CLOUD SECURITY USING HOMOMORPHIC ENCRYPTION

NILESH KUMAR SEN, NAVDEEP KAUR SALUJA

Abstract


ABSTRACT

 

Cloud computing is the process of storing large amount of data in order to have efficient retrieval for future use. Cloud computing doesn't provide storage capabilities only instead it is capable of having many security features. Initially when the data storage of user was encourage using cloud capabilities then it is observed that the plain-text data is intercept by intermediate communicator and manipulated. In our work the encryption is performed by applying the technique of Homomorphic encryption. The storage of data in performed in AWS, where the data is stored in such a form that service provider will not be capable of manipulation hence result in efficient processing. The work will contribute in field of security as in public cloud the accessing is provided to multiple clients.


Keywords


DATA SECURITY; CLOUD COMPUTING; FULLY HOMOMORPHIC ENCRYPTION; AWS; PUBLIC CLOUD;

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References


REFERENCES

Tebaa, M.; El Hajji, S.; El Ghazi, A., "Homomorphic encryption method applied to Cloud Computing," in Network Security and Systems (JNS2), 2012 National Days of , vol., no., pp.86-89, 20-21 April 2012

Mather, Tim, Subra Kumaraswamy, and Shahed Latif. Cloud security and privacy: an enterprise perspective on risks and compliance. "O'Reilly Media, Inc.", 2009

Samyak Shah, Yash Shah, Janika Kotak, “Somewhat Homomorphic Encryption Technique with its Key Management Protocol”, Dec 14

Volume 2 Issue 12 , International Journal on Recent and Innovation Trends in Computing and Communication (IJRITCC), ISSN: 2321-8169,PP: 4180 – 4183

Ramaiah, Y. Govinda, and G. Vijaya Kumari. "Efficient public key homomorphic encryption over integer plaintexts." Information Security and Intelligence Control (ISIC), 2012 International Conference on. IEEE, 2012.

Gentry, Craig. "Computing arbitrary functions of encrypted data." Communications of the ACM 53.3 (2010): 97-105.

Atayero, Aderemi A., and Oluwaseyi Feyisetan. "Security issues in cloud computing: The potentials of homomorphic encryption." Journal of Emerging Trends in Computing and Information Sciences 2.10 (2011): 546-552.

Catteddu, Daniele, and Giles Hogben. "Cloud computing." Benefits, Risks and Recommendations for Information Security/European Network and Information Security Agency, ENISA (November 2009) (2009).

Deyan Chen; Hong Zhao, "Data Security and Privacy Protection Issues in Cloud Computing," in Computer Science and Electronics Engineering (ICCSEE), 2012 International Conference on , vol.1, no., pp.647-651, 23-25 March 2012.

Pearson, Siani. "Taking account of privacy when designing cloud computing services." Proceedings of the 2009 ICSE Workshop on Software Engineering Challenges of Cloud Computing. IEEE Computer Society, 2009.

Rivest, Ronald L., Len Adleman, and Michael L. Dertouzos. "On data banks and privacy homomorphisms." Foundations of secure computation 4.11 (1978): 169-180.

Rivest, Ronald L., Adi Shamir, and Len Adleman. "A method for obtaining digital signatures and public-key cryptosystems."Communications of the ACM 21.2 (1978): 120-126.

A. C. Yao. Protocols for secure computations (extended abstract). In 23rd Annual Symposium on Foundations of Computer Science (FOCS '82), pages 160-164. IEEE, 1982.

Goldwasser, Shafi, and Silvio Micali. "Probabilistic encryption." Journal of computer and system sciences 28.2 (1984): 270-299.

ElGamal, Taher. "A public key cryptosystem and a signature scheme based on discrete logarithms." Advances in cryptology. Springer Berlin Heidelberg, 1985.

Paillier, Pascal. "Public-key cryptosystems based on composite degree residuosity classes." Advances in cryptology—EUROCRYPT’99.Springer Berlin Heidelberg, 1999..

Fontaine, Caroline, and Fabien Galand. "A survey of homomorphic encryption for nonspecialists." EURASIP Journal on Information Security 2007 (2007): 15.

Gentry, Craig. "Fully homomorphic encryption using ideal lattices." STOC. Vol. 9. 2009.

Smart, Nigel P., and Frederik Vercauteren. "Fully homomorphic encryption with relatively small key and ciphertext sizes." Public Key Cryptography–PKC 2010. Springer Berlin Heidelberg, 2010. 420-443.

Van Dijk, Marten, et al. "Fully homomorphic encryption over the integers." Advances in cryptology–EUROCRYPT 2010. Springer Berlin Heidelberg, 2010. 24-43.Stehlé, Damien, and Ron Steinfeld. "Faster fully homomorphic encryption." Advances in Cryptology-ASIACRYPT 2010. Springer Berlin Heidelberg, 2010. 377-394.

Amazon Web Services DynamoDB, Available: Amazon Web Services Online,http://docs.aws.amazon.com/amazondynamodb/latest/developerguide/Introduction.html.

Amazon Web Services DynamoDB, Available: Amazon Web Services Online, https://github.com/amazonwebservices

AWS Toolkit For Eclipse,http://docs.amazonaws.cn/en_us/AWSToolkitEclipse/latest/GettingStartedGuide/aws-tke-gsg.pdf?

Gentry, Craig. A fully homomorphic encryption scheme. Diss. Stanford University, 2009.


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