Visible to the public Improvement in Homomorphic Encryption Algorithm with Elliptic Curve Cryptography and OTP Technique

TitleImprovement in Homomorphic Encryption Algorithm with Elliptic Curve Cryptography and OTP Technique
Publication TypeConference Paper
Year of Publication2018
AuthorsSharma, Mukesh Kumar, Somwanshi, Devendra
Conference Name2018 3rd International Conference and Workshops on Recent Advances and Innovations in Engineering (ICRAIE)
Keywordscloud computing, customary outsider evaluator, Diffie Hellman key exchange algorithm, distributed computing, Elliptic curve cryptography, Encryption, encryption keys, fully homomorphic encryption, homomorphic encryption, homomorphic encryption algorithm, human factors, Memory management, Metrics, one time password, OTP, OTP technique, pubcrawl, public key cryptography, Resiliency, Scalability, Servers, Transform coding
AbstractCloud computing is a technology is where client require not to stress over the expense of equipment establishment and their support cost. Distributed computing is presently turned out to be most prominent innovation on account of its accessibility, ease and some different elements. Yet, there is a few issues in distributed computing, the principle one is security in light of the fact that each client store their valuable information on the system so they need their information ought to be shielded from any unapproved get to, any progressions that isn't done for client's benefit. To take care of the issue of Key administration, Key Sharing different plans have been proposed. The outsider examiner is the plan for key administration and key sharing. The primary preferred standpoint of this is the cloud supplier can encourage the administration which was accessible by the customary outsider evaluator and make it trustful. The outsider examining plan will be fizzled, if the outsider's security is endangered or of the outsider will be malignant. To take care of the issue, there is another modular for key sharing and key administration in completely Homomorphic Encryption conspire is outlined. In this paper we utilized the symmetric key understanding calculation named Diffie Hellman to make session key between two gatherings who need to impart and elliptic curve cryptography to create encryption keys rather than RSA and have utilized One Time Password (OTP) for confirming the clients.
Citation Keysharma_improvement_2018