Zhongxing Yang and Dan Zhang
[1] C. Gosselin, Gravity compensation, static balancing and dy-namic balancing of parallel mechanisms, in L. Wang and J. Xi(eds.), Smart devices and machines for advanced manufactur-ing, (London:Springer, 2008). [2] S. Briot and V. Arakelian, Complete shaking force and shakingmoment balancing of in-line four-bar linkages by adding aclass-two RRR or RRP Assur Group, Mechanism and MachineTheory, 57, 2012, 13–26. [3] P. Nehemiah, Complete shaking force and shaking momentbalancing of 3 types of four-bar linkages, International Journalof Current Engineering and Technology, 4(6), 2014, 3908–3915. [4] K. Wang, M. Luo, T. Mei, J. Zhao, and Y. Cao, Dynamicsanalysis of a three-DOF planar serial-parallel mechanism foractive dynamic balancing with respect to a given trajectory,International Journal of Advanced Robotic Systems, 10(23),2013, 1–10. [5] V. Wijk and J. Herder, Active dynamic balancing unit forcontrolled shaking force and shaking moment balancing, Proc.of the ASME 2010 International Design Engineering TechnicalConf. & Computers and Information in Engineering Conf.,Montreal, QC, Canada, August 15–18 2010. [6] Z. Sun, B. Zhang, L. Cheng, and W.J. Zhang, Applicationof the redundant servomotor approach to design of pathgenerator with dynamic performance improvement, Mechanismand Machine Theory, 46, 2011, 1784–1795. [7] V. Wijk and J. Herder, Dynamic balancing of mechanismsby using an actively driven counter-rotary counter-mass forlow mass and low inertia, Proc. of the Second InternationalWorkshop on Fundamental Issues and Future Research Direc-tions for Parallel Mechanisms and Manipulators, Montpellier,France, September 21–22 2008. [8] V.H. Arakelian and M.R. Smith, Design of planar 3-DOF3-RRR reactionless parallel manipulators, Mechatronics,18(10), 2008, 601–606. [9] Z. Pandilov and V. Dukovski, Comparison of the characteristicsbetween serial and parallel robots, Acta Technica Corviniensis-Bulletin of Engineering, Tome VII, Fascicule 1 (January–March), 143–160. [10] D. Zhang, Chapter 1, Parallel Robotic Machine Tools, (NewYork: Springer, 2010). [11] Y. Patel and P. George, Parallel manipulators applications—Asurvey, Modern Mechanical Engineering, 2(3), 2012, 57–64. [12] H. Tang, D. Zhang, S. Guo, H. Qu, and G. Huang, Kinematicsanalysis of a novel 2R1T parallel mechanism, InternationalJournal of Robotics and Automation, 33(2), 2018, 120–132. [13] G. Huang, D. Zhang, S. Guo, and H. Qu, Structural synthesisof a class of reconfigurable parallel manipulators based on over-constrained mechanisms, International Journal of Robotics andAutomation, 34(2), 2019, 1–11. [14] L. Luo, C. Yuan, R. Yan, et al., Trajectory planning forenergy minimization of industry robotic manipulators usingthe Lagrange interpolation method, International Journalof Precision Engineering and Manufacturing, 16(5), 2015,911–917. [15] J. Gregory, A. Olivares, and E. Staffetti, Energy optimal tra-jectory planning for planar under actuated RR robot manipu-lators in the absence of gravity, Abstract and Applied Analysis,Volume 2013, 1–16. [16] J. Hu, X. Zhang, and J. Zhan, Trajectory planning of a novel2-DoF high-speed planar parallel manipulator, in C. Xiong,Y. Huang, Y. Xiong, and H. Liu (eds.), Intelligent robotics andapplications. ICIRA 2008. Lecture notes in computer science,Vol 5314, (Berlin, Heidelberg: Springer, 2008). [17] H. Abdellatif and B. Heimann, Adapted time-optimal tra-jectory planning for parallel manipulators with full dynamicmodelling, Proc. of the 2005 IEEE International Conf. onRobotics and Automation, Barcelona, Spain, April 2005. [18] Z.M. Bi, Y. Lin, and W.J. Zhang, The general architectureof adaptive robotic systems for manufacturing applications,Robotics and Computer-Integrated Manufacturing, 26, 2010,461–470. [19] D. Zhang, Chapter 7, Parallel Robotic Machine Tools, (NewYork: Springer, 2010). [20] T. Zhang, W.J. Zhang, and M.M. Gupta, An underactuatedself-reconfigurable robot and the reconfiguration evolution,Mechanism and Machine Theory, 124, 2018, 248–258. [21] P.R. Ouyang and W.J. Zhang, Force balancing of roboticmechanisms based on adjustment of kinematic parameters,Journal of Mechanical Design, 127, 2005, 433–440. [22] V. Arakelian, A. Samsonyan, and N. Arakelyan, Optimum shak-ing force balancing of planar 3-RRR parallel manipulators bymeans of an adaptive counterweight system, Journal of Roboticsand Mechanical Engineering Research, 1(2), 2015, 36–41. [23] D. Zhang and B. Wei, Dynamic balancing of robotic mecha-nisms via reconfiguration and integration design, InternationalJournal of Robotics and Automation, 32(6), 2017, 551–559. [24] D. Zhang and B. Wei, Dynamic balancing of parallel ma-nipulators through reconfiguration, Proc. of the ASME 2015Dynamic Systems and Control Conf., Columbus, OH, USA,October 28–30 2015. [25] J. Li, J. Wang, W. Chou, Y. Zhang, T. Wang, and Q. Zhang,Inverse kinematics and dynamics of the 3-RRS parallel plat-form, Proc. of the 2001 IEEE International Conf. on Robotics& Automation, Seoul Korea, May 21–26, 2001. [26] D. Zhang, Chapter 3, Parallel Robotic Machine Tools, (NewYork: Springer, 2010). [27] Rotation matrix, https://en.wikipedia.org/wiki/Rotation_matrix. [28] D’Alembert’s principle, https://en.wikipedia.org/wiki/D%27Alembert%27s_principle. [29] Back EMF in a motor, https://www.reserachgate.net. [30] S. Gu, Fundamentals of electrical machines and drives, 4thed. (Beijing: China Machine Press, 2007). [31] Polynomial interpolation, https://en.wikipedia.org/wiki/Polynomial_interpolation. [32] Genetic algorithm: find global minima for highly nonlinearproblems, https://www.mathworks.com/discovery/genetic-algorithm.html.
Important Links:
Go Back
