Online/offline provable data possession

Provable data possession (PDP) allows a user to outsource data with a guarantee that the integrity can be efficiently verified. Existing publicly verifiable PDP schemes require the user to perform expensive computations, such as modular exponentiations for processing data before outsourcing to the s...

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Main Authors:	WANG, Yujue, WU, Qianhong, QIN, Bo, TANG, Shaohua, SUSILO, Willy
Format:	text
Language:	English
Published:	Institutional Knowledge at Singapore Management University 2017
Subjects:	chameleon hash cloud storage data outsourcing online/offline signature Provable data possession Information Security
Online Access:	https://ink.library.smu.edu.sg/sis_research/3714 https://ink.library.smu.edu.sg/context/sis_research/article/4716/viewcontent/OnlineOfflineProvableDataPossession_2017.pdf
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Institution:	Singapore Management University
Language:	English

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spelling	sg-smu-ink.sis_research-47162020-01-15T02:36:25Z Online/offline provable data possession WANG, Yujue WU, Qianhong QIN, Bo TANG, Shaohua SUSILO, Willy Provable data possession (PDP) allows a user to outsource data with a guarantee that the integrity can be efficiently verified. Existing publicly verifiable PDP schemes require the user to perform expensive computations, such as modular exponentiations for processing data before outsourcing to the storage server, which is not desirable for weak users with limited computation resources. In this paper, we introduce and formalize an online/offline PDP (OOPDP) model, which divides the data processing procedure into offline and online phases. In OOPDP, most of the expensive computations for processing data are performed in the offline phase, and the online phase requires only lightweight computations like modular multiplications. We present a general OOPDP transformation framework which is applicable to PDP-related schemes with metadata aggregatability and public metadata expansibility. Following the framework, we present two efficient OOPDP instantiations.Technically, we present aggregatable vector Chemeleon hash functions which map a vector of values to a group element and play a central role in the OOPDP transformation. Theoretical and experimental analyses confirm that our technique is practical to speed-up PDP schemes. 2017-05-01T07:00:00Z text application/pdf https://ink.library.smu.edu.sg/sis_research/3714 info:doi/10.1109/TIFS.2017.2656461 https://ink.library.smu.edu.sg/context/sis_research/article/4716/viewcontent/OnlineOfflineProvableDataPossession_2017.pdf http://creativecommons.org/licenses/by-nc-nd/4.0/ Research Collection School Of Computing and Information Systems eng Institutional Knowledge at Singapore Management University chameleon hash cloud storage data outsourcing online/offline signature Provable data possession Information Security
institution	Singapore Management University
building	SMU Libraries
continent	Asia
country	Singapore Singapore
content_provider	SMU Libraries
collection	InK@SMU
language	English
topic	chameleon hash cloud storage data outsourcing online/offline signature Provable data possession Information Security
spellingShingle	chameleon hash cloud storage data outsourcing online/offline signature Provable data possession Information Security WANG, Yujue WU, Qianhong QIN, Bo TANG, Shaohua SUSILO, Willy Online/offline provable data possession
description	Provable data possession (PDP) allows a user to outsource data with a guarantee that the integrity can be efficiently verified. Existing publicly verifiable PDP schemes require the user to perform expensive computations, such as modular exponentiations for processing data before outsourcing to the storage server, which is not desirable for weak users with limited computation resources. In this paper, we introduce and formalize an online/offline PDP (OOPDP) model, which divides the data processing procedure into offline and online phases. In OOPDP, most of the expensive computations for processing data are performed in the offline phase, and the online phase requires only lightweight computations like modular multiplications. We present a general OOPDP transformation framework which is applicable to PDP-related schemes with metadata aggregatability and public metadata expansibility. Following the framework, we present two efficient OOPDP instantiations.Technically, we present aggregatable vector Chemeleon hash functions which map a vector of values to a group element and play a central role in the OOPDP transformation. Theoretical and experimental analyses confirm that our technique is practical to speed-up PDP schemes.
format	text
author	WANG, Yujue WU, Qianhong QIN, Bo TANG, Shaohua SUSILO, Willy
author_facet	WANG, Yujue WU, Qianhong QIN, Bo TANG, Shaohua SUSILO, Willy
author_sort	WANG, Yujue
title	Online/offline provable data possession
title_short	Online/offline provable data possession
title_full	Online/offline provable data possession
title_fullStr	Online/offline provable data possession
title_full_unstemmed	Online/offline provable data possession
title_sort	online/offline provable data possession
publisher	Institutional Knowledge at Singapore Management University
publishDate	2017
url	https://ink.library.smu.edu.sg/sis_research/3714 https://ink.library.smu.edu.sg/context/sis_research/article/4716/viewcontent/OnlineOfflineProvableDataPossession_2017.pdf
_version_	1770573678749155328

Online/offline provable data possession

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