ISSN 2278-9723
 

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New Encryption technique for improving time and speed for Embedded Applications

E.Kavitha,B.Saranya,V.Nathiya,K.Gomathi,A.Surendar UG students Department of Electronics and Communication Engineering K.S.R. College of Engineering Assistant Professor Department of Electronics and Communication Engineering K.S.R. College of Engineering.

Abstract
Lightweight cryptography is an interesting fieldthat strikes the perfect balance in providing security, higher throughput, lowpower consumption, and compactness. In recent years, many compact algorithms like PRESENT, CLEFIA, SEA, TEA, LED, ZORRO, Hummingbird, and KANTAN have made the mark to be used as lightweight crypto engines. In this paper, we present the design of a new lightweight compact encryption system based on bit permutation instruction group operation (GRP), which is widely studied and extensively researched. Using the S-box of PRESENT, we have added the confusion property for GRP, because all the existing algorithms using bit permutation instructions do not have this confusion property. By comparing the existing S-boxes of compact algorithms and its cryptanalysis, a new hybrid system is proposed in this paper that provides more compact results in terms of both memory space and gate equivalents. A hybrid cryptosystem, which consists of GRP and S-box of PRESENT, is designed and implemented on a 32-bit processor. This fusion has resulted in a lightweight cipher that is the most compact implementation, till now, in terms of memory requirement. We have tested and verified this on an LPC2129 processor. Various S-boxes of recently used lightweight algorithms, such as PRESENT and CLEFIA, are designed and analyzed to create a perfect fusion that should be resistant to attacks. Using the S-box of PRESENT, it helps in further reducing the gate complexity. This hybrid model results in 2125 gate equivalents, which is better than other light variant models like DESXL, CLEFIA, and AES. Moreover, GRP properties are very helpful not only to attain the desired avalanche effect, but also as it results in a compact implementation in hardware. This paper proposes a novel approach that will have a positive impact in the field of lightweight encryption protocols.

Key words: Lightweight cryptography, PRESENT, GRP,embedded security, encryption, bit permutation


 
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Pubmed Style

E.Kavitha,B.Saranya,V.Nathiya,K.Gomathi,A.Surendar UG students Department of Electronics and Communication Engineering K.S.R. College of Engineering Assistant Professor Department of Electronics and Communication Engineering K.S.R. College of Engineering. New Encryption technique for improving time and speed for Embedded Applications. . 2014; 2(2): 115-127. doi:10.31838/ijccts/02.02.09


Web Style

E.Kavitha,B.Saranya,V.Nathiya,K.Gomathi,A.Surendar UG students Department of Electronics and Communication Engineering K.S.R. College of Engineering Assistant Professor Department of Electronics and Communication Engineering K.S.R. College of Engineering. New Encryption technique for improving time and speed for Embedded Applications. http://www.ijccts.org/?mno=302643798 [Access: September 20, 2020]. doi:10.31838/ijccts/02.02.09


AMA (American Medical Association) Style

E.Kavitha,B.Saranya,V.Nathiya,K.Gomathi,A.Surendar UG students Department of Electronics and Communication Engineering K.S.R. College of Engineering Assistant Professor Department of Electronics and Communication Engineering K.S.R. College of Engineering. New Encryption technique for improving time and speed for Embedded Applications. . 2014; 2(2): 115-127. doi:10.31838/ijccts/02.02.09



Vancouver/ICMJE Style

E.Kavitha,B.Saranya,V.Nathiya,K.Gomathi,A.Surendar UG students Department of Electronics and Communication Engineering K.S.R. College of Engineering Assistant Professor Department of Electronics and Communication Engineering K.S.R. College of Engineering. New Encryption technique for improving time and speed for Embedded Applications. . (2014), [cited September 20, 2020]; 2(2): 115-127. doi:10.31838/ijccts/02.02.09



Harvard Style

E.Kavitha,B.Saranya,V.Nathiya,K.Gomathi,A.Surendar UG students Department of Electronics and Communication Engineering K.S.R. College of Engineering Assistant Professor Department of Electronics and Communication Engineering K.S.R. College of Engineering (2014) New Encryption technique for improving time and speed for Embedded Applications. , 2 (2), 115-127. doi:10.31838/ijccts/02.02.09



Turabian Style

E.Kavitha,B.Saranya,V.Nathiya,K.Gomathi,A.Surendar UG students Department of Electronics and Communication Engineering K.S.R. College of Engineering Assistant Professor Department of Electronics and Communication Engineering K.S.R. College of Engineering. 2014. New Encryption technique for improving time and speed for Embedded Applications. International Journal of Communication and Computer Technologies, 2 (2), 115-127. doi:10.31838/ijccts/02.02.09



Chicago Style

E.Kavitha,B.Saranya,V.Nathiya,K.Gomathi,A.Surendar UG students Department of Electronics and Communication Engineering K.S.R. College of Engineering Assistant Professor Department of Electronics and Communication Engineering K.S.R. College of Engineering. "New Encryption technique for improving time and speed for Embedded Applications." International Journal of Communication and Computer Technologies 2 (2014), 115-127. doi:10.31838/ijccts/02.02.09



MLA (The Modern Language Association) Style

E.Kavitha,B.Saranya,V.Nathiya,K.Gomathi,A.Surendar UG students Department of Electronics and Communication Engineering K.S.R. College of Engineering Assistant Professor Department of Electronics and Communication Engineering K.S.R. College of Engineering. "New Encryption technique for improving time and speed for Embedded Applications." International Journal of Communication and Computer Technologies 2.2 (2014), 115-127. Print. doi:10.31838/ijccts/02.02.09



APA (American Psychological Association) Style

E.Kavitha,B.Saranya,V.Nathiya,K.Gomathi,A.Surendar UG students Department of Electronics and Communication Engineering K.S.R. College of Engineering Assistant Professor Department of Electronics and Communication Engineering K.S.R. College of Engineering (2014) New Encryption technique for improving time and speed for Embedded Applications. International Journal of Communication and Computer Technologies, 2 (2), 115-127. doi:10.31838/ijccts/02.02.09





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