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46 results on '"Nengroo, Sarvar Hussain"'

1. Power Management in Smart Residential Building with Deep Learning Model for Occupancy Detection by Usage Pattern of Electric Appliances

Author

Lee, Sangkeum, Nengroo, Sarvar Hussain, Jin, Hojun, Doh, Yoonmee, Lee, Chungho, Heo, Taewook, and Har, Dongsoo

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

With the growth of smart building applications, occupancy information in residential buildings is becoming more and more significant. In the context of the smart buildings' paradigm, this kind of information is required for a wide range of purposes, including enhancing energy efficiency and occupant comfort. In this study, occupancy detection in residential building is implemented using deep learning based on technical information of electric appliances. To this end, a novel approach of occupancy detection for smart residential building system is proposed. The dataset of electric appliances, sensors, light, and HVAC, which is measured by smart metering system and is collected from 50 households, is used for simulations. To classify the occupancy among datasets, the support vector machine and autoencoder algorithm are used. Confusion matrix is utilized for accuracy, precision, recall, and F1 to demonstrate the comparative performance of the proposed method in occupancy detection. The proposed algorithm achieves occupancy detection using technical information of electric appliances by 95.7~98.4%. To validate occupancy detection data, principal component analysis and the t-distributed stochastic neighbor embedding (t-SNE) algorithm are employed. Power consumption with renewable energy system is reduced to 11.1~13.1% in smart buildings by using occupancy detection., Comment: 11 pages, 7 figures, to be submitted to 7th International Conference on Renewable Energy and Conservation, ICREC 2022

Published
2022

2. Reinforcement Learning-Based Cooperative P2P Power Trading between DC Nanogrid Clusters with Wind and PV Energy Resources

Author

Lee, Sangkeum, Nengroo, Sarvar Hussain, Jin, Hojun, Heo, Taewook, Doh, Yoonmee, Lee, Chungho, and Har, Dongsoo

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

In replacing fossil fuels with renewable energy resources for carbon neutrality, the unbalanced resource production of intermittent wind and photovoltaic (PV) power is a critical issue for peer-to-peer (P2P) power trading. To address this issue, a reinforcement learning (RL) technique is introduced in this paper. For RL, a graph convolutional network (GCN) and a bi-directional long short-term memory (Bi-LSTM) network are jointly applied to P2P power trading between nanogrid clusters, based on cooperative game theory. The flexible and reliable DC nanogrid is suitable for integrating renewable energy for a distribution system. Each local nanogrid cluster takes the position of prosumer, focusing on power production and consumption simultaneously. For the power management of nanogrid cluster, multi-objective optimization is applied to each local nanogrid cluster with the Internet of Things (IoT) technology. Charging/discharging of an electric vehicle (EV) is executed considering the intermittent characteristics of wind and PV power production. RL algorithms, such as GCN- convolutional neural network (CNN) layers for deep Q-learning network (DQN), GCN-LSTM layers for deep recurrent Q-learning network (DRQN), GCN-Bi-LSTM layers for DRQN, and GCN-Bi-LSTM layers for proximal policy optimization (PPO), are used for simulations. Consequently, the cooperative P2P power trading system maximizes the profit by considering the time of use (ToU) tariff-based electricity cost and the system marginal price (SMP), and minimizes the amount of grid power consumption. Power management of nanogrid clusters with P2P power trading is simulated on a distribution test feeder in real time, and the proposed GCN-Bi-LSTM-PPO technique achieving the lowest electricity cost among the RL algorithms used for comparison reduces the electricity cost by 36.7%, averaging over nanogrid clusters., Comment: 28 pages, 8 figures, to be submitted to Applied Energy

Published
2022

3. Path Planning of Cleaning Robot with Reinforcement Learning

Author

Moon, Woohyeon, Park, Bumgeun, Nengroo, Sarvar Hussain, Kim, Taeyoung, and Har, Dongsoo

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence, 68T40, 93C85, J.7
Abstract

Recently, as the demand for cleaning robots has steadily increased, therefore household electricity consumption is also increasing. To solve this electricity consumption issue, the problem of efficient path planning for cleaning robot has become important and many studies have been conducted. However, most of them are about moving along a simple path segment, not about the whole path to clean all places. As the emerging deep learning technique, reinforcement learning (RL) has been adopted for cleaning robot. However, the models for RL operate only in a specific cleaning environment, not the various cleaning environment. The problem is that the models have to retrain whenever the cleaning environment changes. To solve this problem, the proximal policy optimization (PPO) algorithm is combined with an efficient path planning that operates in various cleaning environments, using transfer learning (TL), detection nearest cleaned tile, reward shaping, and making elite set methods. The proposed method is validated with an ablation study and comparison with conventional methods such as random and zigzag. The experimental results demonstrate that the proposed method achieves improved training performance and increased convergence speed over the original PPO. And it also demonstrates that this proposed method is better performance than conventional methods (random, zigzag)., Comment: 7 pages with 11 figures

Published
2022

4. Anomaly Detection of Smart Metering System for Power Management with Battery Storage System/Electric Vehicle

Author

Lee, Sangkeum, Nengroo, Sarvar Hussain, Jin, Hojun, Doh, Yoonmee, Lee, Chungho, Heo, Taewook, and Har, Dongsoo

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

A novel smart metering technique capable of anomaly detection was proposed for real-time home power management system. Smart meter data generated in real-time was obtained from 900 households of single apartments. To detect outliers and missing values in smart meter data, a deep learning model, the autoencoder, consisting of a graph convolutional network and bidirectional long short-term memory network, was applied to the smart metering technique. Power management based on the smart metering technique was performed by multi-objective optimization in the presence of a battery storage system and an electric vehicle. The results of the power management employing the proposed smart metering technique indicate a reduction in electricity cost and amount of power supplied by the grid compared to the results of power management without anomaly detection., Comment: Accepted at ETRI Journal

Published
2022

5. Learning Dense Features for Point Cloud Registration Using a Graph Attention Network

Author

Dang, Quoc Vinh Lai, Nengroo, Sarvar Hussain, and Jin, Hojun

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Point cloud registration is a fundamental task in many applications such as localization, mapping, tracking, and reconstruction. Successful registration relies on extracting robust and discriminative geometric features. Though existing learning based methods require high computing capacity for processing a large number of raw points at the same time, computational capacity limitation is not an issue thanks to the powerful parallel computing process using GPU. In this paper, we introduce a framework that efficiently and economically extracts dense features using a graph attention network for point cloud matching and registration (DFGAT). The detector of the DFGAT is responsible for finding highly reliable key points in large raw data sets. The descriptor of the DFGAT takes these keypoints combined with their neighbors to extract invariant density features in preparation for the matching. The graph attention network (GAT) uses the attention mechanism that enriches the relationships between point clouds. Finally, we consider this as an optimal transport problem and use the Sinkhorn algorithm to find positive and negative matches. We perform thorough tests on the KITTI dataset and evaluate the effectiveness of this approach. The results show that this method with the efficiently compact keypoint selection and description can achieve the best performance matching metrics and reach the highest success ratio of 99.88% registration in comparison with other state of the art approaches., Comment: 15 pages, 3 figures

Published
2022
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6. Development of Charging, Discharging Scheduling Algorithm for Economical and Energy Efficient Operation of Multi EV Charging Station

Author

Jin, Hojun, Lee, Sangkeum, Nengroo, Sarvar Hussain, and Har, Dongsoo

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

As the number of electric vehicles (EVs) significantly increases, the excessive charging demand of parked EVs in the charging station may incur an instability problem to the electricity network during peak hours. For the charging station to take a microgrid (MG) structure, an economical and energy-efficient power management scheme is required for the power provision of EVs while considering the local load demand of the MG. For these purposes, this study presents the power management scheme of interdependent MG and EV fleets aided by a novel EV charg-ing/discharging scheduling algorithm. In this algorithm, the maximum amount of discharging power from parked EVs is determined based on the difference between local load demand and photovoltaic (PV) power production to alleviate imbalances occurred between them. For the power management of the MG with charging/discharging scheduling of parked EVs in the PV-based charging station, multi-objective optimization is performed to minimize the operating cost and grid dependency. In addition, the proposed scheme maximizes the utilization of EV charging/discharging while satisfying the charging requirements of parked EVs. Moreover, a more economical and energy-efficient PV-based charging station is established using the future trends of local load demand and PV power production predicted by a gated recurrent unit (GRU) network. With the proposed EV charging/discharging scheduling algorithm, the operating cost of PV-based charging station is decreased by 167.71% and 28.85% compared with the EV charg-ing scheduling algorithm and the conventional EV charging/discharging scheduling algorithm, respectively. It is obvious that the economical and energy-efficient operation of PV-based charging station can be accomplished by applying the power management scheme with the proposed EV charging/discharging scheduling strategy., Comment: 27 pages, 13 figures

Published
2022

7. Optimal Scheduling of Energy Storage for Power System with Capability of Sensing Short-term Future PV Power Production

Author

Nengroo, Sarvar Hussain, Lee, Sangkeum, Jin, Hojun, and Har, Dongsoo

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Constant rise in energy consumption that comes with the population growth and introduction of new technologies has posed critical issues such as efficient energy management on the consumer side. That has elevated the importance of the use of renewable energy sources, particularly photovoltaic (PV) system and wind turbine. This work models and discusses design options based on the hybrid power system of grid and battery storage. The effects of installed capacity on renewable penetration (RP) and cost of electricity (COE) are investigated for each modality. For successful operation of hybrid power system and electricity trading in power market, accurate predictions of PV power production and load demand are taken into account. A machine learning (ML) model is introduced for scheduling, and predicting variations of the PV power production and load demand. Fitness of the ML model shows, when employing a linear regression model, the mean squared error (MSE) of 0.000012, root mean square error (RMSE) of 0.003560 and R2 of 0.999379. Using predicted PV power production and load demand, reduction of electricity cost is 37.5 % when PV and utility grid are utilized, and is 43.06% when PV, utility grid, and storage system are utilized., Comment: 5 pages, 9 figures, Accepted by "2021 11th International Conference on Power and Energy Systems (ICPES 2021)"

Published
2021

8. Smart Metering System Capable of Anomaly Detection by Bi-directional LSTM Autoencoder

Author

Lee, Sangkeum, Jin, Hojun, Nengroo, Sarvar Hussain, Doh, Yoonmee, Lee, Chungho, Heo, Taewook, and Har, Dongsoo

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

Anomaly detection is concerned with a wide range of applications such as fault detection, system monitoring, and event detection. Identifying anomalies from metering data obtained from smart metering system is a critical task to enhance reliability, stability, and efficiency of the power system. This paper presents an anomaly detection process to find outliers observed in the smart metering system. In the proposed approach, bi-directional long short-term memory (BiLSTM) based autoencoder is used and finds the anomalous data point. It calculates the reconstruction error through autoencoder with the non-anomalous data, and the outliers to be classified as anomalies are separated from the non-anomalous data by predefined threshold. Anomaly detection method based on the BiLSTM autoencoder is tested with the metering data corresponding to 4 types of energy sources electricity/water/heating/hot water collected from 985 households., Comment: 6 pages, 6 figures, accepted by "IEEE 40th International Conference on Consumer Electronics"

Published
2021

9. Reinforcement Learning for Navigation of Mobile Robot with LiDAR

Author

Kim, Inhwan, Nengroo, Sarvar Hussain, and Har, Dongsoo

Subjects
Computer Science - Robotics, Electrical Engineering and Systems Science - Systems and Control
Abstract

This paper presents a technique for navigation of mobile robot with Deep Q-Network (DQN) combined with Gated Recurrent Unit (GRU). The DQN integrated with the GRU allows action skipping for improved navigation performance. This technique aims at efficient navigation of mobile robot such as autonomous parking robot. Framework for reinforcement learning can be applied to the DQN combined with the GRU in a real environment, which can be modeled by the Partially Observable Markov Decision Process (POMDP). By allowing action skipping, the ability of the DQN combined with the GRU in learning key-action can be improved. The proposed algorithm is applied to explore the feasibility of solution in real environment by the ROS-Gazebo simulator, and the simulation results show that the proposed algorithm achieves improved performance in navigation and collision avoidance as compared to the results obtained by DQN alone and DQN combined with GRU without allowing action skipping., Comment: 7 pages, 7 figures, Accepted by "5th International Conference on Electronics, Communication and Aerospace Technology (ICECA 2021)"

Published
2021

11. Power Management of Microgrid Integrated with Electric Vehicles in Residential Parking Station

Author

Jin, Hojun, Nengroo, Sarvar Hussain, Lee, Sangkeum, and Har, Dongsoo

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Lately, increasing number of electric vehicles (EVs) in residential parking station has become an important issue, because excessive number of EVs can destabilize the power system during peak hours with high charging power requested. When the power system of the residential parking station takes the structure of microgrid (MG), power provision for the EVs requires efficient power management scheme. To minimize the maintenance cost of the MG and maintain the grid stability, the MG needs to balance the charging/discharging power of EVs in the parking station. To achieve these goals, this paper proposes a charging/discharging algorithm suitable for the power management of the MG configured with EVs. Multi-objective optimization is taken to MG to minimize the maintenance cost and the grid dependency while maximizing the use of photovoltaic (PV) power and the utilization of EVs as energy storage systems (ESSs). In our approach, to increase the usefulness of discharging power of EVs, the base load and the PV power production are considered together for power management to mitigate imbalances incurred between them. As a result, proposed approach demonstrates superior power management performance as compared to other comparable ones., Comment: 6 pages, 7 figures, accepted by "10th International Conference on Renewable Energy Research and Applications (IEEE-ICRERA 2021)"

Published
2021

13. Off-Policy Reinforcement Learning with Loss Function Weighted by Temporal Difference Error

Author

Park, Bumgeun, Kim, Taeyoung, Moon, Woohyeon, Nengroo, Sarvar Hussain, Har, Dongsoo, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Huang, De-Shuang, editor, Premaratne, Prashan, editor, Jin, Baohua, editor, Qu, Boyang, editor, Jo, Kang-Hyun, editor, and Hussain, Abir, editor

Published
2023
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15. Comparative Analysis Using Multiple Regression Models for Forecasting Photovoltaic Power Generation

Author

Abdullah, Burhan U.Din, Khanday, Shahbaz Ahmad, Islam, Nair Ul, Lata, Suman, Fatima, Hoor, Nengroo, Sarvar Hussain, Abdullah, Burhan U.Din, Khanday, Shahbaz Ahmad, Islam, Nair Ul, Lata, Suman, Fatima, Hoor, and Nengroo, Sarvar Hussain

Abstract

Effective machine learning regression models are useful toolsets for managing and planning energy in PV grid-connected systems. Machine learning regression models, however, have been crucial in the analysis, forecasting, and prediction of numerous parameters that support the efficient management of the production and distribution of green energy. This article proposes multiple regression models for power prediction using the Sharda University PV dataset (2022 Edition). The proposed regression model is inspired by a unique data pre-processing technique for forecasting PV power generation. Performance metrics, namely mean absolute error (MAE), mean squared error (MSE), root mean squared error (RMSE), R2-score, and predicted vs. actual value plots, have been used to compare the performance of the different regression. Simulation results show that the multilayer perceptron regressor outperforms the other algorithms, with an RMSE of 17.870 and an R2 score of 0.9377. Feature importance analysis has been performed to determine the most significant features that influence PV power generation.

Published
2024

16. Comparative Analysis Using Multiple Regression Models for Forecasting Photovoltaic Power Generation.

Author

Abdullah, Burhan U Din, Khanday, Shahbaz Ahmad, Islam, Nair Ul, Lata, Suman, Fatima, Hoor, and Nengroo, Sarvar Hussain

Subjects
PHOTOVOLTAIC power generation, MULTIPLE regression analysis, REGRESSION analysis, MACHINE learning, STANDARD deviations, FORECASTING
Abstract

Effective machine learning regression models are useful toolsets for managing and planning energy in PV grid-connected systems. Machine learning regression models, however, have been crucial in the analysis, forecasting, and prediction of numerous parameters that support the efficient management of the production and distribution of green energy. This article proposes multiple regression models for power prediction using the Sharda University PV dataset (2022 Edition). The proposed regression model is inspired by a unique data pre-processing technique for forecasting PV power generation. Performance metrics, namely mean absolute error (MAE), mean squared error (MSE), root mean squared error (RMSE), R2-score, and predicted vs. actual value plots, have been used to compare the performance of the different regression. Simulation results show that the multilayer perceptron regressor outperforms the other algorithms, with an RMSE of 17.870 and an R2 score of 0.9377. Feature importance analysis has been performed to determine the most significant features that influence PV power generation. [ABSTRACT FROM AUTHOR]

Published
2024
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18. A Secure Chaos-Based Lightweight Cryptosystem for the Internet of Things

Author

Youssef, Wajih El Hadj, Abdelli, Ali, Kharroubi, Fehmi, Dridi, Fethi, Khriji, Lazhar, Ahshan, Razzaqul, Machhout, Mohsen, Nengroo, Sarvar Hussain, Lee, Sangkeum, Youssef, Wajih El Hadj, Abdelli, Ali, Kharroubi, Fehmi, Dridi, Fethi, Khriji, Lazhar, Ahshan, Razzaqul, Machhout, Mohsen, Nengroo, Sarvar Hussain, and Lee, Sangkeum

Abstract

This paper introduces a novel approach to addressing the security challenges of the Internet of Things (IoT) by presenting a secure Chaos-based lightweight cryptosystem. The proposed design incorporates a Pseudo-Chaotic Numbers Generator combined with the Speck64/128 lightweight block cipher, to meet the stringent requirements of security and lightweight characteristics. First, we subject the cryptosystem to a battery of rigorous tests, including various cryptanalytics such as brute-force, differential attacks, and statistical attacks. The results of these tests clearly demonstrate the cryptosystem's exceptional security resilience and its capacity to effectively withstand these attacks. Then, the novel cryptosystem architecture, specifically designed for resource-limited applications like IoT, was implemented on a Xilinx PYNQ-Z2 XC7Z020 FPGA platform, which aligns perfectly with the constraints of IoT devices. The investigation comprises a thorough analysis and evaluation of the developed cryptosystem according to the algorithm complexity and the achieved precision, hardware area, maximum operational frequency, throughput, efficiency, and power consumption. The findings prove the effectiveness of our approach in terms of computational complexity, memory requirements, and power consumption. Eventually, after reviewing and comparing our results to the existing literature, our cryptosystem's superiority becomes evident. The simulation results and performance analysis show that the proposed Chaos-Based Lightweight Cryptosystem (SCBLC) can be considered an ideal choice for securing communication in IoT devices with limited resources, making significant strides toward enhancing IoT network security.

Published
2023

19. Invariant Set-Based DC Microgrid Decentralized Actuator Fault-Tolerant Control

Author

Suliman, Hisham H., Bayoumi, Ehab H.E., El-Sheikhi, Farag Ali, Ahshan, Razzaqul, Nengroo, Sarvar Hussain, Lee, Sangkeum, Suliman, Hisham H., Bayoumi, Ehab H.E., El-Sheikhi, Farag Ali, Ahshan, Razzaqul, Nengroo, Sarvar Hussain, and Lee, Sangkeum

Abstract

Faults and system failure components are primarily two causes of unstable or deteriorating control performance of power system. In this study, we present a novel approach to the decentralized restoration of large DC microgrids using fault-tolerant control (FTC). The microgrid achieves decentralization by partitioning into several smaller grids. Each independent grid views the actions of the other grids as an external disturbance. The malfunction of the controller is represented in the input matrix as a norm-bounded uncertainty. The disturbance impact is diminished due to the proposed invariant-set approach. The proposed control can address simultaneous failures in actuators with random placement and degradation levels. In a passive FTC system, when the defect cannot be detected (or the fault may not have been clearly addressed), the proposed technique is utilized. After the fault has occurred, it can be viewed as an uncertainty in system dynamics. The controller that stabilizes the system is obtained by solving iteratively bilinear matrix inequalities as linear matrix inequalities. In addition, this study presents and discusses positive outcomes of applying this method to a system of six interconnected DC microgrids in the event of multiple fault types. The proposed control successfully stabilizes the severe case of simultaneous actuator faults.

Published
2023

28. Anomaly detection of smart metering system for power management with battery storage system/electric vehicle.

Author

Lee, Sangkeum, Nengroo, Sarvar Hussain, Jin, Hojun, Doh, Yoonmee, Lee, Chungho, Heo, Taewook, and Har, Dongsoo

Subjects
SMART meters, BATTERY management systems, POWER resources, DEEP learning
Abstract

A novel smart metering technique capable of anomaly detection was proposed for real‐time home power management system. Smart meter data generated in real‐time were obtained from 900 households of single apartments. To detect outliers and missing values in smart meter data, a deep learning model, the autoencoder, consisting of a graph convolutional network and bidirectional long short‐term memory network, was applied to the smart metering technique. Power management based on the smart metering technique was executed by multi‐objective optimization in the presence of a battery storage system and an electric vehicle. The results of the power management employing the proposed smart metering technique indicate a reduction in electricity cost and amount of power supplied by the grid compared to the results of power management without anomaly detection. [ABSTRACT FROM AUTHOR]

Published
2023
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34. Smart Metering System Capable of Anomaly Detection by Bi-directional LSTM Autoencoder

Author

Lee, Sangkeum, Jin, Hojun, Nengroo, Sarvar Hussain, Doh, Yoonmee, Lee, Chungho, Heo, Taewook, and Har, Dongsoo

Subjects
FOS: Computer and information sciences, Computer Science - Machine Learning, FOS: Electrical engineering, electronic engineering, information engineering, Systems and Control (eess.SY), Electrical Engineering and Systems Science - Systems and Control, Machine Learning (cs.LG)
Abstract

Anomaly detection is concerned with a wide range of applications such as fault detection, system monitoring, and event detection. Identifying anomalies from metering data obtained from smart metering system is a critical task to enhance reliability, stability, and efficiency of the power system. This paper presents an anomaly detection process to find outliers observed in the smart metering system. In the proposed approach, bi-directional long short-term memory (BiLSTM) based autoencoder is used and finds the anomalous data point. It calculates the reconstruction error through autoencoder with the non-anomalous data, and the outliers to be classified as anomalies are separated from the non-anomalous data by predefined threshold. Anomaly detection method based on the BiLSTM autoencoder is tested with the metering data corresponding to 4 types of energy sources electricity/water/heating/hot water collected from 985 households., 6 pages, 6 figures, accepted by "IEEE 40th International Conference on Consumer Electronics"

Published
2022

38. Multi-Objective Hybrid Optimization for Optimal Sizing of a Hybrid Renewable Power System for Home Applications.

Author

Hossain, Md. Arif, Ahmed, Ashik, Tito, Shafiqur Rahman, Ahshan, Razzaqul, Sakib, Taiyeb Hasan, and Nengroo, Sarvar Hussain

Subjects
HYBRID power systems, BATTERY storage plants, DIESEL electric power-plants, RENEWABLE energy sources, PARTICLE swarm optimization, HYBRID systems, POWER resources
Abstract

An optimal energy mix of various renewable energy sources and storage devices is critical for a profitable and reliable hybrid microgrid system. This work proposes a hybrid optimization method to assess the optimal energy mix of wind, photovoltaic, and battery for a hybrid system development. This study considers the hybridization of a Non-dominant Sorting Genetic Algorithm II (NSGA II) and the Grey Wolf Optimizer (GWO). The objective function was formulated to simultaneously minimize the total energy cost and loss of power supply probability. A comparative study among the proposed hybrid optimization method, Non-dominant Sorting Genetic Algorithm II, and multi-objective Particle Swarm Optimization (PSO) was performed to examine the efficiency of the proposed optimization method. The analysis shows that the applied hybrid optimization method performs better than other multi-objective optimization algorithms alone in terms of convergence speed, reaching global minima, lower mean (for minimization objective), and a higher standard deviation. The analysis also reveals that by relaxing the loss of power supply probability from 0% to 4.7%, an additional cost reduction of approximately 12.12% can be achieved. The proposed method can provide improved flexibility to the stakeholders to select the optimum combination of generation mix from the offered solutions. [ABSTRACT FROM AUTHOR]

Published
2023
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44. Online Remaining Useful Life Prediction for Lithium-Ion Batteries Using Partial Discharge Data Features.

Author

Ali, Muhammad Umair, Zafar, Amad, Nengroo, Sarvar Hussain, Hussain, Sadam, Park, Gwan-Soo, and Kim, Hee-Je

Subjects
PARTIAL discharges, LITHIUM-ion batteries, BATTERY management systems, SUPPORT vector machines, MODEL railroads, ELECTRIC vehicle batteries
Abstract

Online accurate estimation of remaining useful life (RUL) of lithium-ion batteries is a necessary feature of any smart battery management system (BMS). In this paper, a novel partial discharge data (PDD)-based support vector machine (SVM) model is proposed for RUL prediction. The proposed algorithm extracts the critical features from the voltage and temperature of PDD to train the SVM models. The classification and regression attributes of SVM are utilized to classify and predict accurate RUL. The different ranges of PDD were analyzed to find the optimal range for training the SVM model. The SVM model trained with optimal PDD features classifies the RUL into six different classes for gross estimation, and the support vector regression is used to estimate the accurate value of the last class. The classification and predictive performance of SVM model trained using the full discharge data and PDD are compared for publicly available data. Results show that the SVM classification and regression model trained with PDD features can accurately predict the RUL with low storage pressure on BMS. The PDD-based SVM model can be utilized for online RUL estimation in electric vehicles. [ABSTRACT FROM AUTHOR]

Published
2019
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45. An Online Data-Driven Model Identification and Adaptive State of Charge Estimation Approach for Lithium-ion-Batteries Using the Lagrange Multiplier Method.

Author

Ali, Muhammad Umair, Kamran, Muhammad Ahmad, Kumar, Pandiyan Sathish, Himanshu, Nengroo, Sarvar Hussain, Khan, Muhammad Adil, Hussain, Altaf, and Kim, Hee-Je

Subjects
LITHIUM-ion batteries, LAGRANGE multiplier, ELECTRIC vehicle batteries, OPEN-circuit voltage, ROBUST control
Abstract

Reliable and accurate state of charge (SOC) monitoring is the most crucial part in the design of an electric vehicle (EV) battery management system (BMS). The lithium ion battery (LIB) is a highly complex electrochemical system, which performance changes with age. Therefore, measuring the SOC of a battery is a very complex and tedious process. This paper presents an online data-driven battery model identification method, where the battery parameters are updated using the Lagrange multiplier method. A battery model with unknown battery parameters was formulated in such a way that the terminal voltage at an instant time step is a linear combination of the voltages and load current. A cost function was defined to determine the optimal values of the unknown parameters with different data points measured experimentally. The constraints were added in the modified cost function using Lagrange multiplier method and the optimal value of update vector was determined using the gradient approach. An adaptive open circuit voltage (OCV) and SOC estimator was designed for the LIB. The experimental results showed that the proposed estimator is quite accurate and robust. The proposed method effectively tracks the time-varying parameters of a battery with high accuracy. During the SOC estimation, the maximum noted error was 1.28%. The convergence speed of the proposed method was only 81 s with a deliberate 100% initial error. Owing to the high accuracy and robustness, the proposed method can be used in the design of a BMS for real time applications. [ABSTRACT FROM AUTHOR]

Published
2018
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46. Dual Battery Storage System: An Optimized Strategy for the Utilization of Renewable Photovoltaic Energy in the United Kingdom.

Author

Nengroo, Sarvar Hussain, Ali, Muhammad Umair, Kim, Do-Hyun, Kim, Min-Soo, Hussain, Altaf, Kim, Hee Jee, and Kamran, Muhammad Ahmad

Subjects
PHOTOVOLTAIC power systems, BATTERY storage plants, RENEWABLE energy industry, ENERGY shortages, ENERGY consumption
Abstract

The increasing world human population has given rise to the current energy crisis and impending global warming. To meet the international environmental obligations, alternative technological advances have been made to harvest clean and renewable energy. The solar photovoltaics (PV) system is a relatively new concept of clean technology that can be employed as an autonomous power source for a range of off-grid applications. In this study, the dual battery storage system is coupled with a solar PV system and a low voltage grid, benefitting from the feed-in tariff (FIT) policy. The main outcomes of this study are: (I) A novel dual battery storage system for the optimal use of the PV system/energy is proposed; (II) The problem is formulated in the form of a mathematical model, and a cost function is devised for effective cost calculation; (III) An optimal cost analysis is presented for the effective use of PV energy; (IV) real-time data of a solar PV taken from the owner and the demand profile collected from the user is applied to the proposed approach, with United Kingdom (UK) tariff incentives. This system works in a loop by charging one system from the solar PV for one day, and discharging the other system. This model gives certainty that power is exported to the grid when the solar PV generates an excess amount; batteries are utilized during the peak hours, and power is purchased when the demand is not met by the batteries, or when the demand is higher than the generation. This study examined the economic knowledge of solar PV and battery storage systems by considering the FIT incentives. [ABSTRACT FROM AUTHOR]

Published
2018
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