Qian Wang, Bo Jin, Ce Zhang, and Shidong Zhang


  1. [1] B. You, Y. Fan, and D. Liu, Fault-tolerant motion planningfor a hexapod robot with single-leg failure using a foot forcecontrol method, International Journal of Advanced RoboticSystems, 19(5), 2022.
  2. [2] A. Roennau, G. Heppner, M. Nowicki, and R. Dillmann,LAURON V: A versatile six-legged walking robot with advancedmaneuverability, Proc. 2014 IEEE/ASME International Conf.on Advanced Intelligent Mechatronics, Besacon, 2014, 82–87.
  3. [3] T. Wimb¨ock, M. G¨orner, and G. Hirzinger, The DLR Crawler:Evaluation of gaits and control of an actively compliantsix-legged walking robot, Industrial Robot: An InternationalJournal, 36(4), 2009, 344–351.
  4. [4] J.-Y. Kim, B.-H. Jun, and I.-W. Park, Six-legged walkingof “Little Crabster” on uneven terrain, International Journalof Precision Engineering and Manufacturing, 18(4), 2017,509–518.
  5. [5] L. Zhang, D. Li, F. Yang, and C. Liu, Development andattitude control of a Hexapod bionic-Robot, Proc. 2016 IEEEInternational Conf. on Robotics and Biomimetics (ROBIO),Qingdao, 2016, 77–82.
  6. [6] Y. Liu, C. Wang, H. Zhang, and J. Zhao, Research on theposture control method of hexapod robot for rugged terrain,Applied Sciences, 10(19), 2020, 6725.
  7. [7] C. Yu, L. Zhou, H. Qian, and Y. Xu, Posture Correctionof Quadruped Robot for Adaptive Slope Walking, Proc.2018 IEEE International Conf. on Robotics and Biomimetics(ROBIO), Kuala Lumpur, 2018, 1220–1225.
  8. [8] J. Faigl, and P. ˇC´ıˇzek, Adaptive locomotion control of hexapodwalking robot for traversing rough terrains with positionfeedback only, Robotics and Autonomous Systems, 116, 2019,136–147.
  9. [9] G. Bledt, M.J. Powell, B. Katz, J.D. Carlo, P.M. Wensing,and S. Kim, MIT Cheetah 3: Design and control of a robust,dynamic quadruped robot, Proc. 2018 IEEE/RSJ InternationalConf. on Intelligent Robots and Systems (IROS), Madrid, 2018,2245–2252.
  10. [10] M. Pavone, P. Arena, L. Fortuna, M. Frasca, and L. Patan´e,Climbing obstacle in bio-robots via CNN and adaptiveattitude control, International Journal of Circuit Theory andApplications, 34(1), 2006, 109–125.
  11. [11] C. Ding, L. Zhou, X. Rong, Y. Li, and J. Gu, A lateralimpact recovery method for quadruped robot with stepheight compensation, International Journal of Robotics andAutomation, 35(3), 2020, 199–208.
  12. [12] M. Tikam, D. Withey, and N.J. Theron, Posture controlfor a low-cost commercially-available hexapod robot, Proc.2020 IEEE International Conf. on Robotics and Automation(ICRA), Paris, 2020, 4498–4504.
  13. [13] Z. Chen, S. Wang, J. Wang, K. Xu, T. Lei, H. Zhang, X.Wang, D. Liu, and J. Si, Control strategy of stable walking fora hexapod wheel-legged robot, ISA Transactions, 108, 2021,367–380.
  14. [14] G. Chen and B. Jin, Position-posture trajectory tracking of asix-legged walking robot, International Journal of Robotics &Automation, 34(1), 2019, 24–37.
  15. [15] W.-S. Ji and B.-K. Cho, Development of a walking algorithmon the uneven terrain for a hexapod robot Little Crabster200,Advances in Mechanical Engineering, 10(7), 2018.
  16. [16] L. Fu´cek, Z. Kovaˇci´c, and S. Bogdan, Analytically foundedyaw control algorithm for walking on uneven terrain applied toa hexapod robot, International Journal of Advanced RoboticSystems, 16(3), 2019.
  17. [17] Y. Isvara, S. Rachmatullah, K. Mutijarsa, D.E. Prabakti,and W. Pragitatama, Terrain adaptation gait algorithm in ahexapod walking robot, Proc. 2014 13th International Conf. onControl Automation Robotics Vision (ICARCV), Singapore,2014, 1735–1739.
  18. [18] C. Ma, F. Yu, and Z. Luo, Simulations and experimentalresearch on a novel soft-terrain hexapod robot, InternationalJournal of Robotics and Automation, 30(3), 2015, 247–255.
  19. [19] R. Altendorfer, N. Moore, H. Komsuoglu, M. Buehler, H.B.Brown, D. McMordie, U. Saranli, R. Full, and D.E. Koditschek,RHex: A biologically inspired hexapod runner, AutonomousRobots, 11(3), 2001, 207–213.
  20. [20] H. Deng, G. Xin, G. Zhong, and M. Mistry, Gait and trajectoryrolling planning and control of hexapod robots for disasterrescue applications, Robotics and Autonomous Systems, 95,2017, 13–24.
  21. [21] H. Yu, H. Gao, L. Ding, M. Li, Z. Deng, and G. Liu, Gaitgeneration with smooth transition using CPG-based locomotioncontrol for hexapod walking robot, IEEE Transactions onIndustrial Electronics, 63(9), 2016, 5488–5500.
  22. [22] L. Chen, G. Zhong, Y. Hou, W. Zhuo, and W. Nie, Thecontrol of a multi-legged robot based on Hopf oscillator, Proc.2017 IEEE 3rd Information Technology and MechatronicsEngineering Conf. (ITOEC), Chongqing, 2017, 371–375.
  23. [23] W. Zhang, Q. Gong, H. Yang, and Y. Tang, CPG modulatesthe omnidirectional motion of a hexapod robot in unstructuredterrain, Journal of Bionic Engineering, 20, 2023, 558–567.
  24. [24] Y. Zhu and B. Jin, Compliance control of a legged robotbased on improved adaptive control: Method and experiments,International Journal of Robotics and Automation, 31(5), 2016,366–373.
  25. [25] Z. Hua, X. Rong, Y. Sun, Y. Li, H. Chai, and C. Wang,A Novel Passive Compliance Method for Hydraulic ServoActuator Applied on Quadruped Robots, International Journalof Robotics and Automation, 37(1), 2022, 76–87.
  26. [26] F. Zhang, S. Zhang, Q. Wang, Y. Yang, and B. Jin, Straight gaitresearch of a small electric hexapod robot, Applied Sciences,11(8), 2021, 3714.

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