Development of simulation systems for telemanipulators in confined cell facilities |
Yu, Seungnam
(Korea Atomic Energy Research Institute)
Ryu, Dongsuk (Korea Atomic Energy Research Institute) Han, Jonghui (Korea Atomic Energy Research Institute) Lee, Jongkwang (Korea Atomic Energy Research Institute) Lee, Hyojik (Korea Atomic Energy Research Institute) Park, Byungsuk (Korea Atomic Energy Research Institute) |
1 | O. Sourina, et al., Virtual orthopedic surgery training on personal computer, Int. J. Inf. Technol. 6 (1) (2000). |
2 | C. Chabal, et al., EMM-3D: a virtual environment for evaluating maintenability from CAD models, Laval Virtual 2005 (2005). |
3 | O. David, F.X. RussTMo, M.D.S. Simoes, Y. Measson, Collision avoidance, virtual guides and advanced supervisory control teleoperation techniques for hightech construction: framework design, Autom. Construct. 44 (2014) 63-72. DOI |
4 | P. Garrec, Y. Perrot, Force feedback nuclear telerobotics in France: R&D results and industrial achievements, in: Puresafe Final Conference, CERN, 2015. |
5 | J.M. Detriche, Innovations in dismantling robotics, Nucl. Eng. Des. 182 (No. 3) (1998) 267-276. DOI |
6 | Radioactive Waste Management Committee, Remote Handling Techniques in Decommissioning, NEA/RWM/R, Nuclear Energy Agency, 2011. |
7 | D.J. Hyun, S.U. Lee, Y.C. Seo, G.H. Kim, J.H. Lee, K.S. Jeong, B.S. Choi, J.K. Moon, Seamless remote dismantling system for heavy and highly radioactive components of Korean nuclear power plants, Ann. Nucl. Energy 73 (2014) 39-45. DOI |
8 | B.S. Choi, D.J. Hyun, I.J. Kim, J.H. Lee, J.K. Moon, Virtual Decommissioning Simulator for Preliminary Verification of Dismantling Scenarios over Nuclear Facilities, D&RS, Pittsburgh, PA, 2016, 2016. |
9 | D.J. Hyun, I.J. Kim, J.H. Lee, G.H. Kim, K.S. Jeong, User interface technology to reduce mental Transformations for tangible remote dismantling simulator, in: Transactions of the Korean Nuclear Society Autumn Meeting, 2015. |
10 | R. Shepard, Mental rotation of three-dimensional objects, Science 171 (1971) 701-703. DOI |
11 | X. Gong, Triangle Mesh Based In-Process Workpiece Update for General Milling Processes, ASME IDETC/CIE, 2013. |
12 | T. Moller, A fast triangle-triangle intersection test, J. Graph. Tools 2 (1997) 25-30. |
13 | C. Bruyns, Survey of interactive mesh-cutting techniques and a new method for implementation generalized interactive mesh cutting using virtual tools, J. Vis. Comput. Animat. 13 (2002) 21-42. |
14 | S. Williams, M. Ounpuu, K. Sarbutt, Bench and pilot plant programs for flotation circuit design, Miner. Process. Plant Des. Pract. Contr. (2002) 145-159. |
15 | Website: http://krse.co.kr/english/product/prod_01.html (Accessed on February, 2019). |
16 | S.N. Yu, et al., Ergonomic analysis of tele-operation tasks and remote handling devices for a pyroprocessing facility, J. Ergon. Soc. Korea 32 (1) (2013) 17-26. DOI |
17 | S.N. Yu, J.K. Lee, S.H. Kim, B.S. Park, K.H. Kim, I.J. Cho, Evaluation of telemanipulation performance for pyroprocessing equipment using computational simulation and mock-up test, in: Annual Spring Conference of KSME (Korea Society of Mechanical Engineers) in 2014, 2014, pp. 190-191. |
18 | H. Lee, G.-i. Park, J.-w. Lee, et al., Current status of pyroprocessing development at KAERI, Sci. Technol. Nucl. Install. 2013 (2013), 343492. |
19 | J. Hur, D.-h. Ahn, Demonstration of engineering scale pyroprocessing at the PRIDE facility, in: ISACAT, 2015. |
20 | S.N. Yu, J.H. Lim, H.S. Im, H.J. Lee, Equipment layout improvement for largescale hot cell facility logistics, Sci. Technol. Nucl. Install. 2017 (2017), 4585120, 11 pages. |
21 | Website: https://www.plm.automation.siemens.com/global/en/products/tecnomatix (Accessed on February, 2019). |
22 | J. Wernecke, The inventor mentor programming object-oriented 3D graphics with open inventor, Release 2 (1996) 123-137. |
23 | A.M. Lopes, J. Santos, H. Peixoto, A.A. Sousa, M.T. Restivo, Human-machine real-virtual haptic interaction systems, in: 9th International Conference Virtual University, 2008. |
24 | M. Lin, K. Salisbury, Haptic rendering-beyond visual computing, IEEE Comput. Graph. Appl. 2 (2004) 22-23. DOI |
25 | C.H. Choi, S.H. Kim, H.J. Lee, J.K. Lee, K.H. Kim, A haptic device interface for the operation of the virtual arm, in: International Conference on Control, Automation and Systems 2010, 2010, pp. 1755-1758. |
26 | J. Hudi, R. Spies, Integration of digital mock-up and multibody simulation in the product-development process, in: International ADAMS User'Conference, 1999, pp. 17-18. |
27 | K. Salisbury, F. Conti, F. Barbagli, Haptic rendering: introductory concepts, IEEE Comput. Graph. Appl. 24 (2) (2004) 24-32. DOI |
28 | I.J. Cho, J.H. Han, S.N. Yu, et al., Development of engineering scale pyro-processing facility-PRIDE, in: The 52nd HOTLAB Meeting, 2015. |
29 | Website: https://www.lanner.com/en-gb/insights/news/taking-discreteevent-simulation-to-the-next-level.html (Accessed on February, 2019). |
30 | D.S. Ryu, J.H. Han, J.K. Lee, H.J. Lee, Automation testbed for remote basket handling in a hot cell, in: HOTLAB 2017, 2017. |
31 | Website: https://www.lanner.com/en-gb/technology/witness-simulationsoftware.html (Accessed on February, 2019). |