基于增量计数器的物联网设备间匿名认证方案(AIMIA-IC)

M. Alshahrani, I. Traoré, I. Woungang
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引用次数: 2

摘要

网络攻击者正在将注意力从传统计算机转移到物联网设备,进行恶意活动,如暴露智能房主的私人信息和/或发动僵尸网络攻击。与传统网络一样,物联网网络的安全性取决于如何正确地完成身份验证过程。然而,与传统网络不同的是,由于底层存储和计算能力的固有限制,物联网基础设施在部署和操作强认证方案方面面临着一场艰苦的战斗。本文提出了一种基于瞬态身份、增量计数器和临时密钥的物联网设备间匿名互鉴协议。提出的协议基于对称加密,并以某种方式遵循ZigBee协议。它允许物联网设备以不可链接和不可追踪的方式匿名和相互认证,并实现物联网设备的基本安全要求。通过分析该协议,我们评估并证明了它的效率及其相对有限的计算和存储开销。此外,通过非正式的安全分析和使用互联网安全协议和应用程序(AVISPA)工具包的自动验证来保证协议的安全性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Anonymous IoT Mutual Inter-Device Authentication Scheme Based on Incremental Counter (AIMIA-IC)
Cyber attackers are shifting their attention from traditional computers to IoT devices for malignant activities like exposing smart homeowner private information and/or to launch botnet attacks. Like for conventional networks, the security of IoT networks rests on how properly the authentication process is done. However, unlike conventional networks, IoT infrastructure faces an uphill battle in deploying and operating strong authentication schemes because of inherent limitations on the underlying storage and computation capability. In this paper, we propose a new anonymous mutual Inter-device authentication protocol based on transient identities, incremental counter and temporary secret keys for IoT. The proposed protocol is based on symmetric cryptography and somehow follows the ZigBee protocol. It allows IoT devices to anonymously and mutually authenticate in an unlinkable and untraceable manner, and implements essential security requirements for IoT devices. By analyzing the protocol, we evaluate and demonstrate its efficiency and its relatively limited computational and storage overhead. Furthermore, the security of the protocol is assured through informal security analysis and formally by using the automated validation of Internet security protocols and applications (AVISPA) toolkit.
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