计算机科学
故障树分析
计算机安全
家庭自动化
人气
物联网
互联网
建筑
安全性分析
事实上
电信
工程类
万维网
可靠性工程
社会心理学
艺术
视觉艺术
法学
政治学
心理学
作者
Chanoksuda Wongvises,Assadarat Khurat,Doudou Fall,Shigeru Kashihara
标识
DOI:10.1109/incit.2017.8257865
摘要
A smart home is a new enabling innovative appliance domain that is developed from the rapid growth of the Internet of Things. Despite its popularity and evident usefulness for human beings, smart homes have numerous security issues that originate from the heterogeneous, wide-scale and complex structure of the Internet of Things. It is obvious that a risk assessment is needed in order to ensure the security of smart homes. We propose a security risk quantification technique that permits to have a measure of the level of security of a given smart home based on the `things' that it is composed of. Our method is based on Fault Tree Analysis which is the de-facto tool used in mission-critical systems. At first, we generated an exhaustive security tree based on the general architecture of a smart home. Afterwards, we evaluated our proposal in a use case of successful attacks on a light bulb system that functions through the ZigBee protocol. We were able to demonstrate that the risk of a successful attack in that system is very high given the same conditions.
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