OPTIMISATION OF A SIX-DEGREE-OF-FREEDOM ROBOT TRAJECTORY BASED ON IMPROVED MULTI-OBJECTIVE PSO ALGORITHM, 218-230.

Zhengyang He, Xiaojie Tang, Qin Shen, Chenxu Duan, and Chengfen Jia

References

  1. [1] W. Jin, L.X. Jun, Z.H. Yun, L.G. Dong, P.Q. Liang, andL. Howard, Path planning of manipulator using potentialfield combined with sphere tree model, International Journalof Robotics and Automation, 35(2), 2020, 148–161, DOI:https://doi.org/10.2316/j.2020.206-0298.
  2. [2] R.H.E. Amar, L. Benchikh, H. Dermeche, O. Bachir, andZ. Ahmed-Foitih, Efficient trajectory reconstruction for robotprogramming by demonstration, Revue Roumaine des SciencesTechniques. Serie Electrotechnique et Energetique, 65(1/2),2020, 117–121.
  3. [3] W. Jianwei, C. Jiwen, and T. Jiubin, Optimization of Cartesiantrajectory for accompanying-flight space robot during on-orbitdetection, International Journal of Robotics and Automation,30(4), 2015, 357–364.
  4. [4] K. Springer, H. Gattringer, and P. Staufer, On time-optimal trajectory planning for a flexible link robot,Journal of Systems and Control Engineering, 227(10), 2013,752–763.
  5. [5] M. Wang, J. Xiao, F. Zeng, and G. Wang, Research on optimizedtime-synchronous online trajectory generation method for arobot arm, Robotics and Autonomous Systems, 126, 2020,103453, DOI: https://doi.org/10.1016/j.robot.2020.103453.
  6. [6] L. Feifei and L. Fei, Time-jerk optimal planning of industrialrobot trajectories, International Journal of Robotics andAutomation, 31(1), 2016, 1–7.
  7. [7] S. Lu, J. Zhao, L. Jiang, and H. Liu, Time-jerk optimaltrajectory planning of a 7-DOF redundant robot, TurkishJournal of Electrical Engineering and Computer Sciences,25(5), 2017, 4211–4222.
  8. [8] T. Zhang, M. Zhang, and Y. Zou, Time-optimal and smoothtrajectory planning for robot manipulators, InternationalJournal of Control, Automation and Systems, 19(1), 2021,521–531.
  9. [9] H. Ying, F. Minrui, and Z. Wenju, Multi-objective trajectoryplanning of robot manipulator in a moving obstacle envi-ronment, International Journal of Robotics and Automation,34(4), 2019, DOI: https://doi.org/10.2316/j.2019.206-0088.
  10. [10] N. Baklouti and A.M. Alimi, Type-2 fuzzy logic controllerdesign using a real-time PSO algorithm applied to “irobot createrobot, International Journal of Robotics and Automation,32(2), 2017, 206–4597.
  11. [11] S. Tian, Y. Li, J. Li, and G. Liu, Robot global path planningusing PSO algorithm based on the interaction mechanismbetween leaders and individuals, Journal of Intelligent & FuzzySystems: Applications in Engineering and Technology, 39(4),2020, 4925–4933.
  12. [12] W. Wang, W. Wang, W. Dong, H. Yu, Z. Yan, and Z. Du,Dimensional optimization of a minimally invasive surgicalrobot system based on NSGA-II algorithm, Advances inMechanical Engineering, 7(2), 2015, 1687814014568541, DOI:https://doi.org/10.1177/1687814014568541.
  13. [13] E. Selim, M. Alci, and M. Altintas, Studies from edgeuniversity add new findings in the area of robotics(variable-time-interval trajectory optimization-based dynamicwalking control of bipedal robot), Robotica, 40(6), 2022,1799–1819.
  14. [14] S. Bandita, K.D. Pradipta, and K.M. Ranjan, Multi-robot cooperation and path planning for stick transport-ing using improved Q-learning and democratic roboticsPSO, Journal of Computational Science, 60 April 2022,1–16.
  15. [15] G. Na, S. Xiaoyan, G. Dunwei, and Z. Yong, Solving robot pathplanning in an environment with terrains based on intervalmulti-objective PSO, International Journal of Robotics andAutomation, 31(2), 2016, 100–110.
  16. [16] Z. Xu, S. Li, Q. Chen, and B. Hou, MOPSO based multi-objective trajectory planning for robot manipulators, Proc. 2ndInt. Conf. on Information Science and Control Engineering,2015, 824–828.
  17. [17] L. Yong, L. Xiang, J. Peiyang, D. Zhe, W. Zhe, S.Boxi, and H. Xinyan, Evolutionary multi-objective trajectoryoptimization for a redundant robot in Cartesian space con-sidering obstacle avoidance, Mechanical Sciences, 13(1), 2022,41–53.
  18. [18] Z. Jing, Z. Xijing, and S. Tianjiao, Serial manipu-lator time-jerk optimal trajectory planning based onhybrid IWOA-PSO algorithm, IEEE Access, 10, 2022,6592–6604.
  19. [19] X. Lin, C. Maoyong, and S. Baoye, A new approach to smoothpath planning of mobile robot based on quartic Bezier transitioncurve and improved PSO algorithm, Neurocomputing, 473(7),2022, 98–106.
  20. [20] KR 16-PDF, http://www.kuka.com.

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