A dynamic SBox using a chaotic map is a cryptography technique that changes
the SBox during encryption based on iterations of a chaotic map, adding an
extra layer of confusion and security to symmetric encryption algorithms like
AES. The chaotic map introduces unpredictability, non-linearity, and key
dependency, enhancing the overall security of the encryption process. The
existing work on dynamic SBox using chaotic maps lacks standardized guidelines
and extensive security analysis, leaving potential vulnerabilities and
performance concerns unaddressed. Key management and the sensitivity of chaotic
maps to initial conditions are challenges that need careful consideration. The
main objective of using a dynamic SBox with a chaotic map in cryptography
systems is to enhance the security and robustness of symmetric encryption
algorithms. The method of dynamic SBox using a chaotic map involves
initializing the SBox, selecting a chaotic map, iterating the map to generate
chaotic values, and updating the SBox based on these values during the
encryption process to enhance security and resist cryptanalytic attacks. This
article proposes a novel chaotic map that can be utilized to create a fresh,
lively SBox. The performance assessment of the suggested S resilience Box
against various attacks involves metrics such as nonlinearity (NL), strict
avalanche criterion (SAC), bit independence criterion (BIC), linear
approximation probability (LP), and differential approximation probability
(DP). These metrics help gauge the Box ability to handle and respond to
different attack scenarios. Assess the cryptography strength of the proposed
S-Box for usage in practical security applications, it is compared to other
recently developed SBoxes. The comparative research shows that the suggested
SBox has the potential to be an important advancement in the field of data
security.Comment: 11 Page