Abstract
The proposed cipher system is fast and secure stream cipher for software-based applications. The new cipher system is designed using output feedback mode on Advanced Encryption Standard with an extra XOR operation. It contains initial vectors (IV1 and IV2), and these IVs are updated by nonlinear functions. The increased security of the proposed cipher is due to the nonlinear functions. Along with the security, the speed of execution increased by executing Advanced Encryption Standard in only eight rounds. Various security evaluation parameters considered in the security analysis of the proposed cipher system. In addition to it, the speed of execution of the new approach analyzed with other systems with respect to the time complexity.
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References
Stallings W (2011) Cryptography and network security: principles and Practice, 5th ed. Pearson Education. ISBN 978-81-317-6166-3
Daemen J, Rijmen V (2002) The design of Rijndael: AES the advanced encryption standard. Springer
Zhang X, Parhi KK (2002) Implementation approaches for the advanced encryption standard algorithm. IEEE Circ Syst. Mag. 2:2446
Su CP, Lin TF, Huang CT, Wu CW (2003) A high-throughput low-cost AES processor. IEEE Commun Mag 41:8691
Rapeti SAA (2008) NLFS: a new non-linear feedback stream Cipher, thesis submitted in partial fulfillment of the requirements for the award of the Degree of Master of Technology in Computer Science and Engineering at Kharagpur, May 2008
Nat. Inst. Standards Technol. (NIST), Federal Information Processing Standards (FIPS) Publication 197, Advanced Encryption Standard, Nov 2001
Nat. Inst. of Standards and Technology, Advanced Encryption Standard, Fed. Information Processing Standards (FIPS) Publication 197, Nov 2001
Whiting D, Housley R, Ferguson N (2002) Counter with CBC-MAC (CCM)
Heys HM, Zhang L (2011) Pipelined statistical Cipher feedback: a new mode for high-speed self-synchronizing stream encryption. IEEE Trans Comput 60(11):1581–1595
McGrew D, Viega J (2005) The Galois/counter mode of operation (GCM). http://csrc.nist.gov/groups/ST/toolkit/BCM/documents/proposedmodes/gcm/gcm-spec.pdf, May 2005
Jung O, Ruland C (1999) Encryption with statistical self-synchronization in synchronous broadband networks. In: Proceedings of conference cryptographic hardware and embedded systems (CHES 99), pp 340–352
Heys HM (2003) Analysis of the statistical Cipher feedback mode of block Ciphers. IEEE Trans Comput Eng 52(1):77–92
Burda K (2007) Modification of OCFB mode for fast data links. Intl J Comput Sci Netw Secur 7(12):228–232
Maurer UM (1991) New approaches to the design of self-synchronizing stream Ciphers. In: Proceedings of conference advances in cryptology (Eurocrypt 91), pp 458–471
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Radhakrishna, D., Ganesh, A., Surendra, S. (2021). A New Approach on Advanced Encryption Standards to Improve the Secrecy and Speed Using Nonlinear Output Feedback Mode. In: Chiplunkar, N.N., Fukao, T. (eds) Advances in Artificial Intelligence and Data Engineering. AIDE 2019. Advances in Intelligent Systems and Computing, vol 1133. Springer, Singapore. https://doi.org/10.1007/978-981-15-3514-7_61
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DOI: https://doi.org/10.1007/978-981-15-3514-7_61
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