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Cryptoanalysis of Simple Substitution Ciphers with Genetic Algorithms


Affiliations
1 Singidunum University, Danijelova 32, 11000 Belgrade, Serbia
2 University of Pristina — Kosovska Mitrovica, Faculty of Technical Sciences, Knjaza Miloša 7, 38220 Kosovska Mitrovica, Serbia
3 Oxoftware, Bulevar Marsala Tolbuhina 44, 11070 Novi Beograd, Serbia

Recent advances in the field of machine learning have once again raised the question whether computers can be trained to perform cryptanalytic tasks. In this paper, we identify the relationship between the machine learning and cryptanalysis with special attention on the genetic algorithms as a heuristic optimization method inspired by evolution processes in nature. We have indicated the consequences that new insights of machine learning may have on the reformulation of the practical criteria of secrecy in the synthesis of information security systems. Through the paper, we describe the approach based on genetic algorithms in order to confirm which machine learning algorithms are most suited for the purpose of the cryptanalysis and consequently to verify resistance of encryption algorithms to cryptanalysis.

Keywords

Analysis, Cryptanalytic tasks, Encryption, Genetic algorithms, Machine learning
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  • Cryptoanalysis of Simple Substitution Ciphers with Genetic Algorithms

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Authors

Dragan Savić
Singidunum University, Danijelova 32, 11000 Belgrade, Serbia
Petar Milić
University of Pristina — Kosovska Mitrovica, Faculty of Technical Sciences, Knjaza Miloša 7, 38220 Kosovska Mitrovica, Serbia
Borislav Mazinjanin
Oxoftware, Bulevar Marsala Tolbuhina 44, 11070 Novi Beograd, Serbia

Abstract


Recent advances in the field of machine learning have once again raised the question whether computers can be trained to perform cryptanalytic tasks. In this paper, we identify the relationship between the machine learning and cryptanalysis with special attention on the genetic algorithms as a heuristic optimization method inspired by evolution processes in nature. We have indicated the consequences that new insights of machine learning may have on the reformulation of the practical criteria of secrecy in the synthesis of information security systems. Through the paper, we describe the approach based on genetic algorithms in order to confirm which machine learning algorithms are most suited for the purpose of the cryptanalysis and consequently to verify resistance of encryption algorithms to cryptanalysis.

Keywords


Analysis, Cryptanalytic tasks, Encryption, Genetic algorithms, Machine learning