement; Phase measurement; Polynomials;
Conference_Titel :
Sampling Theory and Applications (SampTA), 2015 International Conference on
Conference_Location :
Washington, DC
DOI :
10.1109/SAMPTA.2015.7148909
