Mojisola, Falowo O.Misra, SanjayFebisola, C. FalayiAbayomi-Alli, OlusolaSengul, GokhanComputer Engineering2024-07-052024-07-05202251110-86652090-475410.1016/j.eij.2022.02.0012-s2.0-85125713502https://doi.org/10.1016/j.eij.2022.02.001https://hdl.handle.net/20.500.14411/1798Misra, Sanjay/0000-0002-3556-9331The recent innovations in network application and the internet have made data and network security the major role in data communication system development. Cryptography is one of the outstanding and powerful tools for ensuring data and network security. In cryptography, randomization of encrypted data increases the security level as well as the Computational Complexity of cryptographic algorithms involved. This research study provides encryption algorithms that bring confidentiality and integrity based on two algorithms. The encryption algorithms include a well-known RSA algorithm (1024 key length) with an enhanced bit insertion algorithm to enhance the security of RSA against different attacks. The security classical RSA has depreciated irrespective of the size of the key length due to the development in computing technology and hacking system. Due to these lapses, we have tried to improve on the contribution of the paper by enhancing the security of RSA against different attacks and also increasing diffusion degree without increasing the key length. The security analysis of the study was compared with classical RSA of 1024 key length using mathematical evaluation proofs, the experimental results generated were compared with classical RSA of 1024 key length using avalanche effect in (%) and computational complexity as performance evaluation metrics. The results show that RBMRSA is better than classical RSA in terms of security but at the cost of execution time. (C) 2022 THE AUTHORS. Published by Elsevier B.V. on behalf of Faculty of Computers and Information, Cairo University.eninfo:eu-repo/semantics/openAccessComputational complexityExhaustive search attackRandomizationBit insertionAvalanche effectAn improved random bit-stuffing technique with a modified RSA algorithm for resisting attacks in information security (RBMRSA)ArticleQ2Q1232291301WOS:000830938400011