Xuyan Hou, Yilin Su, Shengyuan Jiang, Pan Cao, Pingping Xue, Tianfeng Tang, Long Li, and Tao Chen
[1] J. Letschnik, U. Walter, and J. Artigas, On-orbit servicing,IEEE Robotics & Automation Magazine, 16(4), 2009, 29–33. [2] A. Flores-Abad, O. Ma, K. Pham, et al., A review ofspace robotics technologies for on-orbit servicing, Progress inAerospace Sciences, 68(8), 2014, 1–26. [3] D.Y. Liu, L. Hong, and L.I. Zhi-Qi, Calibration Strategy ofSpace Manipulator System On-Orbit Servicing Fine Operation,Journal of Astronautics, 38(6), 2017, 630–637. [4] N.G. Cui, P. Wang, J.F. Guo, et al., A review of on-orbitservicing, Journal of Astronautics, 68(8), 2007, 1–26. [5] S. Hirose and A. Nagakubo, Legged wall-climbing robot, Journal of the Robotics Society of Japan, 10(5), 1992, 575–580. [6] K. Wang, B. Chen, and T. Li, A robotic colonoscope with doubleballoons: Analysis, design, and experiments, InternationalJournal of Robotics & Automation, 32(6), 2017, 560–568. [7] B.L. Luk, A.A. Collie, and J. Billingsley, Robug II: An intelligent wall climbing robot, Proceedings of 1991 IEEE International Conference on Robotics and Automation, 1991,2342–2347. [8] M. Murply, C. Kute, Y. Menguc, et al., Waalbot II: Adhesionrecovery and improved performance of a climbing robot using fibrillar adhesives, The International Journal of RoboticsResearch, 30(1), 2011, 118–133. [9] O. Unver and M. Sitti, Flat dry elastomer adhesives as attachment materials for climbing robots, IEEE Transactions onRobotics, 26(1), 2010, 131–141. [10] S. Kim, M. Spenko, S. Trujillo, et al., Smooth vertical surfaceclimbing with directional adhesion, IEEE Transactions onRobotics, 24(1), 2008, 65–74. [11] C. Menon, Y. Li, D. Sameto, et al., Abigaille-I: Towards thedevelopment of a spider-inspired climbing robot for space use,Proceedings of the 2nd Biennial IEEE/RAS-EMBS, Scottsdale,AZ, USA, 2009. [12] Y. Li, A. Ahmed, D. Sameoto, et al., Abigalle II: Towardthe development of a spider-inspired climbing robot, Robotica,30(1), 2012, 79–89. [13] P. Birkmeyer, A. Gillies, and R. Fearing, Dynamic climbing ofnear-vertical smooth surfaces, Proceedings of the 2012 IEEEInternational Conference on Intelligent Robots and Systems,Vilamoura, Portugal, 2012. [14] K. Autumn and N. Gravish, Gecko adhesion: Evolutionarynanotechnology, Philosophical Transactions of the Royal Society, 366(11), 2008, 1575–1590. [15] K. Autumn, W.P. Chang, T. Hsieh, et al., Adhesion force ofa single gecko foot-hair, Nature, 405(8), 2000, 681–684. [16] K. Autumn, M. Sitti, Y.A. Liang, et al., Evidence for vander Waals adhesion in gecko setae, Proceedings of the NationalAcademy of Sciences of the United States of America, 99(19),2002, 12252–12256. [17] H. Gao, X. Wang, H. Yao, et al., Mechanics of hierarchicaladhesion structures of geckos, Mechanics of Materials, 37,2005, 275–285. [18] J. Wu, X. Chen, and L. Wang, Design and dynamics ofa novel solar tracker with parallel mechanism, IEEE-ASMETransactions on Mechatronics, 21(1), 2016, 88–97. [19] J. Wu, Y. Gao, B. Zhang, and L. Wang, Workspace anddynamic performance evaluation of the parallel manipulators ina spray-painting equipment, Robotics and Computer IntegratedManufacturing, 44, 2017, 199–207. [20] J. Wu, J. Wang, L. Wang, and T. Li, Dynamics and control of aplanar 3-DOF parallel manipulator with actuation redundancy,Mechanism and Machine Theory, 44(4), 2009, 835–849. [21] G. Yu, J. Wu, and L. Wang, Stiffness model of a 3-DOFparallel manipulator with two additional legs, InternationalJournal of Advanced Robotic Systems, 11(173), 2014, 1–9. [22] Y. Zhu and B. Jin, Compliance control of a legged robotbased on improved adaptive control: Method and experiments,International Journal of Robotics & Automation, 31(5), 2016,366–373.
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