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Optimal Integration of Active and Reactive Power DGs in Distribution Network via a Novel Multi-Objective Intelligent Technique

This work introduces a novel approach called the Multi-Objective Integrated Immune Moth Flame Evolutionary Programming (MO-IIMFEP) algorithm. This algorithm aims to determine the optimal sizes and positions for Type III distributed generators (DGs) that generate both active and reactive power. The o...

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Main Authors: Abdullah A., Musirin I., Othman M.M., Rahim S.R.A., Shaaya S.A., Senthil Kumar A.V.
Other Authors: 57197864035
Format: Conference paper
Published: Institute of Electrical and Electronics Engineers Inc. 2025
Subjects:
Computer programming
Cost reduction
Distributed power generation
Evolutionary algorithms
Fuzzy logic
Operating costs
Reactive power
Active and Reactive Power
Cumulative voltage deviation
Distributed generators
Distribution systems
Multi objective
Multi-objectives optimization
Powerloss
Total power
Total power loss
Voltage deviations
Multiobjective optimization
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spelling my.uniten.dspace-371762025-03-03T15:48:17Z Optimal Integration of Active and Reactive Power DGs in Distribution Network via a Novel Multi-Objective Intelligent Technique Abdullah A. Musirin I. Othman M.M. Rahim S.R.A. Shaaya S.A. Senthil Kumar A.V. 57197864035 8620004100 35944613200 11639107900 16022846200 56888921600 Computer programming Cost reduction Distributed power generation Evolutionary algorithms Fuzzy logic Operating costs Reactive power Active and Reactive Power Cumulative voltage deviation Distributed generators Distribution systems Multi objective Multi-objectives optimization Powerloss Total power Total power loss Voltage deviations Multiobjective optimization This work introduces a novel approach called the Multi-Objective Integrated Immune Moth Flame Evolutionary Programming (MO-IIMFEP) algorithm. This algorithm aims to determine the optimal sizes and positions for Type III distributed generators (DGs) that generate both active and reactive power. The objectives involve reducing overall losses in the distribution system while adhering to voltage restrictions and taking into account the cost limitations connected with the installation of DG. MO-IIMFEP overcomes the constraints of traditional Evolutionary Programming (EP) and Moth Flame Optimization (MFO), particularly in effectively handling local optima. Fuzzy logic is employed in MO-IIMFEP to determine the best solution to compromise conflicting goals, as obtained from the non-dominated Pareto solutions. The efficacy of MOIIMFEP in identifying optimal solutions for multi-objective problems is demonstrated through comprehensive assessments conducted on the 118-Bus Radial Distribution Systems (RDS), comparing it against MO-EP and MO-MFO. The results underscore the strategic benefits of DG installation in sustaining voltage levels, reducing power losses, and minimizing total operating costs for power suppliers. ? 2024 IEEE. Final 2025-03-03T07:48:17Z 2025-03-03T07:48:17Z 2024 Conference paper 10.1109/ICPEA60617.2024.10498595 2-s2.0-85191739695 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85191739695&doi=10.1109%2fICPEA60617.2024.10498595&partnerID=40&md5=7f1239ee241ed192b3d0f6d17a874cf8 https://irepository.uniten.edu.my/handle/123456789/37176 157 162 Institute of Electrical and Electronics Engineers Inc. Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Computer programming
Cost reduction
Distributed power generation
Evolutionary algorithms
Fuzzy logic
Operating costs
Reactive power
Active and Reactive Power
Cumulative voltage deviation
Distributed generators
Distribution systems
Multi objective
Multi-objectives optimization
Powerloss
Total power
Total power loss
Voltage deviations
Multiobjective optimization
spellingShingle Computer programming
Cost reduction
Distributed power generation
Evolutionary algorithms
Fuzzy logic
Operating costs
Reactive power
Active and Reactive Power
Cumulative voltage deviation
Distributed generators
Distribution systems
Multi objective
Multi-objectives optimization
Powerloss
Total power
Total power loss
Voltage deviations
Multiobjective optimization
Abdullah A.
Musirin I.
Othman M.M.
Rahim S.R.A.
Shaaya S.A.
Senthil Kumar A.V.
Optimal Integration of Active and Reactive Power DGs in Distribution Network via a Novel Multi-Objective Intelligent Technique
description This work introduces a novel approach called the Multi-Objective Integrated Immune Moth Flame Evolutionary Programming (MO-IIMFEP) algorithm. This algorithm aims to determine the optimal sizes and positions for Type III distributed generators (DGs) that generate both active and reactive power. The objectives involve reducing overall losses in the distribution system while adhering to voltage restrictions and taking into account the cost limitations connected with the installation of DG. MO-IIMFEP overcomes the constraints of traditional Evolutionary Programming (EP) and Moth Flame Optimization (MFO), particularly in effectively handling local optima. Fuzzy logic is employed in MO-IIMFEP to determine the best solution to compromise conflicting goals, as obtained from the non-dominated Pareto solutions. The efficacy of MOIIMFEP in identifying optimal solutions for multi-objective problems is demonstrated through comprehensive assessments conducted on the 118-Bus Radial Distribution Systems (RDS), comparing it against MO-EP and MO-MFO. The results underscore the strategic benefits of DG installation in sustaining voltage levels, reducing power losses, and minimizing total operating costs for power suppliers. ? 2024 IEEE.
author2 57197864035
author_facet 57197864035
Abdullah A.
Musirin I.
Othman M.M.
Rahim S.R.A.
Shaaya S.A.
Senthil Kumar A.V.
format Conference paper
author Abdullah A.
Musirin I.
Othman M.M.
Rahim S.R.A.
Shaaya S.A.
Senthil Kumar A.V.
author_sort Abdullah A.
title Optimal Integration of Active and Reactive Power DGs in Distribution Network via a Novel Multi-Objective Intelligent Technique
title_short Optimal Integration of Active and Reactive Power DGs in Distribution Network via a Novel Multi-Objective Intelligent Technique
title_full Optimal Integration of Active and Reactive Power DGs in Distribution Network via a Novel Multi-Objective Intelligent Technique
title_fullStr Optimal Integration of Active and Reactive Power DGs in Distribution Network via a Novel Multi-Objective Intelligent Technique
title_full_unstemmed Optimal Integration of Active and Reactive Power DGs in Distribution Network via a Novel Multi-Objective Intelligent Technique
title_sort optimal integration of active and reactive power dgs in distribution network via a novel multi-objective intelligent technique
publisher Institute of Electrical and Electronics Engineers Inc.
publishDate 2025
_version_ 1825816296311226368
score 13.244109

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