Chinese Optics Letters, Volume. 20, Issue 11, 110601(2022)
Security enhancement for OFDM-UWOC system using three-layer chaotic encryption and chaotic DFT precoding Editors' Pick
References(28)
[1] A. Khasawneh, M. S. Bin Abd Latiff, O. Kaiwartya, H. Chizari. Next forwarding node selection in underwater wireless sensor networks (UWSNs): techniques and challenges. Information, 8, 3(2016).
[2] M. Kong, J. Wang, Y. Chen, T. Ali, R. Sarwar, Y. Qiu, S. Wang, J. Han, J. Xu. Security weaknesses of underwater wireless optical communication. Opt. Express, 25, 21509(2017).
[3] S. Jiang. On securing underwater acoustic networks: a survey. IEEE Commun. Surv. Tutor., 21, 729(2019).
[4] Y. Huang, C. Tsai, Y. Chi, D. Huang, G. Lin. Filtered multicarrier OFDM encoding on blue laser diode for 14.8-Gbps seawater transmission. J. Light. Technol., 36, 1739(2018).
[5] J. Wang, C. Lu, S. Li, Z. Xu. 100 m/500 Mbps underwater optical wireless communication using an NRZ-OOK modulated 520 nm laser diode. Opt. Express, 27, 12171(2019).
[6] J. Lin, Z. Du, C. Yu, W. Ge, W. Lü, H. Deng, C. Zhang, X. Chen, Z. Zhang, J. Xu. Machine-vision-based acquisition, pointing, and tracking system for underwater wireless optical communications. Chin. Opt. Lett., 19, 050604(2021).
[7] M. Gao, C. Li, Z. Xu. Performance enhancement of LED-based indoor OFDM-VLC system using digital chaotic scheme. Opt. Commun., 439, 21(2019).
[8] D. Shaboy, D. Rockban, A. Handelman. Tapping underwater wireless optical communication in pure water and natural dead-sea ultra-high-salinity water by diffraction grating. Opt. Express, 26, 29700(2018).
[9] G. Baiden, Y. Bissiri, A. Masoti. Paving the way for a future underwater omni-directional wireless optical communication systems. Ocean Eng., 36, 633(2009).
[10] X. Sun, M. Kong, O. A. Alkhazragi, K. Telegenov, M. Ouhssain, M. Sait, Y. Guo, B. H. Jones, J. S. Shamma, T. K. Ng, B. S. Ooi. Field demonstrations of wide-beam optical communications through water-air interface. IEEE Access, 8, 160480(2020).
[11] X. Sun, W. Cai, O. Alkhazragi, E.-N. Ooi, H. He, A. Chaaban, C. Shen, H. M. Oubei, M. Z. M. Khan, T. K. Ng, M.-S. Alouini, B. S. Ooi. 375-nm ultraviolet-laser based non-line-of-sight underwater optical communication. Opt. Express, 26, 12870(2018).
[12] X. Sun, M. Kong, O. Alkhazragi, C. Shen, E. N. Ooi, X. Zhang, U. Buttner, T. K. Ng, B. S. Ooi. Non-line-of-sight methodology for high-speed wireless optical communication in highly turbid water. Opt. Commun., 461, 125264(2020).
[13] Y. Chen, W. G. Shen, Z. M. Li, C. Q. Hu, Z. Q. Yan, Z. Q. Jiao, J. Gao, M. M. Cao, K. Sun, X. M. Jin. Underwater transmission of high-dimensional twisted photons over 55 meters. PhotoniX, 1, 5(2020).
[14] S. Zhao, W. Li, Y. Shen, Y. H. Yu, X. H. Han, H. Zeng, M. Cai, T. Qian, S. Wang, Z. Wang, Y. Xiao, Y. Gu. Experimental investigation of quantum key distribution over water channel. Appl. Opt., 58, 3902(2019).
[15] L. Ji, J. Gao, A.-L. Yang, Z. Feng, X.-F. Lin, Z.-G. Li, X.-M. Jin. Towards quantum communications in free-space seawater. Opt. Express, 25, 19795(2017).
[16] J. Zhang, G. Gao, B. Wang. Spectrum spreading and encryption of underwater optical OFDM communication. Asia Communications and Photonics Conference/International Conference on Information Photonics and Optical Communications (ACP/IPOC), M4A.284(2020).
[17] Y. Shang, W. Mao, M. Han, C. Xu, G. Gao. Underwater wireless optical communication with high modulation level based stream cipher. Asia Communications and Photonics Conference (ACP), Su2A.247(2018).
[18] J. Du, Y. Wang, C. Fei, R. Chen, G. Zhang, X. Hong, S. He. Experimental demonstration of 50-m/5-Gbps underwater optical wireless communication with low-complexity chaotic encryption. Opt. Express, 29, 783(2021).
[19] Z. Shen, X. Yang, H. He, W. Hu. Secure transmission of optical DFT-S-OFDM data encrypted by digital chaos. IEEE Photon. J., 8, 7904609(2016).
[20] Z. Hu, C. K. Chan. A 7-D hyperchaotic system-based encryption scheme for secure fast-OFDM-PON. J. Light. Technol., 36, 3373(2018).
[21] M. Bi, X. Fu, X. Zhou, L. Zhang, G. Yang, X. L. Yang, S. Xiao, W. Hu. A key space enhanced chaotic encryption scheme for physical layer security in OFDM-PON. IEEE Photon. J., 9, 7901510(2017).
[22] B. Liu, L. Zhang, X. Xin, Y. Wang. Physical layer security in OFDM-PON based on dimension-transformed chaotic permutation. IEEE Photon. Technol. Lett., 26, 127(2014).
[23] T. Wu, C. Zhang, H. Wei, K. Qiu. PAPR and security in OFDM-PON via optimum block dividing with dynamic key and 2D-LASM. Opt. Express, 27, 27946(2019).
[24] D. Chen, D. Qing, D. Wang. AES key expansion algorithm based on 2D logistic mapping. Fifth International Workshop on Chaos-fractals Theories and Applications, 207(2012).
[25] G.-Y. Wang, Y. Zheng, J.-B. Liu. A hyperchaotic Lorenz attractor and its circuit implementation. Acta. Phys. Sin., 56, 3113(2007).
[26] Z. Hu, P. Song, C. K. Chan. Chaotic non-orthogonal matrix-based encryption for secure OFDM-PONs. IEEE Photon. Technol. Lett., 33, 1127(2021).
[27] R. Tang, B. Liu, Y. Mao, R. Ullah, J. Ren, X. Xu, J. Zhao, M. Li, S. Chen, Y. Han. High security OFDM-PON based on an iterative cascading chaotic model and 4-D joint encryption. Opt. Commun., 495, 127055(2021).
[28] . Standard for binary floating-point arithmetic(1985).
Cited By
Tools
Get Citation
Copy Citation Text
Huan Deng, Zihao Du, Jianmin Xiong, Xingqi Yang, Yan Hua, Jing Xu, "Security enhancement for OFDM-UWOC system using three-layer chaotic encryption and chaotic DFT precoding," Chin.Opt.Lett. 20, 110601 (2022)
Paper Information
Category: Fiber Optics and Optical Communications
Received: Apr. 21, 2022
Accepted: May. 31, 2022
Published Online: Jul. 5, 2022
The Author Email: Jing Xu (jxu-optics@zju.edu.cn)
© Copyright 2018-2021 | Chinese Laser Press.
All Rights Reserved 沪ICP备15018463号-20