A Lightweight Privacy-Preserving Communication Protocol for Heterogeneous IoT Environment

While Internet-of-Things (IoT) significantly facilitates the convenience of people's daily life, the lack of security practice raises the risk of privacy-sensitive user data leakage. Securing data transmission among IoT devices is therefore a critical capability of IoT environments such as Inte...

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Veröffentlicht in:	IEEE access 2020, Vol.8, p.67192-67204
Hauptverfasser:	Luo, Xi, Yin, Lihua, Li, Chao, Wang, Chonghua, Fang, Fuyang, Zhu, Chunsheng, Tian, Zhihong
Format:	Artikel
Sprache:	eng
Schlagworte:	Chaos theory Chaotic communication Communication Consumption Cryptography Data transmission Electronic devices Internet of Things Internet of Things (IoT) key delegation Lightweight lightweight protocol Logistics Privacy Protocols secure communication Security Sensors Smart buildings Smart homes symmetric encryption
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creator	Luo, Xi Yin, Lihua Li, Chao Wang, Chonghua Fang, Fuyang Zhu, Chunsheng Tian, Zhihong
description	While Internet-of-Things (IoT) significantly facilitates the convenience of people's daily life, the lack of security practice raises the risk of privacy-sensitive user data leakage. Securing data transmission among IoT devices is therefore a critical capability of IoT environments such as Intelligent Connected Vehicles, Smart Home, Intelligent City and so forth. However, cryptographic communication scheme is challenged by the limited resource of low-cost IoT devices, even negligible extra CPU usage of battery-powered sensors would result in dramatical decrease of the battery life. In this paper, to minimize the resource consumption, we propose a communication protocol involving only the symmetric key-based scheme, which provides ultra-lightweight yet effective encryptions to protect the data transmissions. Symmetric keys generated in this protocol are delegated based on a chaotic system, i.e., Logistic Map, to resist against the key reset and device capture attacks. We semantically model such protocol and analyze the security properties. Moreover, the resource consumption is also evaluated to guarantee runtime efficacy.
doi_str_mv	10.1109/ACCESS.2020.2978525
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subjects	Chaos theory Chaotic communication Communication Consumption Cryptography Data transmission Electronic devices Internet of Things Internet of Things (IoT) key delegation Lightweight lightweight protocol Logistics Privacy Protocols secure communication Security Sensors Smart buildings Smart homes symmetric encryption
title	A Lightweight Privacy-Preserving Communication Protocol for Heterogeneous IoT Environment
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