A Forward-secure Grouping-proof Protocol for Multiple RFID Tags

A Forward-secure Grouping-proof Protocol for Multiple RFID Tags

Designing secure and robust grouping-proof protocols based on RFID characteristics becomes a hotspot in the research of security in Internet of Things (IOT). The proposed grouping-proof protocols recently have security and/or privacy omission and these schemes afford order-dependence by relaying mes...

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Bibliographic Details
Main Authors: Liu Ya-li, Qin Xiao-lin, Li Bo-han, Liu Liang
Format: Article
Language:English
Published: Atlantis Press 2012-09-01
Series:International Journal of Computational Intelligence Systems
Subjects:
RFID
Grouping-proof
Forward-secure
Order-independent
Secret Sharing
Online Access:https://www.atlantis-press.com/article/25868013.pdf
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spelling doaj-46f7599ea4574d0ebfdf524f51b46e002020-11-25T01:38:06ZengAtlantis PressInternational Journal of Computational Intelligence Systems 1875-68832012-09-015510.1080/18756891.2012.733209A Forward-secure Grouping-proof Protocol for Multiple RFID TagsLiu Ya-liQin Xiao-linLi Bo-hanLiu LiangDesigning secure and robust grouping-proof protocols based on RFID characteristics becomes a hotspot in the research of security in Internet of Things (IOT). The proposed grouping-proof protocols recently have security and/or privacy omission and these schemes afford order-dependence by relaying message among tags through an RFID reader. In consequence, aiming at enhancing the robustness, improving scalability, reducing the computation costs on resource-constrained devices, and meanwhile combing Computational Intelligence (CI) with Secure Multi-party Communication (SMC), a Forward-Secure Grouping-Proof Protocol (FSGP) for multiple RFID tags based on Shamir's (, ) secret sharing is proposed. In comparison with the previous grouping-proof protocols, FSGP has the characteristics of forward-security and order-independence addressing the scalability issue by avoiding relaying message. Our protocol provides security enhancement, performance improvement, and meanwhile controls the computation cost, which equilibrates both security and low cost requirements for RFID tags.https://www.atlantis-press.com/article/25868013.pdfRFIDGrouping-proofForward-secureOrder-independentSecret Sharing
collection DOAJ
language English
format Article
sources DOAJ
author Liu Ya-li
Qin Xiao-lin
Li Bo-han
Liu Liang
spellingShingle Liu Ya-li
Qin Xiao-lin
Li Bo-han
Liu Liang
A Forward-secure Grouping-proof Protocol for Multiple RFID Tags
International Journal of Computational Intelligence Systems
RFID
Grouping-proof
Forward-secure
Order-independent
Secret Sharing
author_facet Liu Ya-li
Qin Xiao-lin
Li Bo-han
Liu Liang
author_sort Liu Ya-li
title A Forward-secure Grouping-proof Protocol for Multiple RFID Tags
title_short A Forward-secure Grouping-proof Protocol for Multiple RFID Tags
title_full A Forward-secure Grouping-proof Protocol for Multiple RFID Tags
title_fullStr A Forward-secure Grouping-proof Protocol for Multiple RFID Tags
title_full_unstemmed A Forward-secure Grouping-proof Protocol for Multiple RFID Tags
title_sort forward-secure grouping-proof protocol for multiple rfid tags
publisher Atlantis Press
series International Journal of Computational Intelligence Systems
issn 1875-6883
publishDate 2012-09-01
description Designing secure and robust grouping-proof protocols based on RFID characteristics becomes a hotspot in the research of security in Internet of Things (IOT). The proposed grouping-proof protocols recently have security and/or privacy omission and these schemes afford order-dependence by relaying message among tags through an RFID reader. In consequence, aiming at enhancing the robustness, improving scalability, reducing the computation costs on resource-constrained devices, and meanwhile combing Computational Intelligence (CI) with Secure Multi-party Communication (SMC), a Forward-Secure Grouping-Proof Protocol (FSGP) for multiple RFID tags based on Shamir's (, ) secret sharing is proposed. In comparison with the previous grouping-proof protocols, FSGP has the characteristics of forward-security and order-independence addressing the scalability issue by avoiding relaying message. Our protocol provides security enhancement, performance improvement, and meanwhile controls the computation cost, which equilibrates both security and low cost requirements for RFID tags.
topic RFID
Grouping-proof
Forward-secure
Order-independent
Secret Sharing
url https://www.atlantis-press.com/article/25868013.pdf
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