Liang Xinshuai, Zhang Chongfu, Luo Yufeng, Cui Mengwei, Qiu Kun
Opt Express. 2022 May 23;30(11):18310-18319. doi: 10.1364/OE.458732.
A physical layer key distribution scheme based on chaotic encryption and signal synchronization is proposed in this paper, which can achieve secure key distribution and enhance the security of an orthogonal frequency division multiplexing based passive optical network (OFDM-PON). The key is embedded into the synchronization header and then encrypted by using chaos. The receiver needs to utilize the correct chaotic parameters to successfully decrypt the synchronization information and extract the key. An experiment is conducted to verify the availability of this method by setting key sequences of various length over different transmission distances. The signals of 35.29 Gb/s are successfully transmitted over 5 km, 15 km and 25 km standard single-mode fiber (SSMF), respectively. It is proved that the proposed scheme is feasible and compatible with the traditional encryption algorithms, and it has almost no effect on the synchronization performance, which can then distribute keys with the sending signals without occupying additional channel resources and enhance the security performance of OFDM-PON simultaneously.
本文提出了一种基于混沌加密和信号同步的物理层密钥分配方案,该方案能够实现安全的密钥分配,并增强基于正交频分复用的无源光网络(OFDM-PON)的安全性。密钥被嵌入到同步头中,然后利用混沌进行加密。接收方需要利用正确的混沌参数才能成功解密同步信息并提取密钥。通过在不同传输距离上设置各种长度的密钥序列进行实验,验证了该方法的有效性。35.29 Gb/s的信号分别在5 km、15 km和25 km的标准单模光纤(SSMF)上成功传输。结果表明,该方案可行且与传统加密算法兼容,对同步性能几乎没有影响,能够在不占用额外信道资源的情况下随发送信号分配密钥,同时提高OFDM-PON的安全性能。