Tao Ren, Qingyou Liu, Yonghua Chen, and Shouhong Ji


  1. [1] W. Guangrong, M. Peisun, L. Yanming, C. Xi, and S. Hong, The mobile robot for outer surface inspection of boiler tubes, International Journal of Robotics and Automation, 19(1), 2004, 36–41.
  2. [2] G. Granosik, Hypermobile robots – the survey, Journal of Intelligent & Robotic Systems, 75(1), 2014, 147–169.
  3. [3] J. Tiratsoo, The ultimate guide to unpiggable pipelines, (Melbourne, Victoria, Australia: Pipelines International, 2013).
  4. [4] A. Shukla and H. Karki, Application of robotics in onshore oil and gas industry – a review Part I, Robotics and Autonomous Systems, 75, 2016, 490–507.
  5. [5] I.N. Ismail, A. Anuar, K.S.M. Sahari, M.Z. Baharuddin, M. Fairuz, and J.M. Saad, Development of in-pipe inspection robot: A review, Sustainable Utilization and Development in Engineering and Technology (STUDENT), IEEE Conference on, 2012, 310–315.
  6. [6] N.S. Roslin, A. Anuar, M.F.A. Jalal, and K.S.M. Sahari, A review: hybrid locomotion of in-pipe inspection robot, Procedia Engineering, International Symposium on Robotics and Intelligent Sensors, 41, 2012, 1456–1462.
  7. [7] H.P. Huang, J.L. Yan, and T.H. Cheng, Development and fuzzy control of a pipe inspection robot, Industrial Electronics, IEEE Transactions on, 57(3), 2010, 1088–1095.
  8. [8] A.A. Nassiraei, Y. Kawamura, A. Ahrary, Y. Mikuriya, and K. Ishii, Concept and design of a fully autonomous sewer pipe inspection mobile robot “KANTARO, Robotics and Automation, 2007 IEEE International Conference on, IEEE, 2007, 136–143.
  9. [9] E.C. Dertien, Design of an inspection robot for small diameter gas distribution mains, Ph.D. thesis, University of Twente, 2014.
  10. [10] T, Nishihara, K. Osuka, and I. Tamura, Development of a simulation model for inner-gas-pipe inspection robot: SPRING, Proceedings of SICE Annual Conference, 2010, 902–904.
  11. [11] D. Tang, Q. Li, S. Jiang, Z. Deng, and H. Liu, Design and analysis of a pipeline robot with the function of differential movement, Jixie Gongcheng Xuebao (Chinese Journal of Mechanical Engineering), 47(13), 2011, 1–8.
  12. [12] H.M. Kim, Y.S. Choi, H.M. Mun, S.U. Yang, C.M. Park, and H.R. Choi, 2-2D differential gear mechanism for robot moving inside pipelines, In Intelligent Robots and Systems (IROS), 2015 IEEE/RSJ International Conference on, 2015, 1152–1157.
  13. [13] J. Borenstein, M. Hansen, and A. Borrell, The OmniTread OT-4 serpentine robot – design and performance, Journal of Field Robotics, 24(7), 2007, 601–621.
  14. [14] Q. Liu, T. Ren, and Y. Chen, Characteristic analysis of a novel in-pipe driving robot, Mechatronics, 23(4), 2013, 419–428.
  15. [15] Q. Liu, Y. Chen, T. Ren, and Y. Wei, Optimized inchworm motion planning for a novel in-pipe robot, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 228(7), 2014, 1248–1258.
  16. [16] R. Tao, Y. Chen, and L. Qingyou, A helical drive in-pipe robot based on compound planetary gearing, Advanced Robotics, 28(17), 2014, 1165–1175.
  17. [17] J.M. Mirats Tur and W. Garthwaite, Robotic devices for water main in-pipe inspection: A survey, Journal of Field Robotics, 27(4), 2010, 491–508.
  18. [18] M.M. Moghaddam, M. Arbabtafti, and A. Hadi, In-pipe inspection crawler adaptable to the pipe interior diameter, International Journal of Robotics and Automation, 26(2), 2011, 135.
  19. [19] M. Horodinc˘a, A. Preumont, and I. Burda, The heli-pipe inspection robots architecture for curved pipes, 2003, 155–160.
  20. [20] T. Li, S. Ma, B. Li, M. Wang, and Y. Wang, Axiomatic design method to design a screw drive in-pipe robot passing through varied curved pipes, Science China Technological Sciences, 59(2), 2016, 191–202.
  21. [21] A. Kakogawa and S. Ma, Experimental verification of analytical torques enabling a screw drive in-pipe robot to pass through bent pipes, Robotics and Biomimetics (ROBIO), 2011 IEEE International Conference on, IEEE, 2011, 1742–1747.
  22. [22] T. Nishimura, A. Kakogawa, and S. Ma, Pathway selection mechanism of a screw drive in-pipe robot in T-branches, Automation Science and Engineering (CASE), 2012 IEEE International Conference on, IEEE, 2012, 612–617.
  23. [23] A. Kakogawa and S. Ma, Stiffness design of springs for a screw drive in-pipe robot to pass through curved pipes and vertical straight pipes, Advanced Robotics, 26(3–4), 2012, 253–276.
  24. [24] M. Horodinca, I. Doroftei, E. Mignon, and A. Preumont, A simple architecture for in-pipe inspection robots, Proc. Int. Colloq. Mobile, Autonomous Systems, Magdeburg, Germany, June 2002, 61–64.
  25. [25] T. Kamegawa, T. Baba, and A. Gofuku, V-shift control for snake robot moving the inside of a pipe with helical rolling motion, Safety, Security, and Rescue Robotics (SSRR), 2011 IEEE International Symposium on IEEE, 2011, 1–6.

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