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SLIM: a secure and lightweight multi-authority attribute-based signcryption scheme for IoT

SLIM: a secure and lightweight multi-authority attribute-based signcryption scheme for IoT
SLIM: a secure and lightweight multi-authority attribute-based signcryption scheme for IoT
Although attribute-based signcryption (ABSC) offers a promising technology to ensure the security of IoT data sharing, it faces a two-fold challenge in practical implementation, namely, the linearly increasing computation and communication costs and the heavy load of single authority based key management. To this end, we propose a Secure and Lightweight Multi-authority ABSC scheme called SLIM in this paper. The signcryption and de-signcryption costs of devices are reduced to a small constant by offloading most of the computation to the edge server. To minimize communication and storage costs, a short and constant-size ciphertext is designed. Moreover, we adopt a hierarchical multi-authority architecture, setting up multiple attribute authorities that manage keys independently to prevent the bottleneck. Rigorous security analysis proves that the SLIM scheme can resist adaptive chosen ciphertext attacks and adaptive chosen message attacks under the standard model. Simulation experiments demonstrate the correctness of our theoretical derivations and the cost reduction of the SLIM scheme in computation, communication and storage.
Attribute-based signcryption, access control, constant-size ciphertext, multi-authority, outsourced computation
1556-6013
1299-1312
Gong, Bei
dd699a78-c0f9-498d-87d4-03f66274f316
Guo, Chong
a112fc03-991f-4142-9c0c-67edcf7f5260
Guo, Chong
52cdf577-3132-4a4d-84e8-504d598a8355
Guo, Chen
17469650-502f-4d3f-8c2a-e53f9cef3989
Sun, Yao
46a2c807-3646-4b28-91f0-c0422d80d109
Waqas, Muhammad
28f978b5-2da0-4060-aa7c-d5cadc1a48e1
Chen, Sheng
9310a111-f79a-48b8-98c7-383ca93cbb80
Gong, Bei
dd699a78-c0f9-498d-87d4-03f66274f316
Guo, Chong
a112fc03-991f-4142-9c0c-67edcf7f5260
Guo, Chong
52cdf577-3132-4a4d-84e8-504d598a8355
Guo, Chen
17469650-502f-4d3f-8c2a-e53f9cef3989
Sun, Yao
46a2c807-3646-4b28-91f0-c0422d80d109
Waqas, Muhammad
28f978b5-2da0-4060-aa7c-d5cadc1a48e1
Chen, Sheng
9310a111-f79a-48b8-98c7-383ca93cbb80

Gong, Bei, Guo, Chong, Guo, Chong, Guo, Chen, Sun, Yao, Waqas, Muhammad and Chen, Sheng (2024) SLIM: a secure and lightweight multi-authority attribute-based signcryption scheme for IoT. IEEE Transactions on Information Forensics and Security, 19, 1299-1312. (doi:10.1109/TIFS.2023.3331566).

Record type: Article

Abstract

Although attribute-based signcryption (ABSC) offers a promising technology to ensure the security of IoT data sharing, it faces a two-fold challenge in practical implementation, namely, the linearly increasing computation and communication costs and the heavy load of single authority based key management. To this end, we propose a Secure and Lightweight Multi-authority ABSC scheme called SLIM in this paper. The signcryption and de-signcryption costs of devices are reduced to a small constant by offloading most of the computation to the edge server. To minimize communication and storage costs, a short and constant-size ciphertext is designed. Moreover, we adopt a hierarchical multi-authority architecture, setting up multiple attribute authorities that manage keys independently to prevent the bottleneck. Rigorous security analysis proves that the SLIM scheme can resist adaptive chosen ciphertext attacks and adaptive chosen message attacks under the standard model. Simulation experiments demonstrate the correctness of our theoretical derivations and the cost reduction of the SLIM scheme in computation, communication and storage.

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Accepted/In Press date: 5 November 2023
e-pub ahead of print date: 8 November 2023
Published date: 1 January 2024
Additional Information: Funding Information: This work was supported in part by the National Key Research and Development Project of China under Grant 2019YFB2102303 and in part by the National Natural Science Foundation of China under Grant 61971014. Publisher Copyright: © 2005-2012 IEEE.
Keywords: Attribute-based signcryption, access control, constant-size ciphertext, multi-authority, outsourced computation
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Identifiers

Local EPrints ID: 483971
URI: http://eprints.soton.ac.uk/id/eprint/483971
DOI: doi:10.1109/TIFS.2023.3331566
ISSN: 1556-6013
PURE UUID: 9da0da82-0c29-4d1f-bff7-53caa227e62a

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Date deposited: 08 Nov 2023 17:51
Last modified: 17 Mar 2024 05:43

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Contributors

Author: Bei Gong
Author: Chong Guo
Author: Chong Guo
Author: Chen Guo
Author: Yao Sun
Author: Muhammad Waqas
Author: Sheng Chen

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