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398 results on '"Kundur, Deepa"'

1. A Kolmogorov-Arnold Network for Explainable Detection of Cyberattacks on EV Chargers

Author

Saber, Ahmad Mohammad, Santos, Max Mauro Dias, Janaideh, Mohammad Al, Youssef, Amr, and Kundur, Deepa

Subjects
Computer Science - Machine Learning, Computer Science - Cryptography and Security, Electrical Engineering and Systems Science - Signal Processing
Abstract

The increasing adoption of Electric Vehicles (EVs) and the expansion of charging infrastructure and their reliance on communication expose Electric Vehicle Supply Equipment (EVSE) to cyberattacks. This paper presents a novel Kolmogorov-Arnold Network (KAN)-based framework for detecting cyberattacks on EV chargers using only power consumption measurements. Leveraging the KAN's capability to model nonlinear, high-dimensional functions and its inherently interpretable architecture, the framework effectively differentiates between normal and malicious charging scenarios. The model is trained offline on a comprehensive dataset containing over 100,000 cyberattack cases generated through an experimental setup. Once trained, the KAN model can be deployed within individual chargers for real-time detection of abnormal charging behaviors indicative of cyberattacks. Our results demonstrate that the proposed KAN-based approach can accurately detect cyberattacks on EV chargers with Precision and F1-score of 99% and 92%, respectively, outperforming existing detection methods. Additionally, the proposed KANs's enable the extraction of mathematical formulas representing KAN's detection decisions, addressing interpretability, a key challenge in deep learning-based cybersecurity frameworks. This work marks a significant step toward building secure and explainable EV charging infrastructure., Comment: Accepted for the 2025 IEEE Power & Energy Society General Meeting (PESGM), 27-31 July 2025 Austin, TX, USA

Published
2025

2. A Novel Approach to Classify Power Quality Signals Using Vision Transformers

Author

Saber, Ahmad Mohammad, Selim, Alaa, Hammad, Mohamed M., Youssef, Amr, Kundur, Deepa, and El-Saadany, Ehab

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

With the rapid integration of electronically interfaced renewable energy resources and loads into smart grids, there is increasing interest in power quality disturbances (PQD) classification to enhance the security and efficiency of these grids. This paper introduces a new approach to PQD classification based on the Vision Transformer (ViT) model. When a PQD occurs, the proposed approach first converts the power quality signal into an image and then utilizes a pre-trained ViT to accurately determine the class of the PQD. Unlike most previous works, which were limited to a few disturbance classes or small datasets, the proposed method is trained and tested on a large dataset with 17 disturbance classes. Our experimental results show that the proposed ViT-based approach achieves PQD classification precision and recall of 98.28% and 97.98%, respectively, outperforming recently proposed techniques applied to the same dataset., Comment: IECON 2024-50th Annual Conference of the IEEE Industrial Electronics Society, Chicago, U.S.A, 2024, pp. 1-6

Published
2024

4. Enhancing Power Quality Event Classification with AI Transformer Models

Author

Saber, Ahmad Mohammad, Youssef, Amr, Svetinovic, Davor, Zeineldin, Hatem, Kundur, Deepa, and El-Saadany, Ehab

Subjects
Computer Science - Machine Learning, Electrical Engineering and Systems Science - Signal Processing
Abstract

Recently, there has been a growing interest in utilizing machine learning for accurate classification of power quality events (PQEs). However, most of these studies are performed assuming an ideal situation, while in reality, we can have measurement noise, DC offset, and variations in the voltage signal's amplitude and frequency. Building on the prior PQE classification works using deep learning, this paper proposes a deep-learning framework that leverages attention-enabled Transformers as a tool to accurately classify PQEs under the aforementioned considerations. The proposed framework can operate directly on the voltage signals with no need for a separate feature extraction or calculation phase. Our results show that the proposed framework outperforms recently proposed learning-based techniques. It can accurately classify PQEs under the aforementioned conditions with an accuracy varying between 99.81%$-$91.43% depending on the signal-to-noise ratio, DC offsets, and variations in the signal amplitude and frequency., Comment: Accepted in the IEEE Power and Energy Society General Meeting, 2024

Published
2024

5. Reinforcement Learning for Supply Chain Attacks Against Frequency and Voltage Control

Author

Mohamed, Amr S., Lee, Sumin, and Kundur, Deepa

Subjects
Electrical Engineering and Systems Science - Signal Processing, Electrical Engineering and Systems Science - Systems and Control
Abstract

The ongoing modernization of the power system, involving new equipment installations and upgrades, exposes the power system to the introduction of malware into its operation through supply chain attacks. Supply chain attacks present a significant threat to power systems, allowing cybercriminals to bypass network defenses and execute deliberate attacks at the physical layer. Given the exponential advancements in machine intelligence, cybercriminals will leverage this technology to create sophisticated and adaptable attacks that can be incorporated into supply chain attacks. We demonstrate the use of reinforcement learning for developing intelligent attacks incorporated into supply chain attacks against generation control devices. We simulate potential disturbances impacting frequency and voltage regulation. The presented method can provide valuable guidance for defending against supply chain attacks., Comment: 7 pages, conference, IEEE International Conference on Machine Learning and Applications (ICMLA) 2023

Published
2023

6. On the Use of Reinforcement Learning for Attacking and Defending Load Frequency Control

Author

Mohamed, Amr S. and Kundur, Deepa

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

The electric grid is an attractive target for cyberattackers given its critical nature in society. With the increasing sophistication of cyberattacks, effective grid defense will benefit from proactively identifying vulnerabilities and attack strategies. We develop a deep reinforcement learning-based method that recognizes vulnerabilities in load frequency control, an essential process that maintains grid security and reliability. We demonstrate how our method can synthesize a variety of attacks involving false data injection and load switching, while specifying the attack and threat models - providing insight into potential attack strategies and impact. We discuss how our approach can be employed for testing electric grid vulnerabilities. Moreover our method can be employed to generate data to inform the design of defense strategies and develop attack detection methods. For this, we design and compare a (deep learning-based) supervised attack detector with an unsupervised anomaly detector to highlight the benefits of developing defense strategies based on identified attack strategies.

Published
2023
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7. On the Use of Safety Critical Control for Cyber-Physical Security in the Smart Grid

Author

Mohamed, Amr S., Khalaf, Mohsen, and Kundur, Deepa

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

The tight coupling between communication and control in cyber-physical systems is necessary to enable the complex regulation required to operate these systems. Unfortunately, cyberattackers can exploit network vulnerabilities to compromise communication and force unsafe decision-making and dynamics. If a cyberattack is not detected and isolated in a timely manner, the control process must balance adhering to the received measurement signals to maintain system operation and ensuring that temporary compromise of the signals does not force unsafe dynamics. For this purpose, we present and employ a safety critical controller based on control barrier functions to mitigate attacks against load frequency control in smart power grids. We validate the paper's findings using simulation on a high-fidelity testbed., Comment: 9 pages, 7 figures, conference. Accepted for publishing at the 2023 IEEE Power & Energy Society General Meeting (GM)

Published
2023

8. A Probabilistic Approach to Adaptive Protection in the Smart Grid

Author

Mohamed, Amr S., Kundur, Deepa, and Khalaf, Mohsen

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Smart grids are critical cyber-physical systems that are vital to our energy future. Smart grids' fault resilience is dependent on the use of advanced protection systems that can reliably adapt to changing conditions within the grid. The vast amount of operational data generated and collected in smart grids can be used to develop these protection systems. However, given the safety-criticality of protection, the algorithms used to analyze this data must be stable, transparent, and easily interpretable to ensure the reliability of the protection decisions. Additionally, the protection decisions must be fast, selective, simple, and reliable. To address these challenges, this paper proposes a data-driven protection strategy, based on Gaussian Discriminant Analysis, for fault detection and isolation. This strategy minimizes the communication requirements for time-inverse relays, facilitates their coordination, and optimizes their settings. The interpretability of the protection decisions is a key focus of this paper. The method is demonstrated by showing how it can protect the medium-voltage CIGRE network as it transitions between islanded and grid-connected modes, and radial and mesh topologies., Comment: journal, 21 pages

Published
2023

11. Implicit Feedback Deep Collaborative Filtering Product Recommendation System

Author

Bhaskar, Karthik Raja Kalaiselvi, Kundur, Deepa, and Lawryshyn, Yuri

Subjects
Computer Science - Information Retrieval, Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

In this paper, several Collaborative Filtering (CF) approaches with latent variable methods were studied using user-item interactions to capture important hidden variations of the sparse customer purchasing behaviours. The latent factors are used to generalize the purchasing pattern of the customers and to provide product recommendations. CF with Neural Collaborative Filtering(NCF) was shown to produce the highest Normalized Discounted Cumulative Gain (NDCG) performance on the real-world proprietary dataset provided by a large parts supply company. Different hyperparameters were tested using Bayesian Optimization (BO) for applicability in the CF framework. External data sources like click-data and metrics like Clickthrough Rate (CTR) were reviewed for potential extensions to the work presented. The work shown in this paper provides techniques the Company can use to provide product recommendations to enhance revenues, attract new customers, and gain advantages over competitors., Comment: Under Review

Published
2020

13. Towards a more secure reconstruction-based anomaly detection model for power transformer differential protection.

Author

Jahromi, Martiya Zare, Khalaf, Mohsen, Kassouf, Marthe, and Kundur, Deepa

Subjects
ELECTRIC power failures, POWER transformers, PROTECTIVE relays, TRANSFORMER models, CYBER physical systems
Abstract

Introduction: Cyberattacks against Power Transformer Differential Protection (PTDP) have the potential to cause significant disruption and widespread blackouts in power infrastructure. Recent literature has demonstrated how reconstruction-based anomaly detection models can play a critical role in enhancing the security of PTDP against such attacks. However, these models themselves are vulnerable to cyber threats. Adversarial sample generation is an example of a threat against reconstruction-based anomaly detection models. Methods: To address this threat, we propose an approach for adversarial training of such models appropriate for PTDPs. We then review and compare the effect of adversarial training on the performance of four different model architectures. To demonstrate the efficacy of our proposed approach for improved security and performance in PTDP scenarios, the IEEE PSRC D6 benchmark test system is tested in an OPAL-RT environment. Results: Simulation results show the effectiveness of the proposed method for improved detection of cyberattacks. [ABSTRACT FROM AUTHOR]

Published
2025
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18. Communication Links Vulnerability Model for Cyber Security Mitigation

Author

Hammad, Eman, Farraj, Abdallah, Kundur, Deepa, Akan, Ozgur, Series editor, Bellavista, Paolo, Series editor, Cao, Jiannong, Series editor, Coulson, Geoffrey, Series editor, Dressler, Falko, Series editor, Ferrari, Domenico, Series editor, Gerla, Mario, Series editor, Kobayashi, Hisashi, Series editor, Palazzo, Sergio, Series editor, Sahni, Sartaj, Series editor, Shen, Xuemin Sherman, Series editor, Stan, Mircea, Series editor, Xiaohua, Jia, Series editor, Zomaya, Albert Y., Series editor, Zhou, Yifeng, editor, and Kunz, Thomas, editor

Published
2017
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23. Introduction to the Special Issue on Integrity of Multimedia and Multimodal Data in Internet of Things.

Author

Singh, Amit Kumar, Kundur, Deepa, and Conti, Mauro

Subjects
INTERNET of things, REINFORCEMENT learning, MULTIMEDIA systems, DEEP reinforcement learning, MULTIMODAL user interfaces, DEEP learning, DRIVER assistance systems
Abstract

An introduction is presented in which the editor discusses articles in the issue on topics including the integrity of multimedia and multimodal data in the Internet of Things (IoT), privacy protection methods, and advanced data analysis techniques.

Published
2024
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24. A Secure Cloud Architecture for Data Generated in the Energy Sector

Author

Pham-Hung, Michael, Srikantha, Pirathayini, Kundur, Deepa, Akan, Ozgur, Series editor, Cao, Jiannong, Series editor, Coulson, Geoffrey, Series editor, Dressler, Falko, Series editor, Ferrari, Domenico, Series editor, Gerla, Mario, Series editor, Kobayashi, Hisashi, Series editor, Palazzo, Sergio, Series editor, Sahni, Sartaj, Series editor, Shen, Xuemin (Sherman), Series editor, Stan, Mircea, Series editor, Xiaohua, Jia, Series editor, Zomaya, Albert, Series editor, Bellavista, Paolo, Series editor, Leon-Garcia, Alberto, editor, Lenort, Radim, editor, Holman, David, editor, Staš, David, editor, Krutilova, Veronika, editor, Wicher, Pavel, editor, Cagáňová, Dagmar, editor, Špirková, Daniela, editor, Golej, Julius, editor, and Nguyen, Kim, editor

Published
2016
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25. Network-Aware QoS Routing for Smart Grids Using Software Defined Networks

Author

Zhao, Jinjing, Hammad, Eman, Farraj, Abdallah, Kundur, Deepa, Akan, Ozgur, Series editor, Cao, Jiannong, Series editor, Coulson, Geoffrey, Series editor, Dressler, Falko, Series editor, Ferrari, Domenico, Series editor, Gerla, Mario, Series editor, Kobayashi, Hisashi, Series editor, Palazzo, Sergio, Series editor, Sahni, Sartaj, Series editor, Shen, Xuemin (Sherman), Series editor, Stan, Mircea, Series editor, Xiaohua, Jia, Series editor, Zomaya, Albert, Series editor, Bellavista, Paolo, Series editor, Leon-Garcia, Alberto, editor, Lenort, Radim, editor, Holman, David, editor, Staš, David, editor, Krutilova, Veronika, editor, Wicher, Pavel, editor, Cagáňová, Dagmar, editor, Špirková, Daniela, editor, Golej, Julius, editor, and Nguyen, Kim, editor

Published
2016
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26. Secure Management and Processing of Metered Data in the Cloud

Author

Zhang, Bokun, Srikantha, Pirathayini, Kundur, Deepa, Akan, Ozgur, Series editor, Cao, Jiannong, Series editor, Coulson, Geoffrey, Series editor, Dressler, Falko, Series editor, Ferrari, Domenico, Series editor, Gerla, Mario, Series editor, Kobayashi, Hisashi, Series editor, Palazzo, Sergio, Series editor, Sahni, Sartaj, Series editor, Shen, Xuemin (Sherman), Series editor, Stan, Mircea, Series editor, Xiaohua, Jia, Series editor, Zomaya, Albert, Series editor, Bellavista, Paolo, Series editor, Leon-Garcia, Alberto, editor, Lenort, Radim, editor, Holman, David, editor, Staš, David, editor, Krutilova, Veronika, editor, Wicher, Pavel, editor, Cagáňová, Dagmar, editor, Špirková, Daniela, editor, Golej, Julius, editor, and Nguyen, Kim, editor

Published
2016
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27. Trends in Short-Term Renewable and Load Forecasting for Applications in Smart Grid

Author

Lee, Dongchan, Park, Jangwon, Kundur, Deepa, Akan, Ozgur, Series editor, Cao, Jiannong, Series editor, Coulson, Geoffrey, Series editor, Dressler, Falko, Series editor, Ferrari, Domenico, Series editor, Gerla, Mario, Series editor, Kobayashi, Hisashi, Series editor, Palazzo, Sergio, Series editor, Sahni, Sartaj, Series editor, Shen, Xuemin (Sherman), Series editor, Stan, Mircea, Series editor, Xiaohua, Jia, Series editor, Zomaya, Albert, Series editor, Bellavista, Paolo, Series editor, Leon-Garcia, Alberto, editor, Lenort, Radim, editor, Holman, David, editor, Staš, David, editor, Krutilova, Veronika, editor, Wicher, Pavel, editor, Cagáňová, Dagmar, editor, Špirková, Daniela, editor, Golej, Julius, editor, and Nguyen, Kim, editor

Published
2016
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32. On the Use of Reinforcement Learning for Attacking and Defending Load Frequency Control

Author

Mohamed, Amr S. and Kundur, Deepa

Abstract

The electric grid is an attractive target for cyberattackers given its critical nature in society. With the increasing sophistication of cyberattacks, effective grid defense will benefit from proactively identifying vulnerabilities and attack strategies. We develop a deep reinforcement learning-based method that recognizes vulnerabilities in load frequency control, an essential process that maintains grid security and reliability. We demonstrate how our method can synthesize a variety of attacks involving false data injection and load switching, while specifying the attack and threat models – providing insight into potential attack strategies and impact. We discuss how our approach can be employed for testing electric grid vulnerabilities. Moreover our method can be employed to generate data to inform the design of defense strategies and develop attack detection methods. For this, we design and compare a (deep learning-based) supervised attack detector with an unsupervised anomaly detector to highlight the benefits of developing defense strategies based on identified attack strategies.

Published
2024
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35. Identification of a class of precision motion systems with uncertain hysteretic nonlinearities.

Author

Aljanaideh, Khaled F., Al Janaideh, Mohammad, Rakotondrabe, Micky, Al Saaideh, Mohammad, Almomani, Abdallah M., Bani Hani, Muath A., and Kundur, Deepa

Subjects
PIEZOELECTRIC actuators, HYSTERESIS
Abstract

In this paper, we propose a nonrecursive identification algorithm for a class of precision motion systems with uncertain hysteresis nonlinearities. This class of precision motion systems can be modeled by a Hammerstein system with a hysteresis nonlinearity. The hysteresis nonlinearity can be symmetric, asymmetric, rate-independent, or rate-dependent. The proposed identification algorithm is a two-stage algorithm that identifies the hysteresis nonlinearity and the linear system using measurements of the input and output of the Hammerstein system. The first stage of the algorithm uses a delayed impulse signal with simple least squares to identify the linear part of the Hammerstein system. The delayed impulse signal is shown to be persistently exciting of a sufficient order for the considered model structure. The second stage of the algorithm uses a sinusoidal input and the identified linear model obtained from the first stage to construct an estimate of the unknown intermediate signal, which represents the output of the hysteresis nonlinearity. Finally, a model of the hysteresis nonlinearity is obtained using the sinusoidal input and the constructed estimate of the intermediate signal. The identification algorithm is demonstrated on an experimental setup that includes a piezoelectric actuator, which exhibits a hysteresis nonlinearity and badly damped dynamics. [ABSTRACT FROM AUTHOR]

Published
2023
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