Enhanced Harris's Hawk algorithm for continuous multi-objective optimization problems

Multi-objective swarm intelligence-based (MOSI-based) metaheuristics were proposed to solve multi-objective optimization problems (MOPs) with conflicting objectives. Harris’s hawk multi-objective optimizer (HHMO) algorithm is a MOSIbased algorithm that was developed based on the reference point appr...

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Main Author: Yasear, Shaymah Akram
Format: Thesis
Language:English
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Published: 2020
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Institution: Universiti Utara Malaysia
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spelling my.uum.etd.86732021-09-27T06:50:45Z https://etd.uum.edu.my/8673/ Enhanced Harris's Hawk algorithm for continuous multi-objective optimization problems Yasear, Shaymah Akram QA Mathematics Multi-objective swarm intelligence-based (MOSI-based) metaheuristics were proposed to solve multi-objective optimization problems (MOPs) with conflicting objectives. Harris’s hawk multi-objective optimizer (HHMO) algorithm is a MOSIbased algorithm that was developed based on the reference point approach. The reference point is determined by the decision maker to guide the search process to a particular region in the true Pareto front. However, HHMO algorithm produces a poor approximation to the Pareto front because lack of information sharing in its population update strategy, equal division of convergence parameter and randomly generated initial population. A two-step enhanced non-dominated sorting HHMO (2SENDSHHMO) algorithm has been proposed to solve this problem. The algorithm includes (i) a population update strategy which improves the movement of hawks in the search space, (ii) a parameter adjusting strategy to control the transition between exploration and exploitation, and (iii) a population generating method in producing the initial candidate solutions. The population update strategy calculates a new position of hawks based on the flush-and-ambush technique of Harris’s hawks, and selects the best hawks based on the non-dominated sorting approach. The adjustment strategy enables the parameter to adaptively changed based on the state of the search space. The initial population is produced by generating quasi-random numbers using Rsequence followed by adapting the partial opposition-based learning concept to improve the diversity of the worst half in the population of hawks. The performance of the 2S-ENDSHHMO has been evaluated using 12 MOPs and three engineering MOPs. The obtained results were compared with the results of eight state-of-the-art multi-objective optimization algorithms. The 2S-ENDSHHMO algorithm was able to generate non-dominated solutions with greater convergence and diversity in solving most MOPs and showed a great ability in jumping out of local optima. This indicates the capability of the algorithm in exploring the search space. The 2S-ENDSHHMO algorithm can be used to improve the search process of other MOSI-based algorithms and can be applied to solve MOPs in applications such as structural design and signal processing. 2020 Thesis NonPeerReviewed text en https://etd.uum.edu.my/8673/1/Deposit%20Permission_s901761.pdf text en https://etd.uum.edu.my/8673/2/s901761_01.pdf text en https://etd.uum.edu.my/8673/3/s901761_references.docx Yasear, Shaymah Akram (2020) Enhanced Harris's Hawk algorithm for continuous multi-objective optimization problems. Doctoral thesis, Universiti Utara Malaysia.
institution Universiti Utara Malaysia
building UUM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Utara Malaysia
content_source UUM Electronic Theses
url_provider http://etd.uum.edu.my/
language English
English
English
topic QA Mathematics
spellingShingle QA Mathematics
Yasear, Shaymah Akram
Enhanced Harris's Hawk algorithm for continuous multi-objective optimization problems
description Multi-objective swarm intelligence-based (MOSI-based) metaheuristics were proposed to solve multi-objective optimization problems (MOPs) with conflicting objectives. Harris’s hawk multi-objective optimizer (HHMO) algorithm is a MOSIbased algorithm that was developed based on the reference point approach. The reference point is determined by the decision maker to guide the search process to a particular region in the true Pareto front. However, HHMO algorithm produces a poor approximation to the Pareto front because lack of information sharing in its population update strategy, equal division of convergence parameter and randomly generated initial population. A two-step enhanced non-dominated sorting HHMO (2SENDSHHMO) algorithm has been proposed to solve this problem. The algorithm includes (i) a population update strategy which improves the movement of hawks in the search space, (ii) a parameter adjusting strategy to control the transition between exploration and exploitation, and (iii) a population generating method in producing the initial candidate solutions. The population update strategy calculates a new position of hawks based on the flush-and-ambush technique of Harris’s hawks, and selects the best hawks based on the non-dominated sorting approach. The adjustment strategy enables the parameter to adaptively changed based on the state of the search space. The initial population is produced by generating quasi-random numbers using Rsequence followed by adapting the partial opposition-based learning concept to improve the diversity of the worst half in the population of hawks. The performance of the 2S-ENDSHHMO has been evaluated using 12 MOPs and three engineering MOPs. The obtained results were compared with the results of eight state-of-the-art multi-objective optimization algorithms. The 2S-ENDSHHMO algorithm was able to generate non-dominated solutions with greater convergence and diversity in solving most MOPs and showed a great ability in jumping out of local optima. This indicates the capability of the algorithm in exploring the search space. The 2S-ENDSHHMO algorithm can be used to improve the search process of other MOSI-based algorithms and can be applied to solve MOPs in applications such as structural design and signal processing.
format Thesis
author Yasear, Shaymah Akram
author_facet Yasear, Shaymah Akram
author_sort Yasear, Shaymah Akram
title Enhanced Harris's Hawk algorithm for continuous multi-objective optimization problems
title_short Enhanced Harris's Hawk algorithm for continuous multi-objective optimization problems
title_full Enhanced Harris's Hawk algorithm for continuous multi-objective optimization problems
title_fullStr Enhanced Harris's Hawk algorithm for continuous multi-objective optimization problems
title_full_unstemmed Enhanced Harris's Hawk algorithm for continuous multi-objective optimization problems
title_sort enhanced harris's hawk algorithm for continuous multi-objective optimization problems
publishDate 2020
url https://etd.uum.edu.my/8673/1/Deposit%20Permission_s901761.pdf
https://etd.uum.edu.my/8673/2/s901761_01.pdf
https://etd.uum.edu.my/8673/3/s901761_references.docx
https://etd.uum.edu.my/8673/
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