عنوان انگلیسی مقاله:
Lightweight adaptive Random-Forest for IoT rule generation and execution
ترجمه فارسی عنوان مقاله:
تصادفی جنگل انطباقی سبک برای تولید و اجرای قانون IoT
Sciencedirect - Elsevier - Journal of Information Security and Applications, 34 (2017) 218-224. doi:10.1016/j.jisa.2017.03.001
Menachem Domb, Elisheva Bonchek-Dokow, Guy Leshem
Article history:Available online 30 March 2017Keywords: Internet of Things SecurityRules extraction Random-Forest Active learningThe area of the Internet of Things is growing rapidly. The volume of transmitted data over the various sensors is growing accordingly. Sensors typically are low in resources of storage, memory and process- ing power. Data security and privacy are part of the major concerns and drawbacks of this growing do- main. Sensor traﬃc analysis has become an increasingly important domain to protect IoT infrastructures from intruders. An IoT network intrusion detection system is required to monitor and analyze the traﬃc and predict possible attacks. Machine leaning techniques can automatically extract normal and abnormal patterns from a large set of training sensors data. Due to the high volume of traﬃc and the need for real-time reaction, accurate threat discovery is mandatory. This work focuses on designing a lightweight comprehensive IoT rules generation and execution framework. It is composed of three components, a machine learning rule discovery, a threat prediction model builder and tools to ensure timely reaction to rules violation and un-standardized and ongoing changes in traﬃc behavior. The generated detection model is expected to identify in real-time exceptions and notify the system accordingly. We use Random- Forest (RF) as the machine learning platform for rules discovery and real-time anomaly detection. To al- low RF adaptation to IoT we propose several improvements to make it lightweight and propose a process that combines IoT network capabilities; messaging and resource sharing, to build a comprehensive and eﬃcient IoT security framework.© 2017 Elsevier Ltd. All rights reserved.
Keywords: Internet of Things | Security Rules extraction | Random-Forest | Active learning