Research Journal of Engineering and Technology

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Annexure Privacy Preserving Public Auditing for Data Storage Security in Cloud Computing


Affiliations
1 Dept. of Computer Science and Engineering, Nagpur Institute of Technology, Nagpur, India
     

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Cloud computing is the long dreamed vision of computing as a utility, where users can remotely store their data into the cloud so as to enjoy the on-demand high quality applications and services from a shared pool of configurable computing resources. By data outsourcing, users can be relieved from the burden of local data storage and maintenance. Thus, enabling public auditability for cloud data storage security is of critical importance so that users can resort to an external audit party to check the integrity of outsourced data when needed. To securely introduce an effective third party auditor (TPA), the following two fundamental requirements have to be met: 1) TPA should be able to efficiently audit the cloud data storage without demanding the local copy of data, and introduce no additional on-line burden to the cloud user. Specifically, our contribution in this work can be summarized as the following three aspects. 2) We motivate the public auditing system of data storage security in Cloud Computing and provide a privacy-preserving auditing protocol, i.e., our scheme supports an external auditor to audit user's outsourced data in the cloud without learning knowledge on the data content. 3) To the best of our knowledge, our scheme is the first to support scalable and efficient public auditing in the Cloud Computing. In particular, our scheme achieves batch auditing where multiple delegated auditing tasks from different users can be performed simultaneously by the TPA. 4) We prove the security and justify the performance of our proposed schemes through concrete experiments and comparisons with the state-of-the-art.

Keywords

Auditability, Third Party Auditor (TPA), Cloud Computing, Privacy-Preserving Auditing Protocol.
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  • Annexure Privacy Preserving Public Auditing for Data Storage Security in Cloud Computing

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Authors

Komal Gajanan Nadekar
Dept. of Computer Science and Engineering, Nagpur Institute of Technology, Nagpur, India
Siddhata Hushar Ramteke
Dept. of Computer Science and Engineering, Nagpur Institute of Technology, Nagpur, India
Priyanka Suresh Babulkar
Dept. of Computer Science and Engineering, Nagpur Institute of Technology, Nagpur, India
Jotesh R. Dhuriya
Dept. of Computer Science and Engineering, Nagpur Institute of Technology, Nagpur, India
Nikesh Aote
Dept. of Computer Science and Engineering, Nagpur Institute of Technology, Nagpur, India

Abstract


Cloud computing is the long dreamed vision of computing as a utility, where users can remotely store their data into the cloud so as to enjoy the on-demand high quality applications and services from a shared pool of configurable computing resources. By data outsourcing, users can be relieved from the burden of local data storage and maintenance. Thus, enabling public auditability for cloud data storage security is of critical importance so that users can resort to an external audit party to check the integrity of outsourced data when needed. To securely introduce an effective third party auditor (TPA), the following two fundamental requirements have to be met: 1) TPA should be able to efficiently audit the cloud data storage without demanding the local copy of data, and introduce no additional on-line burden to the cloud user. Specifically, our contribution in this work can be summarized as the following three aspects. 2) We motivate the public auditing system of data storage security in Cloud Computing and provide a privacy-preserving auditing protocol, i.e., our scheme supports an external auditor to audit user's outsourced data in the cloud without learning knowledge on the data content. 3) To the best of our knowledge, our scheme is the first to support scalable and efficient public auditing in the Cloud Computing. In particular, our scheme achieves batch auditing where multiple delegated auditing tasks from different users can be performed simultaneously by the TPA. 4) We prove the security and justify the performance of our proposed schemes through concrete experiments and comparisons with the state-of-the-art.

Keywords


Auditability, Third Party Auditor (TPA), Cloud Computing, Privacy-Preserving Auditing Protocol.