| Literature DB >> 27733924 |
Bhoopal Rao Gangadari1, Shaik Rafi Ahamed1.
Abstract
In biomedical, data security is the most expensive resource for wireless body area network applications. Cryptographic algorithms are used in order to protect the information against unauthorised access. Advanced encryption standard (AES) cryptographic algorithm plays a vital role in telemedicine applications. The authors propose a novel approach for design of substitution bytes (S-Box) using second-order reversible one-dimensional cellular automata (RCA2) as a replacement to the classical look-up-table (LUT) based S-Box used in AES algorithm. The performance of proposed RCA2 based S-Box and conventional LUT based S-Box is evaluated in terms of security using the cryptographic properties such as the nonlinearity, correlation immunity bias, strict avalanche criteria and entropy. Moreover, it is also shown that RCA2 based S-Boxes are dynamic in nature, invertible and provide high level of security. Further, it is also found that the RCA2 based S-Box have comparatively better performance than that of conventional LUT based S-Box.Entities:
Keywords: AES cryptographic algorithm; LUT; RCA2; S-box; advanced encryption standard; avalanche criteria; body area networks; cellular automata; cryptographic properties; cryptography; data security; look-up-table; nonlinearity correlation immunity bias; second-order reversible cellular automata; second-order reversible one-dimensional cellular automata; security of data; substitution bytes; table lookup; telemedicine; telemedicine applications; wireless body area network applications
Year: 2016 PMID: 27733924 PMCID: PMC5048383 DOI: 10.1049/htl.2016.0033
Source DB: PubMed Journal: Healthc Technol Lett ISSN: 2053-3713