An efficient 2-Step DNA symmetric cryptography algorithm based on dynamic data structures

Title

An efficient 2-Step DNA symmetric cryptography algorithm based on dynamic data structures

Creator

George J.P.; Kureethara J.V.

Description

The security of text has become highly demanding in today's fast growing networking world. DNA computing is one of the emerging technologies in the arena of huge data storage and parallel computation. A single gram of DNA holds 5.5 petabytes of data. This leads to the increased risk in data communication. DNA in computers is mapped to human genome. Thus, the sequence of nucleotide base constructs the foundation of uniqueness. In this paper, a new scheme acronymed as -'Cryptography on DNA Storage'-CDS is provided. It performs the DNA data encryption in just two-step by using random private key for each letter in the plaintext and parallel swapping of the resultant text in small clusters. It is discussed keeping the time and space complexity of the algorithm in concern. 2018 Authors.

Source

International Journal of Engineering and Technology(UAE), Vol-7, No. 2, pp. 141-146.

Date

2018-01-01

Publisher

Science Publishing Corporation Inc

Subject

Bio-computing; Bio-Encryption; Cryptography; DNA; DNA Cryptography; Security

Coverage

George J.P., Christ Institute of Management, Lavasa, Pune, India; Kureethara J.V., CHRIST (Deemed to be University), India

Rights

All Open Access; Bronze Open Access

Relation

ISSN: 2227524X

Format

Online

Language

English

Type

Article

Identifier

https://doi.org/10.14419/ijet.v7i2.6.10140

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