An elite approach to re-design Aquila optimizer for efficient AFR system control

Izci, Davut; Ekinci, Serdar; Hussien, Abdelazim G.

doi:10.1371/journal.pone.0291788

Cited by 4 publications

(3 citation statements)

References 57 publications

(91 reference statements)

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“…In the future, Authors can use many optimization algorithms and embedded them in the network for better accuracy. These algorithms can be any algorithm such as Snake Optimizer (SO) 45 , Fick’s Law Algorithm (FLA) 46 , Jellyfish Search (JS) 47 , Dandelion Optimizer (DO) 48 , Aquila Optimizer 49 – 51 , Atom Search Optimization (ASO) 52 , Water Cycle Algorithm (WCA) 53 , Bald Eagle Search (BES) 54 , African Vultures Optimization Algorithm (AVOA) 55 , Archimedes Optimization Algorithm (AOA) 56 , Beluga Whale Optimization (BWO) 57 , Hunter Prey Optimization (HPO) 58 , INFO 59 , Supply Demand Optimizer 60 , 61 , Reptile Search Algorithm (RSA) 62 , Golden Jackle Optimization (GJO) 63 , and more.…”

Section: Discussionmentioning

confidence: 99%

A CNN-based model to count the leaves of rosette plants (LC-Net)

Deb,

Dhal,

Das

et al. 2024

Sci Rep

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Plant image analysis is a significant tool for plant phenotyping. Image analysis has been used to assess plant trails, forecast plant growth, and offer geographical information about images. The area segmentation and counting of the leaf is a major component of plant phenotyping, which can be used to measure the growth of the plant. Therefore, this paper developed a convolutional neural network-based leaf counting model called LC-Net. The original plant image and segmented leaf parts are fed as input because the segmented leaf part provides additional information to the proposed LC-Net. The well-known SegNet model has been utilised to obtain segmented leaf parts because it outperforms four other popular Convolutional Neural Network (CNN) models, namely DeepLab V3+, Fast FCN with Pyramid Scene Parsing (PSP), U-Net, and Refine Net. The proposed LC-Net is compared to the other recent CNN-based leaf counting models over the combined Computer Vision Problems in Plant Phenotyping (CVPPP) and KOMATSUNA datasets. The subjective and numerical evaluations of the experimental results demonstrate the superiority of the LC-Net to other tested models.

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Section: Discussionmentioning

confidence: 99%

A CNN-based model to count the leaves of rosette plants (LC-Net)

Deb,

Dhal,

Das

et al. 2024

Sci Rep

Self Cite

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“…In this study, the following W (Zwe-Lee Gaing’s objective function) objective function [ 65 ] has been employed for minimization as it can effectively minimize the dynamic response performance criteria (percentage maximum overshoot, steady-state error, settling time and rise time) of the system [ 70 ]. In here, M os is the percent overshoot, T set is the settling time, T rise is the rise time, E ss is the steady state error and ψ is a weighting coefficient.…”

Section: New Methodology For Transient Stability Enhancementmentioning

confidence: 99%

“…In this study, the following W (Zwe-Lee Gaing's objective function) objective function [65] has been employed for minimization as it can effectively minimize the dynamic response performance criteria (percentage maximum overshoot, steady-state error, settling time and rise time) of the system [70].…”

Section: Objective Function and Constraints Of Optimization Problemmentioning

confidence: 99%

Optimizing AVR system performance via a novel cascaded RPIDD2-FOPI controller and QWGBO approach

Ekinci,

Snášel,

Rizk-Allah

et al. 2024

PLoS ONE

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Maintaining stable voltage levels is essential for power systems’ efficiency and reliability. Voltage fluctuations during load changes can lead to equipment damage and costly disruptions. Automatic voltage regulators (AVRs) are traditionally used to address this issue, regulating generator terminal voltage. Despite progress in control methodologies, challenges persist, including robustness and response time limitations. Therefore, this study introduces a novel approach to AVR control, aiming to enhance robustness and efficiency. A custom optimizer, the quadratic wavelet-enhanced gradient-based optimization (QWGBO) algorithm, is developed. QWGBO refines the gradient-based optimization (GBO) by introducing exploration and exploitation improvements. The algorithm integrates quadratic interpolation mutation and wavelet mutation strategy to enhance search efficiency. Extensive tests using benchmark functions demonstrate the QWGBO’s effectiveness in optimization. Comparative assessments against existing optimization algorithms and recent techniques confirm QWGBO’s superior performance. In AVR control, QWGBO is coupled with a cascaded real proportional-integral-derivative with second order derivative (RPIDD2) and fractional-order proportional-integral (FOPI) controller, aiming for precision, stability, and quick response. The algorithm’s performance is verified through rigorous simulations, emphasizing its effectiveness in optimizing complex engineering problems. Comparative analyses highlight QWGBO’s superiority over existing algorithms, positioning it as a promising solution for optimizing power system control and contributing to the advancement of robust and efficient power systems.

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An enhanced dynamic differential annealed algorithm for global optimization and feature selection

Hussien,

Kumar,

Singh

et al. 2023

Journal of Computational Design and Engineering

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Dynamic Differential Annealed Optimization (DDAO) is a recently developed physics-based metaheuristic technique that mimics the classical simulated annealing mechanism. However, DDAO has limited search abilities, especially when solving complicated & complex problems. A unique variation of DDAO, dubbed as mDDAO, is developed in this study, in which Opposition-based Learning technique and a novel updating equation are combined with DDAO. mDDAO is tested on ten different functions from CEC2020 and compared with the original DDAO and 9 other algorithms. The proposed mDDAO algorithm performance is evaluated using ten numerical constrained functions from the recently released CEC 2020 benchmark suite, which includes a variety of dimensionally challenging optimisation tasks. Furthermore, to measure its viability, mDDAO is employed to solve feature selection problems using fourteen UCI datasets and a real-life Lymphoma diagnosis problem. Results prove that mDDAO has a superior performance and consistently outperforms counterparts across benchmarks, achieving fitness improvements ranging from 1% to 99.99%. In feature selection, mDDAO excels by reducing feature count by 23% to 79% compared to other methods, enhancing computational efficiency and maintaining classification accuracy. Moreover, in lymphoma diagnosis, mDDAO demonstrates up to 54% higher average fitness, 18% accuracy improvement, and 86% faster computation times.

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An elite approach to re-design Aquila optimizer for efficient AFR system control

Cited by 4 publications

References 57 publications

A CNN-based model to count the leaves of rosette plants (LC-Net)

A CNN-based model to count the leaves of rosette plants (LC-Net)

Optimizing AVR system performance via a novel cascaded RPIDD2-FOPI controller and QWGBO approach

An enhanced dynamic differential annealed algorithm for global optimization and feature selection

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