Lightweight privacy-preserving spatial keyword query over encrypted cloud data

Lightweight privacy-preserving spatial keyword query over encrypted cloud data

With the rapid development of geographic location technology and the explosive growth of data, a large amount of spatio-textual data is outsourced to the cloud server to reduce the local high storage and computing burdens, but at the same time causes security issues such as data privacy leakage. Thu...

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Main Authors: YANG, Yutao, MIAO, Yinbin, CHOO, Kim-Kwang Raymond, DENG, Robert H.
格式: text
語言:English
出版: Institutional Knowledge at Singapore Management University 2022
主題:
Cloud servers
Keyword queries
Large amounts
Outsourcing data
Privacy preserving
Query schemes
Scalar product
Spatial keyword query
Spatio-textual data
Textual data
Computational Engineering
在線閱讀:https://ink.library.smu.edu.sg/sis_research/7588
https://ink.library.smu.edu.sg/context/sis_research/article/8591/viewcontent/Lightweight_privacy_preserving_spatial_keyword_query_over_encrypted_cloud_data.pdf
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總結:With the rapid development of geographic location technology and the explosive growth of data, a large amount of spatio-textual data is outsourced to the cloud server to reduce the local high storage and computing burdens, but at the same time causes security issues such as data privacy leakage. Thus, extensive privacy-preserving spatial keyword query schemes have been proposed. Most of the existing schemes use Asymmetric Scalar-Product-Preserving Encryption (ASPE) for encryption, but ASPE has proven to be insecure. And the existing spatial range query schemes require users to provide more information about the query range and generate a large amount of ciphertext, which causes high storage and computational burdens. To solve these issues, in this paper we introduce some random numbers and a random permutation to enhance the security of ASPE scheme, and then propose a novel privacy-preserving Spatial Keyword Query (SKQ) scheme based on the enhanced ASPE and Geohash algorithm. In addition, we design a more Lightweight Spatial Keyword Query (LSKQ) scheme by using a unified index for spatial range and multiple keywords, which not only greatly decreases SKQ’s storage and computational costs but also requires users to provide little information about query region. Finally, formal security analysis proves that our schemes have Indistinguishability under Chosen Plaintext Attack (IND-CPA), and extensive experiments demonstrate that our enhanced scheme is efficient and practical.

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