DESIGN AND CONTROL OF A BIO-INSPIRED CLIMBING ROBOT, 144-152.

Priyabrata Chattopadhyay and Sanjoy K. Ghoshal

References

1. [1] H. Amano, K. Osuka, and T.-J. Tarn, Development of vertically moving robot with gripping handrails for fire fighting,IEEE/RSJ Int. Conf. on Intelligent Robots and Systems, USA,2001, 661–667.
2. [2] C. Balaguer, A. Gimenez, A.J. Huete, and A.M. Sabatini,The MATS robot: Service climbing robot for personal assistance, IEEE Robotics and Automation Magazine, 13(1), 2006,51–58.
3. [3] Y. Yoon and D. Rus, Shady3D: A robot that climbs 3D trusses,IEEE International Conf. on Robotics and Automation, ICRA,Italy, 2007, 4071–4076.
4. [4] S. Kim, A.T. Asbeck, M.R. Cutkosky, and W.R. Provancher,SpinybotII: Climbing hard walls with compliant micro-spines,Proc. of 12th Int. Conf. on Advanced Robotics, ICAR, 05,USA, 2005, 601–606.
5. [5] M.J. Spenko, G.C. Haynes, J.A. Saunders, M.R. Cutkosky,A.A. Rizzi, R.J. Full, et al., Biologically inspired climbing witha hexapodal robot, Journal of Field Robotics, 25(4–5), 2008,223–242.
6. [6] A. Sintov, T. Avramovich, and A. Shapiro, Design and motionplanning of an autonomous climbing robot with claws, Roboticsand Autonomous Systems, 59(11), 2011, 1008–1019.
7. [7] K. Daltorio, A. Horchler, S. Gorb, R. Ritzmann, and R.Quinn, A small wall-walking robot with compliant, adhesivefeet, IEEE/RSJ Conf. on Intelligent Robots and Systems,Canada, 2005, 4018–2023.
8. [8] S. Kim, M. Spenko, S. Trujillo, B. Heyneman, D. Santos,and M.R. Cutkosky, Smooth vertical surface climbing withdirectional adhesion, IEEE Transactions on Robotics, 24(1),2008, 65–74.
9. [9] O. Unver, A. Uneri, A. Aydemir, and M. Sitti, Geckobot: Agecko inspired climbing robot using elastomer adhesives, IEEEInt. Conf. on Robotics and Automation, Orlando, FL, 1(3),2006, 2329–2335.
10. [10] M.P. Murphy and M. Sitti, Waalbot: An agile small-scale wallclimbing robot utilizing dry elastomer adhesives, IEEE/ASMETransactions on Mechatronics, 12(3), 2007, 330–338.
11. [11] J.Z. Xiao, A.M. Sadegh, M. Elliot, A. Calle, A. Persad,and H.M. Chiu, Design of mobile robots with wall climbingcapability, Proc. of the IEEE/ASME Int. Conf. on AdvancedIntelligent Mechatronics, USA, 2005, 438–443.
12. [12] X. Chen, M. Wager, M. Nayyerloo, and W. Wang, A novel wallclimbing robot based on Bernoulli effect, IEEE/ASME Int.Conf. on Mechatronic and Embedded Systems and Applications,China, 2008, 378–383.
13. [13] A. Nagakubo and S. Hirose, Walking and running of thequadruped wall-climbing robot, Proc. of the IEEE Int. Conf.on Robotics and Automation, San Diego, 1994, 1005–1012.
14. [14] R.T. Pack, J.L. Christopher, and K. Kawamura, Arubbertuator-based structure climbing inspection robot, Proc.of the IEEE Int. Conf. on Robotics and Automation, USA,1997, 1869–1874.
15. [15] A. Albagul, A. Asseni1, and O. Khalifa, Wall climbing robot:mechanical design and implementation, Proc. of 5th WSEASInt. Conf. on Circuits, Systems, Signal and Telecommunications, Wisconsin, USA, 2011, 28–32.
16. [16] F. Yangqiong and S. Libo, Design and analysis of modularmobile robot with magnetic wheels, WSEAS Transactions onApplied and Theoretical Mechanics, 3(12), 2008, 902–911.
17. [17] W. Fischer, F. Tache, and R. Siegwart, Magnetic wall climbingrobot for thin surfaces with specific obstacles, Proc. of the 6thInt. Conf. on Field and Service Robotics, France, 42, 2007,551–561.
18. [18] J.C. Grieco, M. Prieto, M. Armada, and P.G. De Santos, Asix-legged climbing robot for high payloads, Proc. of the IEEEInt. Conf. on Control Applications, Italy, 1, 1998, 446–450.
19. [19] B. Kennedy, A. Okon, H. Aghazarian, M. Badescu, X. Bao,Y. Bar-Cohen, et al., Lemur IIb: A robotic system for steepterrain access, Industrial Robot: An International Journal,33(4), 2006, 265–269.
20. [20] H. Prahlad, B. Pelrine, S. Stanford, J. Marlow, and R. Kornbluh, Electroadhesive robots—wall climbing robots enabledby a novel, robust, and electrically controllable adhesion technology, IEEE Int. Conf. on Robotics and Automation, USA,2008, 3028–3033.
21. [21] L. Qu, L. Dai, M. Stone, and Z. Xia, Carbon nanotubearrays with strong shear binding-on and easy normal lifting-off,Science, 322(5899), 2008, 238–242.
22. [22] K. Kotay and D. Rus, The inchworm robot: A multi-functionalsystem, Autonomous Robots, 8(1), 2000, 53–69.
23. [23] W. Wang, K. Wang, and H. Zhang, Crawling gait realizationof the mini-modular climbing caterpillar robot, Progress inNatural Science, 19(12), 2009, 1821–1829.
24. [24] Y. Wang, H. Lang, H. Lin, and C.W. de Silva, Vision-based grasping using mobile robots and non-linear modelpredictive control, Mechatronic Systems and Control, 2012.doi: 10.2316/Journal.201.2012 .1.201-2305.
25. [25] J. Zhao, H. Pu, Y. Sun, S. Ma, Y. Shen, J. Luo, et al.,Stability analysis and gait planning of a quadruped robot basedon the eccentric paddle mechanism, Mechatronic Systems andControl, 2014. doi: 10.2316/Journal.201.2014.4.201-2624.
26. [26] M.T. Khan, M.U. Qadir, A. Abid, F. Nasir, and C.W. deSilva, Robot fault detection using an artificial immune system (AIS), Mechatronic Systems and Control, 2015. doi:10.2316/Journal.201.2015.2.201-2704.

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• DOI: 10.2316/J.2019.201-3003
• From Journal (201) Mechatronic Systems and Control - 2019

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