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Design of a Multi-Layer Symmetric Encryption System Using Reversible Cellular Automata

George Cosmin Stănică () and Petre Anghelescu ()
Additional contact information
George Cosmin Stănică: Department of Electronics, Computers and Electrical Engineering, National University of Science and Technology POLITEHNICA Bucharest, Pitesti University Centre, 110040 Pitesti, Romania
Petre Anghelescu: Department of Electronics, Computers and Electrical Engineering, National University of Science and Technology POLITEHNICA Bucharest, Pitesti University Centre, 110040 Pitesti, Romania

Mathematics, 2025, vol. 13, issue 2, 1-22

Abstract: The increasing demand for secure and efficient encryption algorithms has intensified the exploration of alternative cryptographic solutions, including biologically inspired systems like cellular automata. This study presents a symmetric block encryption design based on multiple reversible cellular automata (RCAs) that can assure both computational efficiency and reliable restoration of original data. The encryption key, with a length of 224 bits, is composed of specific rules used by the four distinct RCAs: three with radius-2 neighborhoods and one with a radius-3 neighborhood. By dividing plaintext into 128-bit blocks, the algorithm performs iterative transformations over multiple rounds. Each round includes forward or backward evolution steps, along with dynamically computed shift values and reversible transformations to securely encrypt or decrypt data. The encryption process concludes with an additional layer of security by encrypting the final RCA configurations, further protecting against potential attacks on the encrypted data. Additionally, the 224-bit key length provides robust resistance against brute force attacks. Testing and analysis were performed using a custom-developed software (version 1.0) application, which helped demonstrate the algorithm’s robustness, encryption accuracy, and ability to maintain data integrity.

Keywords: multi-layer encryption; symmetric cryptography; block encryption; reversible cellular automata; dynamical systems; data security (search for similar items in EconPapers)
JEL-codes: C (search for similar items in EconPapers)
Date: 2025
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