COLLISION-FREE PATH PLANNING FOR ARC WELDING ROBOT BASED ON IDA-DE ALGORITHM, 476-485.

Xuewu Wang, Zelong Xia, Xin Zhou, Jianbin Wei, Xingsheng Gu, and Huaicheng Yan

References

1. [1] Y.K. Liu and Y.M. Zhang, Fusing machine algorithm withwelder intelligence for adaptive welding robots, Journal ofManufacturing Processes, 27, 2017, 18–25.
2. [2] W.X. Gao, Q. Tang, J. Yao, and Y.R. Yang, Automatic motionplanning for complex welding problems by considering angularredundancy, Robotics and Computer-Integrated Manufacturing,62(4), 2020, 101862.
3. [3] P. Tavares, J. Lima, P. Costa, and A.P. Moreira, Multiplemanipulators path planning using double A, Industrial Robot:An International Journal, 43(6), 2016, 657–664.
4. [4] X.W. Wang, Y.P. Shi, D.Y. Ding, and X.S. Gu, Double globaloptimum genetic algorithm-particle swarm optimization-basedwelding robot path planning, Engineering Optimization, 48(2),2016, 299–316.
5. [5] H. Dong, M. Cong, and H.P. Chen, Effective algorithms tofind a minimum-time yet high smooth robot joint trajectory,International Journal of Robotics and Automation, 34(4),2019, 331–343.
6. [6] N. Perrin, O. Stasse, L. Baudouin, F. Lamiraux, et al., Fasthumanoid robot collision-free footstep planning using sweptvolume approximations, IEEE Transactions on Robotics, 28(2),2011, 427–439.
7. [7] J. Suh, J. Gong, and S. Oh, Fast sampling-based cost-awarepath planning with nonmyopic extensions using cross entropy,IEEE Transactions on Robotics, 33(6), 2017, 1313–1326.
8. [8] Z.P. Wang, Y.S. Li, H. Zhang, C. Liu, et al., Sampling-basedoptimal motion planning with smart exploration and exploita-tion, IEEE/ASME Transactions on Mechatronics, 25(5), 2020,2376–2386.
9. [9] Z.P. Wang, G.B. Li, H.J. Jiang, Q.J. Chen, et al., Collision-free navigation of autonomous vehicles using convex quadraticprogramming-based model predictive control, IEEE/ASMETransactions on Mechatronics, 23(3), 2018, 1103–1113.
10. [10] B. Hao and Z.P. Yan, Recovery path planning for an agriculturalmobile robot by Dubins-RRT algorithm, International Journalof Robotics and Automation, 33(2), 2018, 202–207.
11. [11] C.C. Tsai, H.C. Huang, and C.K. Chan, Parallel elite geneticalgorithm and its application to global path planning forautonomous robot navigation, IEEE Transactions on IndustrialElectronics, 58(10), 2011, 4813–4821.
12. [12] J.B. Xin, C. Meng, F. Schulte, J.Z. Peng, et al., A time-spacenetwork model for collision-free routing of planar motionsin a multirobot station, IEEE Transactions on IndustrialInformatics, 16(10), 2020, 6413–6422.
13. [13] Y.N. Guo, J. Cheng, S. Luo, D.W. Gong, et al., Ro-bust dynamic multi-objective vehicle routing optimizationmethod, IEEE/ACM Transactions on Computational Biologyand Bioinformatics, 15(6), 2018, 1891–1903.
14. [14] X.W. Wang, Y.X. Yan, and X.S. Gu, Spot welding robot pathplanning using intelligent algorithm, Journal of ManufacturingProcesses, 42, 2019, 1–10.
15. [15] J.S. Mary, M.A.S. Balaji, A.A. Selvakumar, and D. Dinakaran,Adaptive control of tool wear by grey wolf optimization andneural controller in drilling, International Journal of Roboticsand Automation, 36(1), 2021, 53–58.
16. [16] M. Givehchi, A.H.C. Ng, and L.H. Wang, Spot-welding se-quence planning and optimization using a hybrid rule-basedapproach and genetic algorithm, Robotics and Computer-Integrated Manufacturing, 27(4), 2011, 714–722.
17. [17] Q. Zhang and M.Y. Zhao, Minimum time path planning forrobotic manipulator in drilling/spot welding tasks, Journal ofComputational Design and Engineering, 3(2), 2016, 132–139.
18. [18] P.T. Zacharia, E.K. Xidias, and N.A. Aspragathos, Taskscheduling and motion planning for an industrial manipulator,Robotics and Computer-Integrated Manufacturing, 29(6), 2013,449–462.
19. [19] A. Kov´acs, Integrated task sequencing and path planningfor robotic remote laser welding, International Journal ofProduction Research, 54(4), 2016, 1210–1224.
20. [20] Y. Huang, M.R. Fei, and W.J. Zhou, Multi-objective trajec-tory planning of robot manipulator in a moving obstacle envi-ronment, International Journal of Robotics and Automation,34(4), 2019, 359–367.
21. [21] T.K. Lee, S.H. Baek, Y.H. Choi, and S.Y. Oh, Smooth coveragepath planning and control of mobile robots based on high-resolution grid map representation, Robotics and AutonomousSystems, 59(10), 2011, 801–812.
22. [22] M. Davoodi, A. Mohades, F. Sheikhi, and P. Khanteimouri,Data imprecision under λ-geometry model, Information Sci-ences, 295, 2015, 126–144.
23. [23] K. Yang, S. Moon, S. Yoo, J. Kang, et al., Spline-based RRTpath planner for non-holonomic robots, Journal of Intelligent& Robotic Systems, 73(1–4), 2014, 763–782.
24. [24] S.H. Wang, Y.Z. Li, and H.Y. Yang, Self-adaptive differentialevolution algorithm with improved mutation mode, AppliedIntelligence, 47(3), 2017, 644–658.
25. [25] A. Tuncer and M. Yildirim, Dynamic path planning of mo-bile robots with improved genetic algorithm, Computers &Electrical Engineering, 38(6), 2012, 1564–1572.
26. [26] X.W. Wang, Y.X. Yan, and D.Y. Ding, Collision free pathplanning for welding robot based on L´evy-PSO, Journal ofShanghai Jiaotong University, 50(10), 2016, 1517–1520.

Important Links:

• Abstract
• DOI: 10.2316/J.2022.206-0611
• From Journal (206) International Journal of Robotics and Automation - 2022

Go Back