Zhenyang Lv, Yi Wang, Guangpeng Zhang, and Yongchang Li
[1] B. Zhang, S. Wu, D. Wang, S. Yang, F. Jiang, and C. Li, Areview of surface quality control technology for robotic abrasivebelt grinding of aero-engine blades, Measurement, 220, 2023,113381. [2] B. Li, Y. Li, W. Tian, and W. Liao, Pose accuracyimprovement in robotic machining by visually-guided methodand experimental investigation, Robotics and AutonomousSystems, 164, 2023, 104416. [3] C. Li, Time-optimal trajectory generation for industrial robotsbased on elite mutation sparrow search algorithm, InternationalJournal of Robotics and Automation, 38(2), 2023, 126–135. [4] K. Wu, J. Li, H. Zhao, and Y. Zhong, Review of industrialrobot stiffness identification and modelling, Applied Sciences,12(17), 2022, 8719. [5] K. Wang, J. Liu, L. Li, S. Xia, and Q. Lu, A hybrid gripper andits clamping force control for long-segment devices in roboticendovascular intervention system, International Journal ofRobotics and Automation 37(2), 2022, 209–218. [6] E.S. Moghaddam, M.G. Saryazdi, and A. Taghvaeipour,Trajectory optimization of a spot-welding robot in the jointand cartesian spaces, International Journal of Robotics andAutomation, 38(2), 2023, 109–125. [7] M. Zhang, Statics analysis and modal analysis of copper anodeplate taking robot, International Journal of Energy, 3(1), 2023,24–26. [8] M. Bottin, S. Cocuzza, N. Comand, and A. Doria, Modelingand identification of an industrial robot with a selective modalapproach, Applied Sciences, 10(13), 2020, 4619. [9] V.H. Vu, Z. Liu, M. Thomas, and B. Hazel, Modal analysis ofa light-weight robot with a rotating tool installed at the endeffector, Proceedings of the Institution of Mechanical Engineers,Part C: Journal of Mechanical Engineering Science, 231(9),2017, 1664–1676. [10] Z. Qingliang, Z. Guangyu, S.H. Jifei, L.I. Yongqing, L.I.Yuanqiang, C. Tianming, and W. Liang, Robot workspaceoptimization based on Monte Carlo method and multi islandgenetic algorithm, Mechanics, 28(4), 2022, 308–316. [11] P. Sun, Y.B. Li, K. Shuai, Y. Yue, and B.C. Wei, Workspaceoptimization of a humanoid robotic arm based on the multi-parameter plane model, Robotica, 40(9), 2022, 3088–3103. [12] E. Zhou, X. Wang, H. Fang, K. He, and R. Du, Finiteelement modal analysis of an eight-axis industrial robot paintingsystem applied to boarding bridge painting, Current Trendsin Computer Science and Mechanical Automation, 2, 2017,408–417. [13] J. Li, Y. Wang, K. Zhang, Z. Wang, and J. Lu, Designand analysis of demolition robot arm based on finite elementmethod, Advances in Mechanical Engineering, 11(6), 2019,1687814019853964. [14] A.A. Deabs, F.R. Gomaa, and K.M. Khader, Assessmentof parallel robot dynamic characteristics using experimentalmodal analysis and finite elements, Engineering ResearchJournal, 45(4), 2022, 541–551. [15] V. Nguyen, T. Cvitanic, and S. Melkote, Data-driven modelingof the modal properties of a six-degrees-of-freedom industrialrobot and its application to robotic milling, Journal ofManufacturing Science and Engineering, 141(12), 2019,121006. [16] M.N. Pham, H. Champliaud, Z. Liu, and I.A. Bonev,Parameterized finite element modeling and experimental modaltesting for vibration analysis of an industrial hexapod formachining, Mechanism and Machine Theory, 167, 2022, 104502. [17] Y. Lei, T. Hou, and Y. Ding, Prediction of the posture-dependent tool tip dynamics in robotic milling based on multi-task Gaussian process regressions, Robotics and Computer-Integrated Manufacturing, 81, 2023, 102508. [18] C. Ye, J. Yang, Z.M. Kilic, D. Chen, and H. Ding, Experimentalmodal transferring of industrial robot with data augmentationthrough domain adaptation and transfer boosting, MechanicalSystems and Signal Processing, 200, 2023, 110547. [19] J. Zhou, Z. Li, G. Lv, and E. Liu, Fuzzy logic-based adaptivetracking control of manipulator actuated by DC motor,International Journal of Robotics and Automation, 36(3), 2021,196–203. [20] V. Nguyen and S.N. Melkote, Identification of industrialrobot frequency response function for robotic milling usingoperational modal analysis, Procedia Manufacturing, 48, 2020,154–158. [21] C. Chen, F. Peng, R. Yan, X. Tang, Y. Li, and Z. Fan, Rapidprediction of posture-dependent FRF of the tool tip in roboticmilling, Robotics and Computer-Integrated Manufacturing, 64,2020, 101906. [22] R. Wang, F. Li, J. Niu, and Y. Sun, Prediction of pose-dependent modal properties and stability limits in robotic ball-end milling, Robotics and Computer-Integrated Manufacturing,75, 2022, 102307.476 [23] S. Dai, S. Liu, W. Ji, and S. Li, Vibration suppression in macro–micro grinding system of aeroengine blade based on impedancecompensation prediction control strategy, The InternationalJournal of Advanced Manufacturing Technology, 125(1), 2023,793–807. [24] G. Zhu, X. Zeng, Z. Gao, Z. Gong, W. Duangmu, Y. Zeng,and C. Lu, Study on vibration stability of aircraft engineblades polished by robot controlled pneumatic grinding wheel,Journal of Manufacturing Processes, 99, 2023, 636–651. [25] J Zhao, S Wang, A Jiang, J Xiao, and B. Wang, Trajectoryplanning of 6-DOF manipulator based on gaussian processregression method, International Journal of Robotics andAutomation, 35(3), 2020, 209–220. [26] H. Tian, B. Pang, J. Liu, D. Meng, and X. Dang, Influence ofdifferent position modal parameters on milling chatter stabilityof orthopedic surgery robots, Scientific Reports, 14(1), 2024,10581. [27] G. Cui, B. Li, W. Tian, W. Liao, and W. Zhao, Dynamicmodeling and vibration prediction of an industrial robot inmanufacturing, Applied Mathematical Modelling, 105, 2022,114–136. [28] K. Deng, D. Gao, C. Zhao, and Y. Lu, Prediction of in-processfrequency response function and chatter stability consideringpose and feedrate in robotic milling, Robotics and Computer-Integrated Manufacturing, 82, 2023, 102548. [29] J.J. Craig, Introduction to robotics: Mechanics and control, 3rded. (London: Pearson Education, 2005). [30] M.H. Amiri, N. Mehrabi Hashjin, M. Montazeri, S. Mirjalili,and N. Khodadadi, Hippopotamus optimization algorithm:A novel nature-inspired optimization algorithm, ScientificReports, 14(1), 2024, 5032.
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