DNA Encoded Elliptic Curve Cryptography System for IoT Security

7 Pages Posted: 21 Mar 2019

See all articles by Prokash Barman

Prokash Barman

University of Calcutta - Department of Computer Science and Engineering; Brainware University

Banani Saha

University of Calcutta - Department of Computer Science and Engineering

Date Written: March 19, 2019

Abstract

In the field of Computer Science and Information Technology Internet of Things (IoT) is one of the emerging technologies. In IoT environment several devices are interconnected and transmit data among them. There may be some security vulnerability arise within the IoT environment. Till date, IoT has not been widely accepted due to its security flaws. Hence to keep the IoT environment most robust, we propose a stable security framework of IoT with Elliptic Curve Cryptography (ECC) using DNA Encoding. The ECC is most lightweight cryptography technique among other well known public key cryptography techniques. To increase encryption complexity, DNA encoding mechanism of DNA computing with ECC is preceded.

Suggested Citation

Barman, Prokash and Saha, Banani, DNA Encoded Elliptic Curve Cryptography System for IoT Security (March 19, 2019). International Journal of Computational Intelligence & IoT, Vol. 2, No. 2, 2019, Available at SSRN: https://ssrn.com/abstract=3355530

Prokash Barman (Contact Author)

University of Calcutta - Department of Computer Science and Engineering ( email )

Kolkata, West Bengal
India
7980208030 (Phone)

HOME PAGE: http://caluniv.ac.in

Brainware University ( email )

398, Ramkrishnapur Road
Kazipara, Barasat
Barasat, West Bengal 700125
India

HOME PAGE: http://https://www.brainwareuniversity.ac.in/

Banani Saha

University of Calcutta - Department of Computer Science and Engineering ( email )

Kolkata
India

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