Abstract
The Internet of Things (IoT) devices, networks, and applications have become an integral part of modern societies. Despite their social, economic, and industrial benefits, these devices and networks are frequently targeted by cybercriminals. Hence, IoT applications and networks demand lightweight, fast, and flexible security solutions to overcome these challenges. In this regard, artificial-intelligence-based solutions with Big Data analytics can produce promising results in the field of cybersecurity. This article proposes a lightweight dense random neural network (DnRaNN) for intrusion detection in the IoT. The proposed scheme is well suited for implementation in resource-constrained IoT networks due to its inherent improved generalization capabilities and distributed nature. The suggested model was evaluated by conducting extensive experiments on a new generation IoT security dataset ToN_IoT. All the experiments were conducted under different hyperparameters and the efficiency of the proposed DnRaNN was evaluated through multiple performance metrics. The findings of the proposed study provide recommendations and insights in binary class and multiclass scenarios. The proposed DnRaNN model attained attack detection accuracy of 99.14% and 99.05% for binary class and multiclass classifications, respectively.
Highlights
HE Internet of Things (IoT) can be generally describedT as an extensive network of interconnected smart devices that offer digital services to individuals and industries [1], [2]
The simulation and performance evaluation of the proposed Dense Random Neural Network (DnRaNN) are conducted on the Hewlett-Packard Pavilion Gaming Desktop TG01-2260xt workstation
An Nvidia GeForce GTX 1660 Super (6 GB GDDR6) graphic card ensures the smooth execution of the simulations
Summary
HE Internet of Things (IoT) can be generally described. T as an extensive network of interconnected smart devices that offer digital services to individuals and industries [1], [2]. The IoT plays a significant role in modern industries to acquire real-time information through multiple sensors and. This work is supported in parts by EPSRC IAA award EP/R511705/1. S.Latif, is with the School of Information Science and Engineering, Fudan University, Shanghai, China. Z.Huma is with the Department of Electrical Engineering, Institute of Space Technology, Islamabad, Pakistan. S.S.Jamal is with the Department of Mathematics, College of science, King Khalid University, Abha, Saudi Arabia
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