Differential evolution using improved crowding distance for multimodal multiobjective optimization
In multiobjective optimization, the relationship between decision space and objective space is generally assumed to be a one-to-one mapping, but it is not always the case. In some problems, different variables have the same or similar objective value, which means a many-to-one mapping. In this situa...
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sg-ntu-dr.10356-1599062022-07-05T06:25:36Z Differential evolution using improved crowding distance for multimodal multiobjective optimization Yue, Caitong Suganthan, Ponnuthurai Nagaratnam Liang, Jing Qu, Boyang Yu, Kunjie Zhu, Yongsheng Yan, Li School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Multimodal Multiobjective Optimization Differential Evolution In multiobjective optimization, the relationship between decision space and objective space is generally assumed to be a one-to-one mapping, but it is not always the case. In some problems, different variables have the same or similar objective value, which means a many-to-one mapping. In this situation, there is more than one Pareto Set (PS) mapping to the same Pareto Front (PF) and these problems are called multimodal multiobjective problems. This paper proposes a multimodal multiobjective differential evolution algorithm to solve these problems. In the proposed method, the difference vector is generated taking the diversity in both decision and objective space into account. The way to calculate crowding distance is quite different from the others. In the crowding distance calculation process, all the selected individuals are taken into account instead of considering each Pareto rank separately. The crowding distance in decision space is replaced with the weighted sum of Euclidean distances to its neighbors. In the environmental selection process, not all the individuals in top ranks are selected, because some of them may be very crowded. Instead, the potential solutions in the bottom rank are given a chance to evolve. With these operations, the proposed algorithm can maintain multiple PSs of multimodal multiobjective optimization problems and improve the diversity in both decision and objective space. Experimental results show that the proposed method can achieve high comprehensive performance. We acknowledge financial support by the National Natural Science Foundation of China (61922072, 61876169, 61976237, 61806179 and 61873292), Key R&D and Promotion Projects in Henan Province (212102210510), the Key Scientific Research Projects in Colleges and Universities of Henan Province (Grant No.19A120014) and Scholarship under the State Scholarship Fund by the China Scholarship Council. 2022-07-05T06:25:36Z 2022-07-05T06:25:36Z 2021 Journal Article Yue, C., Suganthan, P. N., Liang, J., Qu, B., Yu, K., Zhu, Y. & Yan, L. (2021). Differential evolution using improved crowding distance for multimodal multiobjective optimization. Swarm and Evolutionary Computation, 62, 100849-. https://dx.doi.org/10.1016/j.swevo.2021.100849 2210-6502 https://hdl.handle.net/10356/159906 10.1016/j.swevo.2021.100849 2-s2.0-85101312240 62 100849 en Swarm and Evolutionary Computation © 2021 Elsevier B.V. All rights reserved. |
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Engineering::Electrical and electronic engineering Multimodal Multiobjective Optimization Differential Evolution |
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Engineering::Electrical and electronic engineering Multimodal Multiobjective Optimization Differential Evolution Yue, Caitong Suganthan, Ponnuthurai Nagaratnam Liang, Jing Qu, Boyang Yu, Kunjie Zhu, Yongsheng Yan, Li Differential evolution using improved crowding distance for multimodal multiobjective optimization |
| description |
In multiobjective optimization, the relationship between decision space and objective space is generally assumed to be a one-to-one mapping, but it is not always the case. In some problems, different variables have the same or similar objective value, which means a many-to-one mapping. In this situation, there is more than one Pareto Set (PS) mapping to the same Pareto Front (PF) and these problems are called multimodal multiobjective problems. This paper proposes a multimodal multiobjective differential evolution algorithm to solve these problems. In the proposed method, the difference vector is generated taking the diversity in both decision and objective space into account. The way to calculate crowding distance is quite different from the others. In the crowding distance calculation process, all the selected individuals are taken into account instead of considering each Pareto rank separately. The crowding distance in decision space is replaced with the weighted sum of Euclidean distances to its neighbors. In the environmental selection process, not all the individuals in top ranks are selected, because some of them may be very crowded. Instead, the potential solutions in the bottom rank are given a chance to evolve. With these operations, the proposed algorithm can maintain multiple PSs of multimodal multiobjective optimization problems and improve the diversity in both decision and objective space. Experimental results show that the proposed method can achieve high comprehensive performance. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Yue, Caitong Suganthan, Ponnuthurai Nagaratnam Liang, Jing Qu, Boyang Yu, Kunjie Zhu, Yongsheng Yan, Li |
| format |
Article |
| author |
Yue, Caitong Suganthan, Ponnuthurai Nagaratnam Liang, Jing Qu, Boyang Yu, Kunjie Zhu, Yongsheng Yan, Li |
| author_sort |
Yue, Caitong |
| title |
Differential evolution using improved crowding distance for multimodal multiobjective optimization |
| title_short |
Differential evolution using improved crowding distance for multimodal multiobjective optimization |
| title_full |
Differential evolution using improved crowding distance for multimodal multiobjective optimization |
| title_fullStr |
Differential evolution using improved crowding distance for multimodal multiobjective optimization |
| title_full_unstemmed |
Differential evolution using improved crowding distance for multimodal multiobjective optimization |
| title_sort |
differential evolution using improved crowding distance for multimodal multiobjective optimization |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/159906 |
| _version_ |
1738844863780093952 |