Title :
An Efficient Implementation of Modified Regularized Sparse Recovery for Real-Time Optical Power Monitoring
Author :
Yu, Zhu Liang ; Zhou, Wei ; Gu, Zhenghui ; Yang, Ya ; Liu, Gordon Ning
Author_Institution :
Coll. of Autom. Sci. & Eng., South China Univ. of Technol., Guangzhou, China
Abstract :
The regularized sparse recovery (RSR) method proposed for optical power monitoring (OPM) has high performance in practice. However, due to its implementation based on interior point method (IPM), it has high computational complexity for real-time OPM system, especially when the number of monitored channels is large. In this paper, we modify the RSR method and propose an efficient implementation of the modified RSR based on the separable surrogate functions (SSF) technique. The resulting algorithm can be realized by simple hardware structure with low computational complexity. Simulation results confirm that accurate and fast optical power spectrum estimation can be achieved with a low-cost tunable optical filter (TOF) by using the proposed method.
Keywords :
computational complexity; monitoring; optical fibre filters; optical tuning; IPM; RSR method; SSF technique; TOF; computational complexity; hardware structure; interior point method; low-cost tunable optical filter; optical power spectrum estimation; real-time OPM system; real-time optical power monitoring; regularized sparse recovery method; separable surrogate function technique; Channel estimation; Computational complexity; Convergence; Hardware; Monitoring; Optical signal processing; Vectors; Optical power monitoring (OPM); real-time; separable surrogate functions (SSF); system implementation;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2012.2206563
