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Title Deep Learning-Driven Anomaly Detection For Green Iot Edge Networks
ID_Doc 17977
Authors Shahnejat Bushehri A.; Amirnia A.; Belkhiri A.; Keivanpour S.; De Magalhaes F.G.; Nicolescu G.
Year 2024
Published IEEE Transactions on Green Communications and Networking, 8, 1
DOI http://dx.doi.org/10.1109/TGCN.2023.3335342
Abstract The widespread use of sensor devices in IoT networks imposes a significant burden on energy consumption at the network's edge. To address energy concerns, a prompt anomaly detection strategy is required on demand for troubleshooting resource-constrained IoT devices. It enables devices to adapt their configuration according to the dynamic signal quality and transmission settings. However, obtaining accurate energy data from IoT nodes without external devices is unfeasible. This paper proposes a framework for energy anomaly detection of IoT nodes using data transmission analysis. We use a public dataset that contains peer-to-peer IoT communication energy and link quality data. Our framework first utilizes linear regression to analyze and identify the dominant features of data communication for IoT transceivers. Later, a deep neural network modifies the gradient flow to focus on the dominant features. This modification improves the detection accuracy of anomalies by minimizing the associated reconstruction error. Finally, the energy stabilization feedback provides nodes with insight to change their transmission configuration for future communication. The experimental results show that the proposed approach outperforms other unsupervised models in anomalous energy detection. It also proves that redesigning the conventional loss function by enhancing the impact of our dominant features can dramatically improve the reliability of the anomaly detection method. © 2017 IEEE.
Author Keywords anomaly detection; deep learning; edge networks; energy consumption; IoT; link quality; low power; power consumption; smart city; Transmission protocol; unsupervised learning; wireless sensor networks


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