Application of Cosmos’s law of Merge and Split for Data Encryption

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Author(s)

Sanjay Kr. Pal 1,* Nupur Chakraborty 1

1. Department of Computer Science and Applications, NSHM College of Management and Technology, Kolkata, 700053, India

* Corresponding author.

DOI: https://doi.org/10.5815/ijcnis.2017.05.02

Received: 15 Aug. 2016 / Revised: 2 Dec. 2016 / Accepted: 25 Feb. 2017 / Published: 8 May 2017

Index Terms

Encryption, Decryption, DivisionFactor, Node, Merge, Split

Abstract

Sharing of data is always a crucial job in the world of data technology, where data are perceived as useful resources for generating significant information for taking notable decisions or for doing interpretation. On the basis of impact factor associated with the information, sharing and storage of data demands security. Sharing of large extent of textual sensitive data contained in a file needs a way of hidings their direct decipherment. Due to the size related restriction associated with steganography we always promote cryptography for sharing large amount of sensitive data. In this paper we have proposed an encryption technique with time complexity of O(1) that exploits the dynamic node fusion property of graph theory. We are applying the rule of cosmos which reveals that the entire cosmos relies on the conception of data hiding. Each time billions of particles merges to form a new structure and again splits, gets distributed and again follows the same process of hiding and disclosing the hidden truth in a cyclic manner. Following this logic we have proposed a dynamic layered encryption technique that will be completely able to resist the illicit actions of intruders with low computational efforts as well as it reduces the network load on packet transmission. In future with the successive increase in the processing power and requirements we can easily intensify the capacity of the proposed technique.

Cite This Paper

Sanjay Kr. Pal, Nupur Chakraborty, "Application of Cosmos’s law of Merge and Split for Data Encryption", International Journal of Computer Network and Information Security(IJCNIS), Vol.9, No.5, pp. 11-20, 2017. DOI:10.5815/ijcnis.2017.05.02

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