计算机科学
加密
无源光网络
多路复用
算法
混乱的
编码(社会科学)
正交频分复用
电子工程
光学
波分复用
电信
计算机网络
物理
数学
人工智能
波长
频道(广播)
统计
工程类
作者
Qiuli Yang,Qi Zhang,Yun Wang,Xiangjun Xin,Ran Gao,Haipeng Yao,Feng Tian,Fu Wang,Qinghua Tian,Sitong Zhou,Lan Rao,Yongjun Wang,Leijing Yang
标识
DOI:10.1117/1.oe.64.2.028101
摘要
A hybrid chaotic encryption algorithm is proposed to enhance the reliability and security of the probabilistic shaping orthogonal frequency division multiplexing passive optical network. The original chaotic sequences for hybrid encryption are generated by the classical four-dimensional hyperchaotic Chen system, and symbol-level encryption is achieved by performing I and Q phase rotation and two levels of symbol confusion on the quadrature amplitude modulation (QAM) symbols. In addition, the probabilistic shaping (PS) technique and polar coding are combined to improve the transmission performance, which achieves the double improvement of security and effectiveness. The hybrid chaotic encrypted signals are verified on a net bit rate of 24.09 Gb/s 16QAM orthogonal frequency division multiplexing passive optical network simulation system, which is transmitted through a 25-km standard single-mode fiber. The results show that the proposed algorithm can enhance the security performance with an enormous key space of 10127. At the bit error rate (BER) of 3.8×10−3, the proposed algorithm achieves an optical signal noise ratio (OSNR) gain of 3 dB over the unencrypted signal and an OSNR gain of 2.3 dB over the conventional constellation shift encryption scheme. The proposed encryption algorithm combines polar coding and PS, which significantly improves the BER performance while maintaining the mutual information (MI) gain of 1 bit/symbol and improves the MI performance by 0.1 bit/symbol compared with the single PS technique.
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