This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
ANTAL, E.: Modern Cryptanalysis of Classical Ciphers. PhD. Thesis, STU in Bratislava, 2017. (In Slovak)Search in Google Scholar
ANTAL, E.—ELIÁŠ, M.: Evolutionary computation in cryptanalysis of classical ciphers, Tatra Mt. Math. Publ. 70 (2017), 179–197.Search in Google Scholar
ANTAL, E.—JAVORKA, P.—HLIBOKÝ, T.: Cryptanalysis of the columnar transposition using meta-heuristics. Tatra Mt. Math. Publ. 73 (2019), 39–60.Search in Google Scholar
BANKS, M. J.: A Search-Based Tool for the Automated Cryptanalysis of Classical Ciphers. Department of Computer Science, The University of York, May 2008.Search in Google Scholar
CLARK, A. J.: Optimisation Heuristics for Cryptology. PhD. Thesis, Queensland University of Technology, 1998.Search in Google Scholar
GANESAN, R.—SHERMAN, A.: Statistical techniques for language recognition: An introduction and guide for cryptanalysts, Cryptologia 17 (1993), no. 4, 321–366.Search in Google Scholar
KULLBACK, S.: Statistical Methods in Cryptanalysis. Aegean Park Press, 1976.Search in Google Scholar
LASRY, G.: A Methodology of Cryptanalysis of Classical Ciphers with Search Meta-heuristics. PhD. Thesis, Kassel University, 2017.Search in Google Scholar
MATTHEWS, R. A. J.: The use of genetic algorithms in cryptanalysis, Cryptologia 17 (1993), no. 2, 187–201.Search in Google Scholar
RUSSELL, M. D.—CLARK, J. A.—STEPNEY, S.: Making the most of two heuristics: breaking transposition ciphers with ants. In: CEC 03 Vol. 4, (2023), pp. 2653–2658.Search in Google Scholar
RŮŽEK, J.:ŠifrovacíSystémy a Návod k Luštění Kryptogramů. Praha,1926–1949.Search in Google Scholar
SPILLMAN, R.—JANSSEN, M.—NELSON, B.: Use of a genetic algorithm in the cryptanalysis of simple substitution ciphers, Cryptologia 17, (1993), no. 1, 31–44.Search in Google Scholar