Paper Info
Title
Fuzzy vault‐based three‐factor authentication and key exchange for 5G‐integrated wireless sensor networks
Abstract
AbstractAbstractThe integration of the wireless sensor networks (WSNs) and the advanced 5G networks has greatly enriched applications of the Internet of Things. However, the open access to sensor nodes whose resources are limited makes the entire WSNs potentially insecure. It is impending to authenticate the identities of the communication participants to prevent various attacks such as eavesdropping, capturing, and tampering. Recently, an authentication and key exchange protocol for 5G‐integrated WSNs was proposed by Shin et al. However, we have found that the scheme cannot defend against offline password guessing attacks and de‐synchronization attacks. Therefore, we put forward an enhanced authentication and key exchange protocol, which can resist known attacks and shows more fitness for the scenario of 5G‐integrated WSNs. In addition, we have analyzed that our scheme is provably secure under the random oracle model with a strict adversarial hypothesis and possesses a better performance than Shin et al's scheme.To address the new threats arising from 5G‐integrated wireless sensor networks (WSNs), we put forward three‐factor authentication and key exchange protocol based on fuzzy vault, which can resist known attacks and shows more fitness for the scenario of 5G‐integrated WSNs. In addition, we have analyzed that our scheme is provably secure under the random oracle model with a strict adversarial hypothesis. View Figure
Year
DOI
Venue
2021
10.1002/ett.3925
Periodicals
DocType
Volume
Issue
Journal
32
5
ISSN
Citations 
PageRank 
2161-3915
0
0.34
References 
Authors
0
6
Name
Order
Citations
PageRank
Junshuai Sun100.68
Qi Jiang225410.02
Jianfeng Ma3120789.64
Qingfeng Cheng45913.05
Chih-Lin I52167211.25
Chengguang Yin600.34