Title :
A Fast Method to Simulate the PDL Impact on Dual-Polarization Coherent Systems
Author :
Tao, Zhenning ; Dou, Liang ; Hoshida, Takeshi ; Rasmussen, Jens C.
Author_Institution :
Fujitsu R&D Center Co., Ltd., Beijing, China
Abstract :
Polarization-dependent loss (PDL) is regarded as a major distortion in dual-polarization coherent systems. Due to its statistical characteristics, a time-consuming Monte Carlo simulation is usually used to evaluate its penalty. In order to accelerate the simulation speed, a more rapid method, the reversed channel method, is proposed and verified. Compared with the Monte Carlo simulation, for example 105 iterations, simulation time is reduced from 200 h to 15 min, i.e. 800 times less, whereas the accuracy is not degraded. The reversed channel method also indicates that not only the accumulative PDL and amplified spontaneous emission levels but also their distribution profiles along the transmission line affect the system performance.
Keywords :
Monte Carlo methods; iterative methods; light coherence; optical fibre communication; optical fibre losses; optical fibre polarisation; superradiance; amplified spontaneous emission; dual-polarization coherent systems; optical communication systems; polarization-dependent loss; reversed channel method; statistical characteristics; time-consuming Monte Carlo simulation; transmission line; Coherent; dual-polarization (DP); optical communication; polarization-dependent loss (PDL);
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2009.2034984
