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A Novel Encryption Technique Using DNA Encoding and Single Qubit Rotations

Partha Sarathi Goswami1 , Tamal Chakraborty2 , Harekrishna Chatterjee3

  1. Dept. of Computer Application, A.J.C.Bose Polytechnic, Department of Technical Education & Training, Government of West Bengal, India.
  2. Mrinalini Dutta Mahavidyapith, West Bengal State University, Kolkata, India.
  3. University of Engineering & Management, Kolkata, India.

Section:Research Paper, Product Type: Journal Paper
Volume-6 , Issue-3 , Page no. 364-369, Mar-2018

CrossRef-DOI:   https://doi.org/10.26438/ijcse/v6i3.364369

Online published on Mar 30, 2018

Copyright © Partha Sarathi Goswami, Tamal Chakraborty, Harekrishna Chatterjee . This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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IEEE Style Citation: Partha Sarathi Goswami, Tamal Chakraborty, Harekrishna Chatterjee, “A Novel Encryption Technique Using DNA Encoding and Single Qubit Rotations,” International Journal of Computer Sciences and Engineering, Vol.6, Issue.3, pp.364-369, 2018.

MLA Style Citation: Partha Sarathi Goswami, Tamal Chakraborty, Harekrishna Chatterjee "A Novel Encryption Technique Using DNA Encoding and Single Qubit Rotations." International Journal of Computer Sciences and Engineering 6.3 (2018): 364-369.

APA Style Citation: Partha Sarathi Goswami, Tamal Chakraborty, Harekrishna Chatterjee, (2018). A Novel Encryption Technique Using DNA Encoding and Single Qubit Rotations. International Journal of Computer Sciences and Engineering, 6(3), 364-369.

BibTex Style Citation:
@article{Goswami_2018,
author = {Partha Sarathi Goswami, Tamal Chakraborty, Harekrishna Chatterjee},
title = {A Novel Encryption Technique Using DNA Encoding and Single Qubit Rotations},
journal = {International Journal of Computer Sciences and Engineering},
issue_date = {3 2018},
volume = {6},
Issue = {3},
month = {3},
year = {2018},
issn = {2347-2693},
pages = {364-369},
url = {https://www.ijcseonline.org/full_paper_view.php?paper_id=1809},
doi = {https://doi.org/10.26438/ijcse/v6i3.364369}
publisher = {IJCSE, Indore, INDIA},
}

RIS Style Citation:
TY - JOUR
DO = {https://doi.org/10.26438/ijcse/v6i3.364369}
UR - https://www.ijcseonline.org/full_paper_view.php?paper_id=1809
TI - A Novel Encryption Technique Using DNA Encoding and Single Qubit Rotations
T2 - International Journal of Computer Sciences and Engineering
AU - Partha Sarathi Goswami, Tamal Chakraborty, Harekrishna Chatterjee
PY - 2018
DA - 2018/03/30
PB - IJCSE, Indore, INDIA
SP - 364-369
IS - 3
VL - 6
SN - 2347-2693
ER -

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Abstract

In today’s world security has become a major threat over the transmission channel. To overcome this DNA cryptography is used to encrypt and transfer the message from sender to receiver over a secured communication network. This paper focuses on the encryption and decryption of the message using DNA encoded sequences and discusses the cryptographic applications of single qubit rotations from the view of one-way trapdoor functions. For encryption quantum public key is used and for decryption the concept of classical private key is used. The mapping between integer numbers and quantum states is done using one way trapdoor function.

Key-Words / Index Term

Quantum Cryptography, DNA Cryptography, One-way trapdoor function, Qubit

References

[1] C. H. Bennett and G. Brassard, “Quantum Cryptography: Public Key Distribution and Coin Tossing”, Proceedings of IEEE International Conference on Computers Systems and Signal Processing, Bangalore, India, pp. 175-179, December 1984.
[2] C. Bennett, “Quantum cryptography using any two non-orthogonal states” Physical Review Letters, 68:3121–3124, 1992.
[3] Ching-Nung Yang, Chen-Chin Kuo, “Enhanced Quantum Key Distribution Protocols Using BB84 and B92”, 2002.
[4] M. Houshmand and S. Hosseini-Khayat, “An Entanglement- base Quantum Key Distribution Protocol”, Information Security and cryptology (ISCISC), 8th International ISC Conference, IEEE, pp. 45-48, 2011.
[5] Abdulrahman Aldhaheri, Khaled Elleithy, Majid Alshammari, Hussam, “A Novel Secure Quantum Key Distribution Algorithm”, University of Bridgeport, 2014.
[6] Ammar Odeh, Khaled Elleithy, Muneer Alshowkan, Eman Abdelfattah, “Quantum Key Distribution by Using Public Key Algorithm (RSA)”, London, United Kingdom: third International Conference on Innovative Computing Technology (INTECH),IEEE, August 2013.
[7] Adleman. M. L, “Molecular Computation of Solutions to Combinatorial Problems”, Science, vol.266, pp.1021-1024, 1994.
[8] J. Lipton. R,”Using DNA to Solve NP Complete Problems”, Science, Vol.268, pp.542-545, 1995.
[9] Boneh. D,”Breaking DES using Molecular computer”, American Mathematical Society, pp 37-65.1996.
[10] Ouyang Qi, D. Peter Kaplan, Liu Shumao and Albert Libchaber,”DNA Solution of the Maximal Clique Problem”, Science 278, 5337, 446-449, 1997.
[11] Ashish Gehani, LaBean Thomas and John Reif, “DNA-based cryptography”, Aspects of Molecular Computing, Springer Berlin Heidelberg, pp.167-188.2004.
[12] Sherif T. Amin, Magdy Saeb and El-Gindi Salah, “A DNA-Based Implementation of YAEA Encryption Algorithm”, Computational Intelligence, pp.120-125, 2006.
[13] Pramanik Sabari and Kumar Sanjit Setua, “DNA cryptography”, Electrical & Computer Engineering (ICECE), 7th IEEE International Conference, pp.551-554, 2012.
[14] Yunpeng Zhang, Bochen Fu, and Xianwei Zhang, “DNA cryptography based on DNA Fragment assembly “, Information Science and Digital Content Technology (ICIDT), 8th IEEE International Conference, Vol.1, pp.179-182, 2012.
[15] Olga Tornea, and Borda E. Monica, “Security And Complexity Of A DNA-Based Cipher”, Roedunet International Conference (Ro Edu Net), 11th IEEE International Conference,pp.1-5, 2013 .
[16] Ashish Kumar Kaundal, A.K Verma,”Extending Feistel structure to DNA Cryptography”, Journal of Discrete Mathematical Sciences and Cryptography Volume 18, Issue 4, pp.349-362, 2015.
[17] Kazuo Tanaka, Akimitsu Okamoto, and Isao Saito, “Public-Key System Using DNA as a One-Way Function for Key Distribution”, Biosystems 81, pp.25-29, 2005.
[18] A. Menezes, P. Van Oorschot and S. Vanstone, “Handbook of Applied Cryptography”, CRC Press, 1996.
[19] M. A. Nielsen and I. L. Chuang, “Quantum Computation and Quantum Information”, Cambridge University Press, Cambridge, London, 2000.
[20] C.-H. F. Fung, K. Tamaki, and H.-K. Lo, "Performance of two quantum key- distribution Protocols," Phys. Rev. A vol. 73, 2006.
[21] Simmon, G. J., “Symmetric and Asymmetric Encryption”, ACM Computing Surveys, 11(4), pp. 305-330, 1979.
[22] W. K. Wooters and W. H. Zurek, “A single quantum cannot be cloned”, Nature 299, 802, 1982
[23] Young, A., “The future of cryptography: Practice and theory”, IEEE IT Professional Journal, pp. 62-64, 2003.
[24] Vishnu Teja, Payel Banerjee, N. N. Sharma and R. K. Mittal, “Quantum Cryptography: State-of-Art, Challenges and Future Perspectives”. 7th IEEE International Conference on Nanotechnology, pp. 1296-1301, 2007.
[25] C. Elliott, D. Pearson and G. Troxel, “Quantum Cryptography in Practice”, Preprint of SIGCOMM 2003.
[26] Mehrdad S. Sharbaf, “Quantum Cryptography: An Emerging Technplogy in Network Security”. IEEE, 2011.
[27] Partha Sarathi Goswami, Prasun Chakrabarti “Approach towards realizing resource mining and secured information transfer”, International Journal of Computer Science and Network Security, pp. 345-350 Vol. 8, No. 7, 2008.
[28] Partha Sarathi Goswami, Pabitra Kumar Dey, Dr. A.C. Mandal, “Quantum Cryptography: Security through Uncertainty”, National Conference on Computing & Systems 2010, pp 86-89, 2010.
[29] Partha Sarathi Goswami, Tamal Chakraborty, Sourav Saha, “Cryptographic Scheme using the Biological Properties of DNA-RNA - A Review”, American Journal of Advanced Computing, Vancouver, Canada, Vol III(2), pp.61-65, 2016. ISSN: 2368-1209129.