An efficient conjunctive keyword searchable encryption for cloud-based IoT systems
An efficient conjunctive keyword searchable encryption for cloud-based IoT systems
Data privacy leakage has always been a critical concern in cloud-based Internet of Things (IoT) systems. Dynamic Symmetric Searchable Encryption (DSSE) with forward and backward privacy aims to address this issue by enabling updates and retrievals of ciphertext on untrusted cloud server while ensuring data privacy. However, previous research on DSSE mostly focused on single keyword search, which limits its practical application in cloud-based IoT systems. Recently, Patranabis (NDSS 2021) [1] proposed a groundbreaking DSSE scheme for conjunctive keyword search. However, this scheme fails to effectively handle deletion operations in certain circumstances, resulting in inaccurate query results. Additionally, the scheme introduces unnecessary search overhead. To overcome these problems, we present CKSE, an efficient conjunctive keyword DSSE scheme. Our scheme improves the oblivious shared computation protocol used in the scheme of Patranabis, thus enabling a more comprehensive deletion functionality. Furthermore, we introduce a state chain structure to reduce the search overhead. Through security analysis and experimental evaluation, we demonstrate that our CKSE achieves more comprehensive deletion functionality while maintaining comparable search performance and security, compared to the oblivious dynamic cross-tags protocol of Patranabis. The combination of comprehensive functionality, high efficiency, and security makes our CKSE an ideal choice for deployment in cloud-based IoT systems.
Cloud server, Conjunctive keyword search, Forward and backward privacy, Symmetric searchable encryption
Peng, Tianqi
66b5b12e-9ef2-44c4-9f99-763271bfe30b
Gong, Bei
dd699a78-c0f9-498d-87d4-03f66274f316
Guo, Chong
a112fc03-991f-4142-9c0c-67edcf7f5260
Badshah, Akhtar
f81ea725-6d13-4aa6-b9fb-3822f83778d8
Waqas, Muhammad
28f978b5-2da0-4060-aa7c-d5cadc1a48e1
Alasmary, Hisham
264f0de7-ca49-4a6b-849a-43d9d585312c
Chen, Sheng
9310a111-f79a-48b8-98c7-383ca93cbb80
Peng, Tianqi
66b5b12e-9ef2-44c4-9f99-763271bfe30b
Gong, Bei
dd699a78-c0f9-498d-87d4-03f66274f316
Guo, Chong
a112fc03-991f-4142-9c0c-67edcf7f5260
Badshah, Akhtar
f81ea725-6d13-4aa6-b9fb-3822f83778d8
Waqas, Muhammad
28f978b5-2da0-4060-aa7c-d5cadc1a48e1
Alasmary, Hisham
264f0de7-ca49-4a6b-849a-43d9d585312c
Chen, Sheng
9310a111-f79a-48b8-98c7-383ca93cbb80
Peng, Tianqi, Gong, Bei, Guo, Chong, Badshah, Akhtar, Waqas, Muhammad, Alasmary, Hisham and Chen, Sheng
(2025)
An efficient conjunctive keyword searchable encryption for cloud-based IoT systems.
Digital Communications and Networks.
(doi:10.1016/j.dcan.2025.03.002).
Abstract
Data privacy leakage has always been a critical concern in cloud-based Internet of Things (IoT) systems. Dynamic Symmetric Searchable Encryption (DSSE) with forward and backward privacy aims to address this issue by enabling updates and retrievals of ciphertext on untrusted cloud server while ensuring data privacy. However, previous research on DSSE mostly focused on single keyword search, which limits its practical application in cloud-based IoT systems. Recently, Patranabis (NDSS 2021) [1] proposed a groundbreaking DSSE scheme for conjunctive keyword search. However, this scheme fails to effectively handle deletion operations in certain circumstances, resulting in inaccurate query results. Additionally, the scheme introduces unnecessary search overhead. To overcome these problems, we present CKSE, an efficient conjunctive keyword DSSE scheme. Our scheme improves the oblivious shared computation protocol used in the scheme of Patranabis, thus enabling a more comprehensive deletion functionality. Furthermore, we introduce a state chain structure to reduce the search overhead. Through security analysis and experimental evaluation, we demonstrate that our CKSE achieves more comprehensive deletion functionality while maintaining comparable search performance and security, compared to the oblivious dynamic cross-tags protocol of Patranabis. The combination of comprehensive functionality, high efficiency, and security makes our CKSE an ideal choice for deployment in cloud-based IoT systems.
Text
DCN2025-accep
- Accepted Manuscript
Text
1-s2.0-S2352864825000240-main
- Proof
More information
Accepted/In Press date: 6 March 2025
e-pub ahead of print date: 13 March 2025
Keywords:
Cloud server, Conjunctive keyword search, Forward and backward privacy, Symmetric searchable encryption
Identifiers
Local EPrints ID: 499916
URI: http://eprints.soton.ac.uk/id/eprint/499916
ISSN: 2468-5925
PURE UUID: 2e1532c2-bca2-44da-b857-13821b216086
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Date deposited: 08 Apr 2025 16:47
Last modified: 25 Aug 2025 16:31
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Contributors
Author:
Tianqi Peng
Author:
Bei Gong
Author:
Chong Guo
Author:
Akhtar Badshah
Author:
Muhammad Waqas
Author:
Hisham Alasmary
Author:
Sheng Chen
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