Advanced multi-objective trajectory planning for robotic arms using a multi-strategy enhanced NSGA-II algorithm
I tiakina i:
| I whakaputaina i: | PLoS One vol. 20, no. 5 (May 2025), p. e0324567 |
|---|---|
| Kaituhi matua: | |
| Ētahi atu kaituhi: | , |
| I whakaputaina: |
Public Library of Science
|
| Ngā marau: | |
| Urunga tuihono: | Citation/Abstract Full Text Full Text - PDF |
| Ngā Tūtohu: |
Kāore He Tūtohu, Me noho koe te mea tuatahi ki te tūtohu i tēnei pūkete!
|
| Whakarāpopotonga: | Facing the problems of large-scale rapid and disorderly loading, the robotic arm has the problems of large start-stop impact, easy to shake, and reduced production efficiency and service life, this paper proposes a robotic arm motion planning method based on the improved multi-objective algorithm called LNSGA-II. Firstly, the artificial potential field method is used to plan the shortest path without collision, extract the key motion sequences, and establish the multi-objective function to improve the operating efficiency of the robotic arm, the smoothness of the motion trajectory, and the reduction of energy consumption. Then to solve the nonlinear constraints in the multi-objective trajectory planning, the infeasibility degree is designed, and the NSGA-II is improved by using the mutation chaos strategy and the dynamic goal-oriented development strategy. Numerical and trajectory planning experiments are conducted successively with the remaining five well-known multi-objective algorithms, and the experimental results demonstrate the superiority of LNSGA-II. Finally, the digital twin platform of MATLAB-CoppeliaSim-UR16e verifies the effectiveness of the method in real grasping tasks. |
|---|---|
| ISSN: | 1932-6203 |
| DOI: | 10.1371/journal.pone.0324567 |
| Puna: | Health & Medical Collection |