Abstract
In the past few years, Internet of Things (IoT) devices have evolved faster and the use of these devices is exceedingly increasing to make our daily activities easier than ever. However, numerous security flaws persist on IoT devices due to the fact that the majority of them lack the memory and computing resources necessary for adequate security operations. As a result, IoT devices are affected by a variety of attacks. A single attack on network systems or devices can lead to significant damages in data security and privacy. However, machine-learning techniques can be applied to detect IoT attacks. In this paper, a hybrid machine learning scheme called XGB-RF is proposed for detecting intrusion attacks. The proposed hybrid method was applied to the N-BaIoT dataset containing hazardous botnet attacks. Random forest (RF) was used for the feature selection and eXtreme Gradient Boosting (XGB) classifier was used to detect different types of attacks on IoT environments. The performance of the proposed XGB-RF scheme is evaluated based on several evaluation metrics and demonstrates that the model successfully detects 99.94% of the attacks. After comparing it with state-of-the-art algorithms, our proposed model has achieved better performance for every metric. As the proposed scheme is capable of detecting botnet attacks effectively, it can significantly contribute to reducing the security concerns associated with IoT systems.
Highlights
The Fourth Industrial Revolution will be fueled by cutting-edge and innovative technologies where the Internet of Things (IoT) devices will play integral roles [1]
We propose a machine learning-based approach for intrusion detection in IoT systems where the random forest (RF) algorithm is used to select inevitable features from the N-BaIoT dataset to boost detection accuracy
XGB classification algorithm is to identify each type of attack that occurs in the IoT network
Summary
The Fourth Industrial Revolution will be fueled by cutting-edge and innovative technologies where the Internet of Things (IoT) devices will play integral roles [1]. IoT is one of the fastest expanding fields in the history of technology, with around 50 billion devices in use by the end of 2020 [2]. Because IoT devices lack fundamental security protocols, they have become tempting targets for attackers. IoT devices are subjected to an average of 5200 attacks per month [3]. In the first half of 2019, attacks against IoT devices tripled compared with the previous year [4]. According to Checkpoint’s study, 71% of security experts have observed an increase in security risks in IoT networks after the prevalence of COVID-19 [5].
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