vioft2nntf2t|tblJournal|Abstract_paper|0xf4ff4bb22e0000006615060001000500 Cloud computing relies on a reliable and secure storage system. A cloud auditing technique is used by customers to ensure that their information is safe and secure while being stored in the cloud. However, no matter how sophisticated the auditing procedures are, cloud auditing will be rendered useless if the cloud service provider (CSP) learns in order of obtaining the secret key. The secret keys of auditing is prevented if it occur, the damage must be minimised. Cloud auditing is resistant on the Public Key Infrastructure (PKI) and face difficulties in managing and verifying certificates. In addition, these techniques require a lot of computing time to data block integrity. Although certificates are eliminated, the damage caused by key disclosure is limited preceding the identity-based schemes. In this paper, we develop a bilinear pairings based Identity-based cloud auditing, where the system is set up using the PDP model. Neither the key update time nor the number of time periods affect the algorithm execution time. The public keys are all the same. This strategy reduces the calculation time for blockless verification. Second, the client constant monitoring of audit reports ensures that the TPA does not get any information from the stored file. Batch auditing is now planned. As a result, TPA audits become even more efficient.
R. Hariharan1,G. Komarasamy2,S. Daniel Madan Raja3
Sri Ramakrishna Institute of Technology, Coimbatore1,VIT Bhopal University, India2,Bannari Amman Institute of Technology, India3
Data Integrity, Public Auditing, Identity Based Cryptosystems
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| Published By :
ICTACT
Published In :
ICTACT Journal on Communication Technology
( Volume: 13 , Issue: 3 , Pages: 2748-2752 )
Date of Publication :
September 2022
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277
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