Chaotic Encryption Using Hybrid Evolution Cellular Automata and 4D Modulation for Data Centers

Industrial information transmitted through data centers (DCs) is increasingly exposed to more widespread and powerful attack threats. In this article, we propose a chaotic encryption scheme that utilizes a reversible hybrid evolution life-like cellular automata (CA) and 4D modulation to enhance indu...

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Veröffentlicht in:	IEEE transactions on industrial informatics 2024-10, p.1-10
Hauptverfasser:	Zeng, Wenjun, Zhang, Chongfu, Liang, Xinshuai, Liu, Jiayu, Luo, Yufeng, Yang, Liang, Wang, Xue, Cai, Xiaomin, Wen, Heping, Qiu, Kun
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Sprache:	eng
Schlagworte:	Chaotic communication Chaotic encryption Correlation Data centers Encryption Indexes industrial information security life-like cellular automata Optical crosstalk Optical fiber sensors Optical fibers Optical imaging Receivers
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creator	Zeng, Wenjun Zhang, Chongfu Liang, Xinshuai Liu, Jiayu Luo, Yufeng Yang, Liang Wang, Xue Cai, Xiaomin Wen, Heping Qiu, Kun
description	Industrial information transmitted through data centers (DCs) is increasingly exposed to more widespread and powerful attack threats. In this article, we propose a chaotic encryption scheme that utilizes a reversible hybrid evolution life-like cellular automata (CA) and 4D modulation to enhance industrial information security. A chaotic permutation based on the logistic-adjusted-sine map and 4D modulation is applied. Subsequently, the rule selection method of the life-like CA is optimized. The reversible hybrid evolution life-like CA is used for block data diffusion, and a bidirectional diffusion mechanism is designed for the block diffusion. Finally, the 4D encrypted data with a bit rate of 224 Gb/s has been successfully verified over an 80 km standard single-mode fiber. The results indicate that the proposed encryption scheme demonstrates strong resistance to cryptanalytical attacks. Attackers cannot obtain valid data when the optical signal-to-noise ratio of the eavesdropping channel is below 18 dB. This scheme provides robust security guarantees for industrial information transmission in DCs.
doi_str_mv	10.1109/TII.2024.3476516
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In this article, we propose a chaotic encryption scheme that utilizes a reversible hybrid evolution life-like cellular automata (CA) and 4D modulation to enhance industrial information security. A chaotic permutation based on the logistic-adjusted-sine map and 4D modulation is applied. Subsequently, the rule selection method of the life-like CA is optimized. The reversible hybrid evolution life-like CA is used for block data diffusion, and a bidirectional diffusion mechanism is designed for the block diffusion. Finally, the 4D encrypted data with a bit rate of 224 Gb/s has been successfully verified over an 80 km standard single-mode fiber. The results indicate that the proposed encryption scheme demonstrates strong resistance to cryptanalytical attacks. Attackers cannot obtain valid data when the optical signal-to-noise ratio of the eavesdropping channel is below 18 dB. 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subjects	Chaotic communication Chaotic encryption Correlation Data centers Encryption Indexes industrial information security life-like cellular automata Optical crosstalk Optical fiber sensors Optical fibers Optical imaging Receivers
title	Chaotic Encryption Using Hybrid Evolution Cellular Automata and 4D Modulation for Data Centers
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