Collusion-resilient broadcast encryption based on dual-evolving one-way function trees
Collusion-resilient broadcast encryption based on dual-evolving one-way function trees
The Internet keeps flourishing and enables unexpected possibilities to all aspects of individuals' life. Such distributed networking systems as wireless sensor networks and Internet of things are widely deployed. Yet, in the meantime secure group communication remains a challenging task in these environments. To address this challenge, this paper aims at lightweight group key establishment with strong security properties. We propose a broadcast encryption scheme based on one-way function trees and specify a dual-evolving approach for dynamic group-membership update. Then we complement the scheme by a content-protection protocol and further optimize the protocol in terms of communication efficiency. As with our analysis, our scheme can successfully prevent a key leakage attack, namely, collusion attack. Through our comprehensive evaluations, we confirm the effectiveness and the adequacy of our solution in distributed networking systems.
3633-3645
Zhang, Yao
08d95f3b-0bee-4e08-809c-6fa2262d13fc
Zheng, Zhiming
b5c8b75e-fa5f-494b-b81c-c600c9aeac4f
Szalachowski, Pawel
b62deb96-2371-42ad-9ad1-4bedc5c3ecdc
Wang, Qi
91220429-39a1-459a-9dfb-20fb90bfa974
10 November 2016
Zhang, Yao
08d95f3b-0bee-4e08-809c-6fa2262d13fc
Zheng, Zhiming
b5c8b75e-fa5f-494b-b81c-c600c9aeac4f
Szalachowski, Pawel
b62deb96-2371-42ad-9ad1-4bedc5c3ecdc
Wang, Qi
91220429-39a1-459a-9dfb-20fb90bfa974
Zhang, Yao, Zheng, Zhiming, Szalachowski, Pawel and Wang, Qi
(2016)
Collusion-resilient broadcast encryption based on dual-evolving one-way function trees.
Security and Communication Networks, 9 (16), .
(doi:10.1002/sec.1570).
Abstract
The Internet keeps flourishing and enables unexpected possibilities to all aspects of individuals' life. Such distributed networking systems as wireless sensor networks and Internet of things are widely deployed. Yet, in the meantime secure group communication remains a challenging task in these environments. To address this challenge, this paper aims at lightweight group key establishment with strong security properties. We propose a broadcast encryption scheme based on one-way function trees and specify a dual-evolving approach for dynamic group-membership update. Then we complement the scheme by a content-protection protocol and further optimize the protocol in terms of communication efficiency. As with our analysis, our scheme can successfully prevent a key leakage attack, namely, collusion attack. Through our comprehensive evaluations, we confirm the effectiveness and the adequacy of our solution in distributed networking systems.
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Accepted/In Press date: 30 May 2016
e-pub ahead of print date: 18 July 2016
Published date: 10 November 2016
Organisations:
Southampton Wireless Group
Identifiers
Local EPrints ID: 400596
URI: http://eprints.soton.ac.uk/id/eprint/400596
ISSN: 1939-0114
PURE UUID: 20912191-32ea-43cb-92ff-fd5db5fe3b39
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Date deposited: 20 Sep 2016 08:34
Last modified: 15 Mar 2024 02:23
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Contributors
Author:
Yao Zhang
Author:
Zhiming Zheng
Author:
Pawel Szalachowski
Author:
Qi Wang
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