Anomaly Detection in Complex Power Grid using Organic Combination of Various Deep Learning (OC-VDL)
Tamarah Alaa Diame1,*, Kadim A. Jabbar2, Ahmed Taha3, Naseer Ali Hussien4, Sura Rahim Alatba5, Mohammed Nasser Al-Mhiqani6, Venkatesan Rajinikanth7
1Technical Computer Engineering Department, Al-Kunooze University College,Basrah, Iraq
2Department of Computer Engineering techniques,National University of science and technology, Thi Qar, Iraq
3Medical instruments engineering techniques, Al-farahidi University, Baghdad, Iraq:
4Information and Communication Technology Research Group, Scientific Research Center,
Al-Ayen University, Thi-Qar, Iraq
5Computer Technologies Engineering, Al-Turath University College, Baghdad, Iraq
6 Keele University (KU), Keele, United Kingdom, Staffordshire, ST5 5AA
7Department of Computer Science and Engineering, Saveetha School of Engineering, Saveetha Institute of Medical and Technical Sciences, Chennai 602105, India
Emails: Tamarah.Alaa@kunoozu.edu.iq; kadim.jabber@nust.edu.iq; Ahmedtaha@uoalfarahidi.edu.iq; naseerali@alayen.edu.iq; sura.raheem@turath.edu.iq; Almohaiqny@gmail.com; v.rajinikanth@ieee.org
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Abstract The development of power industries creates impacts on the intelligent power grids. The power grids are more valuable for transmitting information over the network. Several intermediate activities influence the networks, which are interrupted by traffic, creating network security issues. Therefore, the threats highly influence power grids, and the number of attacks also increased gradually. Several conceptual approaches are introduced to overcome the security issues; however, computation complexity is still a significant problem while detecting network anomalies. This research problem is overcome by applying the Organic Combination of Various Deep Learning (OC-VDL) approach. The introduced method observes the industry standards with the help of the Innovative Blockchain Network (IBN). During this process, IBN observes the infrastructure using the communication protocol and Manufacturing Internet of Things (IoT). The collected information is processed with the help of the Intense Autoencoder Classifier Model (IACM), which manages bilateral traffic control and helps predict abnormal activities. The effective prediction of network traffic minimizes the intermediate activities and improves the overall security up to 98.8% accuracy. |
*Corresponding Author: Tamarah.Alaa@kunoozu.edu.iq
Received: February 22, 2023 Revised: May 21, 2023 Accepted: September 03, 2023
Keywords: Power grids; Network Anomaly Detection; Deep Model; Intense Autoencoder Classifier Model .