A Hybrid Quantum Inspired Particle Swarm Optimization and Least Square Framework for Real-time Harmonic Estimation

Waqas, Abu Bakar; Ashraf, ⋅Muhammad Mansoor; Saifullah, Yasir

doi:10.35833/mpce.2019.000098

Cited by 10 publications

(2 citation statements)

References 24 publications

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“…A novel hybrid Quantum particle swarm optimization and Least-square (QPSO-LS) method for the real-time estimation of harmonics in noisy time-varying power data in proposed in [90]. This method features strong, reliable, and robust search capabilities as well as effective convergence properties.…”

Section: B Artificial Intelligence-based Harmonic Estimation Techniquesmentioning

confidence: 99%

A Comprehensive Review of Harmonic Issues and Estimation Techniques in Power System Networks Based on Traditional and Artificial Intelligence/Machine Learning

et al. 2023

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Modern industrial and commercial devices that are fed by power electronics circuits and behave non-linearly tend to produce power quality issues in power systems including harmonics and interharmonics, swell, flicker, spikes, notches, and transient instabilities. Among them, harmonic emission is the most significant challenge to be overcome by the distribution networks. Unwanted current, overheating motors and transformers, equipment failure, and circuit breaker misoperation are some of the harmonic consequences. While it is important to employ the best methods to mitigate or suppress the harmonic distortions in power systems, it is even more essential to estimate these harmonics at the outset by developing smart, efficient, and accurate techniques. Due to their capability for learning, predicting, and identifying, researchers have turned to Artificial Intelligence technologies for harmonic estimation in distribution networks. Although the power system parameters (impedance/admittance model) and many harmonic monitors are prerequisites for traditional harmonic estimation methods, by utilizing Artificial Intelligence, these requirements are minimized. In this paper, a comprehensive review of traditional and modern (smart) harmonic estimation techniques are discussed.

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Section: B Artificial Intelligence-based Harmonic Estimation Techniquesmentioning

confidence: 99%

A Comprehensive Review of Harmonic Issues and Estimation Techniques in Power System Networks Based on Traditional and Artificial Intelligence/Machine Learning

et al. 2023

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“…Ashraf et al proposed [21] a hybrid technique comprises of water cycle algorithm (WCA) and least square (LS) method [1] to correctly estimate the power harmonics of real-time voltage waveform obtained from axial flux permanent magnet synchronous generator (AFPMSG). Waqas et al utilized the quantum computation-inspired particle swarm optimization (PSO) algorithm along with the least square hybrid approach for real-time estimation of harmonics present in time-varying and noisy power signals [22]. In [23], authors proposed a hybrid technique based on PSO and GA along with the famous statistical technique, Kalman Filter (KF), for harmonic estimation of dynamic and time varying signals.…”

Section: Introductionmentioning

confidence: 99%

Hybrid Weighted Least Square Multi-Verse Optimizer (WLS–MVO) Framework for Real-Time Estimation of Harmonics in Non-Linear Loads

et al. 2023

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The electric power quality has become a serious concern for electric utilities and end users owing to its undesirable effects on system capabilities and performance. Harmonic levels on power systems have been pronounced to a greater extent with the continuous growth in the application of solid-state and reactive power compensatory devices. Harmonics are the key constituents that are mainly responsible for power quality deterioration. Power system harmonics need to be correctly estimated and filtered to increase power quality. This research work focuses on accurate estimation of power system harmonics with the proposed hybrid weighted least-square multi-verse optimizer (WLS–MVO) based framework. Multi-verse optimizer replicates the phenomenon of the formation of new universes as described by multi-verse theory to solve complex real-world optimization problems. The proposed WLS–MVO framework is tested and validated by estimating the harmonics present in multiple test signals with different noise levels. Amplitudes and phases of harmonics present in the polluted signal were estimated, and the framework computational time was compared with the previously developed technique’s results which are reported in the literature. There was 80% reduction in computational time and 82% improvement in terms of accuracy in estimating harmonics using WLS–MVO as compared to previously developed techniques. The performance of the developed framework is further validated by estimating the harmonics present in the real-time voltage and current waveforms obtained from axial flux permanent magnet generator (AFPMSG), uninterruptible power supply (UPS), and light-emitting diode (LED). The purposed technique technique outperforms the already-developed techniques, in terms of accuracy and computational time.

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Hybrid Snake Optimizer Algorithm for Solving Economic Load Dispatch Problem with Valve Point Effect

Alawad,

Abed-alguni,

El-ibini

2024

J Supercomput

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A Hybrid Quantum Inspired Particle Swarm Optimization and Least Square Framework for Real-time Harmonic Estimation

Cited by 10 publications

References 24 publications

A Comprehensive Review of Harmonic Issues and Estimation Techniques in Power System Networks Based on Traditional and Artificial Intelligence/Machine Learning

A Comprehensive Review of Harmonic Issues and Estimation Techniques in Power System Networks Based on Traditional and Artificial Intelligence/Machine Learning

Hybrid Weighted Least Square Multi-Verse Optimizer (WLS–MVO) Framework for Real-Time Estimation of Harmonics in Non-Linear Loads

Hybrid Snake Optimizer Algorithm for Solving Economic Load Dispatch Problem with Valve Point Effect

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