光学学报, 2015, 35 (1): 0106002, 网络出版: 2014-12-19
100-Gb/s高速PDM-CO-OFDM系统峰值平均功率比抑制性能研究 下载: 528次
Research on Peak-to-Average Power Ratio Reduction Performance for 100-Gb/s High-Speed PDM-CO-OFDM Systems
光通信 相干光正交频分复用 偏振模复用 峰值平均功率比 迭代部分传输序列 限幅 optical communications coherent optical orthogonal frequency division mul polarization division multiplexing peak-to-average power ratio iterative partial transmit sequence clipping
摘要
利用迭代部分传输序列(IPTS)限幅算法实现100-Gb/s高速偏振模复用相干光正交频分复用(PDM-CO-OFDM)系统峰值平均功率比(PAPR)抑制,并对其PAPR、误码率(BER)及非线性性能进行了分析。仿真结果表明,与限幅算法相比,IPTS限幅算法不仅可以进一步降低PAPR,还可以减小光纤的非线性效应,从而提高系统BER 性能。当互补累积分布函数(CCDF)等于0.0001时,IPTS限幅算法的门限值比限幅算法的优化了0.62 dB。与原始信号相比,IPTS限幅算法的最大峰值功率降低了2.63 dBm。相同条件下,IPTS限幅算法在光信噪比(OSNR)为12.28 dB时,BER 即可达到10-3,而限幅算法的最小BER 仅为1.55×10-3。当发射功率等于-1 dBm 时,IPTS限幅算法的Q 值与限幅算法相比提高了0.28 dB。
Abstract
The iterative partial transmit sequence (IPTS) clipping algorithm is used to reduce the peak- toaverage power ratio (PAPR) of 100- Gb/s high- speed polarization division multiplexing coherent optical orthogonal frequency division multiplexing (PDM- CO- OFDM) system. PAPR, bit error rate (BER), and nonlinearity performance are analyzed. Simulation results demonstrate that the PAPR, BER, and nonlinearity performance of IPTS clipping algorithm are superior to those of clipping algorithm. At the complementary cumulative distribution function (CCDF) of 0.0001, the threshold value of IPTS clipping algorithm is optimized by 0.62 dB compared with clipping algorithm. Compared with original signal, the maximum peak power of IPTS clipping algorithm is reduced by 2.63 dBm. In the same conditions, the needed optical signal to noise ratio (OSNR) of IPTS clipping algorithm is 12.28 dB to reach the BER level of 10- 3. However, the minimum BER of clipping algorithm is only 1.55× 10- 3. At the launch power of - 1 dBm, the Q value of IPTS clipping algorithm is improved by 0.28 dB compared with clipping algorithm.
童峥嵘, 刘颖慧, 曹晔. 100-Gb/s高速PDM-CO-OFDM系统峰值平均功率比抑制性能研究[J]. 光学学报, 2015, 35(1): 0106002. Tong Zhengrong, Liu Yinghui, Cao Ye. Research on Peak-to-Average Power Ratio Reduction Performance for 100-Gb/s High-Speed PDM-CO-OFDM Systems[J]. Acta Optica Sinica, 2015, 35(1): 0106002.