Just Shake Them Together: Imitation-Resistant Secure Pairing of Smart Devices via Shaking

Just Shake Them Together: Imitation-Resistant Secure Pairing of Smart Devices via Shaking

In traditional device-to-device (D2D) communication based on wireless channel, identity authentication and spontaneous secure connections between smart devices are essential requirements. In this paper, we propose an imitation-resistant secure pairing framework including authentication and key gener...

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Main Authors: Congcong Shi, Lei Xie, Chuyu Wang, Peicheng Yang, Yubo Song, Sanglu Lu
Format: Article
Language:English
Published: Hindawi-Wiley 2021-01-01
Series:Wireless Communications and Mobile Computing
Online Access:http://dx.doi.org/10.1155/2021/6668478
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spelling doaj-90a6362504aa4a928560db7f790de7ae2021-04-19T00:05:00ZengHindawi-WileyWireless Communications and Mobile Computing1530-86772021-01-01202110.1155/2021/6668478Just Shake Them Together: Imitation-Resistant Secure Pairing of Smart Devices via ShakingCongcong Shi0Lei Xie1Chuyu Wang2Peicheng Yang3Yubo Song4Sanglu Lu5State Key Laboratory for Novel Software TechnologyState Key Laboratory for Novel Software TechnologyState Key Laboratory for Novel Software TechnologyState Key Laboratory for Novel Software TechnologySchool of Cyber Science and EngineeringState Key Laboratory for Novel Software TechnologyIn traditional device-to-device (D2D) communication based on wireless channel, identity authentication and spontaneous secure connections between smart devices are essential requirements. In this paper, we propose an imitation-resistant secure pairing framework including authentication and key generation for smart devices, by shaking these devices together. Based on the data collected by multiple sensors of smart devices, these devices can authenticate each other and generate a unique and consistent symmetric key only when they are shaken together. We have conducted comprehensive experimental study on shaking various devices. Based on this study, we have listed several novel observations and extracted important clues for key generation. We propose a series of innovative technologies to generate highly unique and completely randomized symmetric keys among these devices, and the generation process is robust to noise and protects privacy. Our experimental results show that our system can accurately and efficiently generate keys and authenticate each other.http://dx.doi.org/10.1155/2021/6668478
collection DOAJ
language English
format Article
sources DOAJ
author Congcong Shi
Lei Xie
Chuyu Wang
Peicheng Yang
Yubo Song
Sanglu Lu
spellingShingle Congcong Shi
Lei Xie
Chuyu Wang
Peicheng Yang
Yubo Song
Sanglu Lu
Just Shake Them Together: Imitation-Resistant Secure Pairing of Smart Devices via Shaking
Wireless Communications and Mobile Computing
author_facet Congcong Shi
Lei Xie
Chuyu Wang
Peicheng Yang
Yubo Song
Sanglu Lu
author_sort Congcong Shi
title Just Shake Them Together: Imitation-Resistant Secure Pairing of Smart Devices via Shaking
title_short Just Shake Them Together: Imitation-Resistant Secure Pairing of Smart Devices via Shaking
title_full Just Shake Them Together: Imitation-Resistant Secure Pairing of Smart Devices via Shaking
title_fullStr Just Shake Them Together: Imitation-Resistant Secure Pairing of Smart Devices via Shaking
title_full_unstemmed Just Shake Them Together: Imitation-Resistant Secure Pairing of Smart Devices via Shaking
title_sort just shake them together: imitation-resistant secure pairing of smart devices via shaking
publisher Hindawi-Wiley
series Wireless Communications and Mobile Computing
issn 1530-8677
publishDate 2021-01-01
description In traditional device-to-device (D2D) communication based on wireless channel, identity authentication and spontaneous secure connections between smart devices are essential requirements. In this paper, we propose an imitation-resistant secure pairing framework including authentication and key generation for smart devices, by shaking these devices together. Based on the data collected by multiple sensors of smart devices, these devices can authenticate each other and generate a unique and consistent symmetric key only when they are shaken together. We have conducted comprehensive experimental study on shaking various devices. Based on this study, we have listed several novel observations and extracted important clues for key generation. We propose a series of innovative technologies to generate highly unique and completely randomized symmetric keys among these devices, and the generation process is robust to noise and protects privacy. Our experimental results show that our system can accurately and efficiently generate keys and authenticate each other.
url http://dx.doi.org/10.1155/2021/6668478
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AT leixie justshakethemtogetherimitationresistantsecurepairingofsmartdevicesviashaking
AT chuyuwang justshakethemtogetherimitationresistantsecurepairingofsmartdevicesviashaking
AT peichengyang justshakethemtogetherimitationresistantsecurepairingofsmartdevicesviashaking
AT yubosong justshakethemtogetherimitationresistantsecurepairingofsmartdevicesviashaking
AT sanglulu justshakethemtogetherimitationresistantsecurepairingofsmartdevicesviashaking
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