Objective reduction in many-objective optimization : evolutionary multiobjective approaches and comprehensive analysis
Many-objective optimization problems bring great difficulties to the existing multiobjective evolutionary algorithms, in terms of selection operators, computational cost, visualization of the high-dimensional tradeoff front, and so on. Objective reduction can alleviate such difficulties by removing...
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sg-ntu-dr.10356-1406352020-06-01T02:59:54Z Objective reduction in many-objective optimization : evolutionary multiobjective approaches and comprehensive analysis Yuan, Yuan Ong, Yew-Soon Gupta, Abhishek Xu, Hua School of Computer Science and Engineering Engineering::Computer science and engineering Many-objective Optimization Multiobjective Evolutionary Algorithms (MOEAs) Many-objective optimization problems bring great difficulties to the existing multiobjective evolutionary algorithms, in terms of selection operators, computational cost, visualization of the high-dimensional tradeoff front, and so on. Objective reduction can alleviate such difficulties by removing the redundant objectives in the original objective set, which has become one of the most important techniques in many-objective optimization. In this paper, we suggest to view objective reduction as a multiobjective search problem and introduce three multiobjective formulations of the problem, where the first two formulations are both based on preservation of the dominance structure and the third one utilizes the correlation between objectives. For each multiobjective formulation, a multiobjective objective reduction algorithm is proposed by employing the nondominated sorting genetic algorithm II to generate a Pareto front of nondominated objective subsets that can offer decision support to the user. Moreover, we conduct a comprehensive analysis of two major categories of objective reduction approaches based on several theorems, with the aim of revealing their strengths and limitations. Lastly, the performance of the proposed multiobjective algorithms is studied extensively on various benchmark problems and two real-world problems. Numerical results and comparisons are then shown to highlight the effectiveness and superiority of the proposed multiobjective algorithms over existing state-of-the-art approaches in the related field. ASTAR (Agency for Sci., Tech. and Research, S’pore) 2020-06-01T02:59:54Z 2020-06-01T02:59:54Z 2017 Journal Article Yuan, Y., Ong, Y.-S., Gupta, A., & Xu, H. (2018). Objective reduction in many-objective optimization : evolutionary multiobjective approaches and comprehensive analysis. IEEE Transactions on Evolutionary Computation, 22(2), 189-210. doi:10.1109/TEVC.2017.2672668 1089-778X https://hdl.handle.net/10356/140635 10.1109/TEVC.2017.2672668 2-s2.0-85044984097 2 22 189 210 en IEEE Transactions on Evolutionary Computation © 2017 IEEE. All rights reserved. |
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Engineering::Computer science and engineering Many-objective Optimization Multiobjective Evolutionary Algorithms (MOEAs) |
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Engineering::Computer science and engineering Many-objective Optimization Multiobjective Evolutionary Algorithms (MOEAs) Yuan, Yuan Ong, Yew-Soon Gupta, Abhishek Xu, Hua Objective reduction in many-objective optimization : evolutionary multiobjective approaches and comprehensive analysis |
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Many-objective optimization problems bring great difficulties to the existing multiobjective evolutionary algorithms, in terms of selection operators, computational cost, visualization of the high-dimensional tradeoff front, and so on. Objective reduction can alleviate such difficulties by removing the redundant objectives in the original objective set, which has become one of the most important techniques in many-objective optimization. In this paper, we suggest to view objective reduction as a multiobjective search problem and introduce three multiobjective formulations of the problem, where the first two formulations are both based on preservation of the dominance structure and the third one utilizes the correlation between objectives. For each multiobjective formulation, a multiobjective objective reduction algorithm is proposed by employing the nondominated sorting genetic algorithm II to generate a Pareto front of nondominated objective subsets that can offer decision support to the user. Moreover, we conduct a comprehensive analysis of two major categories of objective reduction approaches based on several theorems, with the aim of revealing their strengths and limitations. Lastly, the performance of the proposed multiobjective algorithms is studied extensively on various benchmark problems and two real-world problems. Numerical results and comparisons are then shown to highlight the effectiveness and superiority of the proposed multiobjective algorithms over existing state-of-the-art approaches in the related field. |
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School of Computer Science and Engineering |
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School of Computer Science and Engineering Yuan, Yuan Ong, Yew-Soon Gupta, Abhishek Xu, Hua |
| format |
Article |
| author |
Yuan, Yuan Ong, Yew-Soon Gupta, Abhishek Xu, Hua |
| author_sort |
Yuan, Yuan |
| title |
Objective reduction in many-objective optimization : evolutionary multiobjective approaches and comprehensive analysis |
| title_short |
Objective reduction in many-objective optimization : evolutionary multiobjective approaches and comprehensive analysis |
| title_full |
Objective reduction in many-objective optimization : evolutionary multiobjective approaches and comprehensive analysis |
| title_fullStr |
Objective reduction in many-objective optimization : evolutionary multiobjective approaches and comprehensive analysis |
| title_full_unstemmed |
Objective reduction in many-objective optimization : evolutionary multiobjective approaches and comprehensive analysis |
| title_sort |
objective reduction in many-objective optimization : evolutionary multiobjective approaches and comprehensive analysis |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/140635 |
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1681056274750373888 |