Efficient Multidimensional Pipelined Chaotic Bulk-Codewords-Encryption for Cloud Control Systems

Cloud control systems (CCSs) are evolving rapidly, requiring secure communication channels to protect critical remote control tasks. This article introduces an efficient encryption mechanism configured for securing the physical layer communication in these systems while transmitting data over optica...

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Veröffentlicht in:IEEE transactions on cybernetics Jg. 55; H. 10; S. 5014 - 5026
Hauptverfasser: Ali, Yasir, Manzoor, Tayyab, Yang, Huan, You, Lijie, Ma, Ruifeng, Yan, Chenhang, Wang, Taiqi, Xia, Yuanqing
Format: Journal Article
Sprache:Englisch
Veröffentlicht: United States IEEE 01.10.2025
Schlagworte:
Adaptive optics
Bit error rate
Bulk chaotic internal encryption
Chaotic communication
Control systems
Decoding
Encoding
Encryption
Optical network units
physical layer security
pipelined polar coding
Polar codes
secure polar codes
ISSN:2168-2267, 2168-2275, 2168-2275
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Zusammenfassung:Cloud control systems (CCSs) are evolving rapidly, requiring secure communication channels to protect critical remote control tasks. This article introduces an efficient encryption mechanism configured for securing the physical layer communication in these systems while transmitting data over optical fiber networks using orthogonal frequency division multiplexing active optical networks. The proposed scheme takes advantage of the hypersensitive chaotic properties of the Lorenz map to provide robust multidimensional encryption and confidentiality. The encryption process involves arranging bulk encoded codewords in a table structure shape, with each column representing individual codewords encoded by pipelined successive cancellation polar encoding. A Lorenz map is then utilized to generate three distinct chaotic keys, which are employed to reindex the rows and columns of the table structured codeword along with the subcarrier remapping in the constellation map. This reindexing operation provides an additional layer of security against potential brute-force attacks. Performance metrics such as computational efficiency, security robustness, and resistance to various noise and distortion sources are being evaluated. The experimental results demonstrate promising levels of security and resilience against potential threats on the physical layer of communications. The scheme's compatibility with the technical environment ensures seamless integration into existing CCSs infrastructure, making it a resilient solution for securing critical physical layer transmissions.
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ISSN:2168-2267
2168-2275
2168-2275
DOI:10.1109/TCYB.2025.3579036