Blockchain for IoT security and privacy: The case study of a smart home

A. Dorri, S. Kanhere, R. Jurdak, Praveen Gauravaram
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引用次数: 1251

Abstract

Internet of Things (IoT) security and privacy remain a major challenge, mainly due to the massive scale and distributed nature of IoT networks. Blockchain-based approaches provide decentralized security and privacy, yet they involve significant energy, delay, and computational overhead that is not suitable for most resource-constrained IoT devices. In our previous work, we presented a lightweight instantiation of a BC particularly geared for use in IoT by eliminating the Proof of Work (POW) and the concept of coins. Our approach was exemplified in a smart home setting and consists of three main tiers namely: cloud storage, overlay, and smart home. In this paper we delve deeper and outline the various core components and functions of the smart home tier. Each smart home is equipped with an always online, high resource device, known as “miner” that is responsible for handling all communication within and external to the home. The miner also preserves a private and secure BC, used for controlling and auditing communications. We show that our proposed BC-based smart home framework is secure by thoroughly analysing its security with respect to the fundamental security goals of confidentiality, integrity, and availability. Finally, we present simulation results to highlight that the overheads (in terms of traffic, processing time and energy consumption) introduced by our approach are insignificant relative to its security and privacy gains.
物联网安全和隐私的区块链:智能家居的案例研究
物联网(IoT)的安全和隐私仍然是一个重大挑战,主要是由于物联网网络的大规模和分布式性质。基于区块链的方法提供了分散的安全性和隐私性,但它们涉及大量的能源、延迟和计算开销,不适合大多数资源受限的物联网设备。在我们之前的工作中,我们通过消除工作量证明(POW)和硬币的概念,提出了一个特别适合物联网使用的BC的轻量级实例。我们的方法以智能家居环境为例,包括三个主要层面,即:云存储、覆盖和智能家居。在本文中,我们深入研究并概述了智能家居层的各种核心组件和功能。每个智能家居都配备了一个始终在线的高资源设备,称为“矿工”,负责处理家庭内外的所有通信。矿工还保留了一个私有和安全的BC,用于控制和审计通信。我们通过对保密性、完整性和可用性等基本安全目标的安全性进行彻底分析,证明我们提出的基于bc的智能家居框架是安全的。最后,我们给出了模拟结果,以强调我们的方法引入的开销(在流量、处理时间和能耗方面)相对于其安全性和隐私收益而言是微不足道的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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