GLOBAL PATH PLANNING OF CLIMBING ROBOT FOR WELD QUALITY INSPECTION IN LARGE SCALE STORAGE TANKS

Ruifeng Wang, Shichao Gu, Xiaoguang Liu, Hao Zhang, Zhihao Xu, Jia Pan, and Xuefeng Zhou

References

1. [1] M.A.S. Teixeira, H.B. Santos, A.S. De Oliveira, L.V.R. DeArruda, and F. Neves, Environment identification and pathplanning for autonomous NDT inspection of spherical storagetanks, Proc. IEEE/Latin American Robotics Symposiumand IV Brazilian Robotics Symposium, Recife, Brazil, 2016,193–198.10
2. [2] J. Shang, T. Sattar, S. Chen, and B. Bridge, Design of a climbingrobot for inspecting aircraft wings and fuselage, IndustrialRobot: An International Journal, 34(6), 2006, 495–502.
3. [3] T.S. White, R. Alexander, G. Callow, A. Cooke, S. Harris, and J.Sargent, A mobile climbing robot for high precision manufactureand inspection of aerostructures, The International Journal ofRobotics Research, 24(7), 2005, 589–598.
4. [4] G. Jing, X. Qin, H. Wang, and C. Deng, Developments,challenges, and perspectives of railway inspection robots,Automation in construction, 138, 2022, 104242.
5. [5] H. Huang, D. Li, Z. Xue, X.L. Chen, S. Liu, and J. Leng,Design and performance analysis of a tracked wall-climbingrobot for ship inspection in shipbuilding, Ocean Engineering,131, 2017, 224–230.
6. [6] R. Enjikalayil Abdulkader, P. Veerajagadheswar, N. Htet Lin, S.Kumaran, S.R. Vishaal, and R.E. Mohan, Sparrow: A magneticclimbing robot for autonomous thickness measurement in shiphull maintenance, Journal of Marine Science and Engineering,8(6), 2022, 469.
7. [7] D. Kim, Y.S. Kim, K. Noh, M. Jang, and S. Kim, Wall-climbing robot with active sealing for radiation safety of nuclearpower plants, Nuclear Science and Engineering, 194(12), 2020,1162–1174.
8. [8] X. Feng, L. Gao, W. Tian, R. Wei, Z. Wang, and Y. Chen,Application of wall climbing welding robot in automatic weldingof island spherical tank, Journal of Coastal Research, 107(SI),2020, 1–4.
9. [9] X. Du, Z. Ling, Y. Chen, Y. Li, and L. Sun, Research on grindingmechanism of wall-climbing grinding robot for large sphericaltank, IEEE/World Conference on Mechanical Engineering andIntelligent Manufacturing, Shanghai, China, 2019, 466–469.
10. [10] L. Liu, X. Wang, X. Yang, H. Liu, J. Li, and P. Wang,Path planning techniques for mobile robots: Review andprospect, Expert Systems with Applications, 227, 2023,120254.
11. [11] R. Almadhoun, T. Taha, L. Seneviratne, and Y. Zweiri, A surveyon multi-robot coverage path planning for model reconstructionand mapping, SN Applied Sciences, 1, 2019, 1–24.
12. [12] F. Heidari and R. Fotouhi, A human-inspired method forpoint-to-point and path-following navigation of mobile robots,Journal of Mechanisms and Robotics, 7(4), 2015, 041025.
13. [13] E. Galceran and M. Carreras, A survey on coverage pathplanning for robotics, Robotics and Autonomous systems,61(12), 2013, 1258–1276.
14. [14] M.A.V.J. Muthugala, S.M.B.P. Samarakoon, and M.R. Elara,Toward energy-efficient online complete coverage path planningof a ship hull maintenance robot based on glasius bio-inspiredneural network, Expert Systems with Applications, 187, 2022,115940.
15. [15] A.K. Lakshmanan, R.E. Mohan, B. Ramalingam, A.V. Le,P. Veerajagadeshwar, and K. Tiwari, Complete coverage pathplanning using reinforcement learning for tetromino basedcleaning and maintenance robot, Automation in Construction,112, 2020, 103078.
16. [16] J. Wang, W. Chi, C. Li, C. Wang, and M.Q.H. Meng,Neural RRT: Learning-based optimal path planning, IEEETransactions on Automation Science and Engineering, 17(4),2020, 1748–1758.
17. [17] J. Wang, M.Q.H. Meng, and O. Khatib, EB-RRT: Optimalmotion planning for mobile robots, IEEE Transactions onAutomation Science and Engineering, 17(4), 2020, 2063–2073.
18. [18] A. Segato, F. Calimeri, I. Testa, V. Corbetta, M. Riva,and E. De Momi, A hybrid inductive learning-based anddeductive reasoning-based 3-D path planning method incomplex environments, Autonomous Robots, 46(5), 2022,645–666.
19. [19] M. Kennedy III, D. Thakur, M. Ani Hsieh, S. Bhattacharya,and V. Kumar, Optimal paths for polygonal robots in SE (2),Journal of Mechanisms and Robotics, 10(2), 2018, 021005.
20. [20] G. MeiGu, Historical review of the study and development ofthe China Postman Problem, Journal of Operations Research,19(03), 2015, 1–7 (in Chinese).
21. [21] O.C. Sokmen, S. Emec, M. Yilmaz, and G. Akkaya, An overviewof Chinese postman problem, Proc. International Conf. onAdvanced Engineering Technologies, Catania, Italy, 2019, 10.
22. [22] R. Mannadiar and I. Rekleitis, Optimal coverage of aknown arbitrary environment, Proc. IEEE/International Conf.on Robotics and Automation, Anchorage, AK, USA, 2010,5525–5530.
23. [23] Y. Wang, H. Zhu, Y. Yu, and B. Hu, The path planning andlocation method of inspection robot in a large storage tankbottom, Computational Intelligence and Neuroscience, 2023,3029545.
24. [24] J. Xue, J. Li, J. Chen, C. Tu, A. Stancu, and X. Wang,Wall-climbing robot path planning for cylindrical storage tankinspection based on modified A-star algorithm, Proc. IEEE/FarEast NDT New Technology & Application Forum, Kunming,China, 2021, 191–195.
25. [25] J. Li, S. Jin, C. Wang, J. Xue, and X. Wang, Weld linerecognition and path planning with spherical tank inspectionrobots, Journal of Field Robotics, 39(2), 2022, 131–152.
26. [26] K. Mei-Ko, Graphic programming using odd or even points,Chinese Mathematics, 1, 1962, 237–277.
27. [27] Z. Wu, Q. Wang, and Z. Liu, A solution method of the Chinesepostman problem, Operations Research and Management, 03,2004, 44–47 (in Chinese).
28. [28] J. Edmonds and E.L. Johnson, Matching, Euler tours andthe Chinese postman, Mathematical Programming, 5, 1973,88–124.
29. [29] R.W. Floyd, Algorithm 97: Shortest path, Communications ofthe ACM, 5(6), 1962, 345.
30. [30] K. Karur, N. Sharma, C. Dharmatti, and J.E. Siegel, A surveyof path planning algorithms for mobile robots, Vehicles, 3(3),2021, 448–468.
31. [31] J.A. Bondy and U.S.R. Murty, Graph theory with applications,(Waterloo, ON: University of Waterloo, 1976).
32. [32] H.W. Kuhn, The Hungarian method for the assignmentproblem, Naval Research Logistics Quarterly, 2(1–2), 1955,83–97.
33. [33] J. Munkres, Algorithms for the assignment and transportationproblems, Journal of the Society for Industrial and AppliedMathematics, 5(1), 1957, 32–38.
34. [34] D. Lyu, Z. Chen, Z. Cai, and S. Piao, Robot path planningby leveraging the graph-encoded Floyd algorithm, FutureGeneration Computer Systems, 122, 2021, 204–208.
35. [35] B. Dussault, B. Golden, C. Gro¨er, and E. Wasil, Plowingwith precedence: A variant of the windy postman problem,Computers & Operations Research, 40(4), 2013, 1047–1059.
36. [36] Y. Ding, Z. Sun, and Q. Chen, Non-contacted permanentmagnetic absorbed wall-climbing robot for ultrasonic weldinspection of spherical tank, MATEC Web of Conferences EDPSciences, 269, 2019, 02013.

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• Abstract
• DOI: 10.2316/J.2024.206-1164
• From Journal (206) International Journal of Robotics and Automation - 2024

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