VASD2OM: Virtual Auditing and Secure Deduplication with Dynamic Ownership Management in Cloud
Geeta C M1, Nikhil R C2, Raghavendra S3, Rajkumar Buyya4, Venugopal K R5

1Geeta C Mara*, CSE, University Visvesvaraya College of Engg, Bangalore University, Bangalore, India.
2Nikhil R C, ASE, Jain University, Bengaluru, India.
Raghavendra S, CSE,University Visvesvaraya College of Engg, Bangalore University, Bangalore, India.
4Rajkumar Buyya, CSE, The University of Melbourne, Australia.
5Venugopal K R, Bangalore University, Bangalore, India.
Manuscript received on February 28, 2020. | Revised Manuscript received on March 22, 2020. | Manuscript published on March 30, 2020. | PP: 5504-5514 | Volume-8 Issue-6, March 2020. | Retrieval Number: F7825038620/2020©BEIESP | DOI: 10.35940/ijrte.F7825.038620

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Abstract: In cloud repository amenities, deduplication technology is often utilized to minimize the volume and bandwidth by removing repetitious information and caching only a solitary duplicate of them. Deduplication is extremely productive when many customers deploy the identical information to the cloud repository, but it aggrevates problems pertaining to safety and proprietorship. Proof-of-ownership mechanism authorize any possessor of an identical information to approve to the cloud repository server that he possess the information in a dynamic way. In repository utilities with enormous information, the repository servers may want to minimize the capacity of cached information, and the customers desires to examine the integrity of their information with a reasonable cost. Aiming at realizing integrity auditing and deduplication with effective proprietorship administration of information in the cloud, we propose Virtual Auditing and Secure Deduplication with Dynamic Ownership Management in Cloud (VASD2OM) mechanism. It empowers the distributed server to limit access to the deployed information though the proprietorship transforms actively. Further, the mechanism supports safe and effective virtual auditing of the documents during the download process. In addition, the proposed mechanism lowers the burden of dataowner to audit documents by himself and there is no need to authorize auditing to a Third Party Auditor (TPA). Experimental results demonstrate that the virtual auditing has low auditing time cost relative to the existing public auditing schemes.
Keywords: Cloud storage, Deduplication, Encryption, Proof-of-Ownership, Revocation, Virtual auditing.
Scope of the Article: Cloud, Cluster, Grid and P2P Computing.