1Associate Professor, Department of Computer Science and Engineering, YSREC, Proddatur, Andhra Pradesh, India. E-mail: nagaraju.c@yogivemanauniversity.ac.in
2Research Scholar, Department of Computer Science and Engineering, YSREC, Proddatur, Andhra Pradesh, India. praveend5807@gmail.com
3Academic Consultant, Department of Computer Science and Engineering, YSREC, Proddatur, Andhra Pradesh, India. hussainappajava@gmail.com
4Asst. Professor, Department of Computer Science and Engineering, YSREC, Proddatur, Andhra Pradesh, India
Online published on 27 June, 2017.
The Privacy is paramount when communicating subtle information and humans have devised some unusual ways to encode their conversations. The Quantum Key Distribution agrees for the secure transmission of unbreakable encryption keys and it provides a flawless secure coding to solve the problem of key distribution. At present this is more mature application in the field of quantum computing. The fundamental concept of this protocol involves two parties, wishing to exchange a key both with access to a classical public communication channel and a quantum communication channel. The entanglement distillation approach of BB84 is widely used because the act of reading a quantum bit (QuBits) changes the bit; it is difficult for hackers to interfere without being detected sufficient number of bits. But this technique uses only four directions of electron movements so it is possible to guess the key. To overcome these drawbacks here two level QRNA technique is proposed for security. In first level RNA is applied on plain text after BB84 protocol is applied. This method provides better security than both BB84 protocol and RNA alone.
BB84 protocol, Quantum Cryptography(QC), QRNA, QuBits and RNA