Preliminary design of a production automation framework for a pyroprocessing facility |
Shin, Moonsoo
(Department of Industrial and Management Engineering, Hanbat National University)
Ryu, Dongseok (Korea Atomic Energy Research Institute) Han, Jonghui (Korea Atomic Energy Research Institute) Kim, Kiho (Korea Atomic Energy Research Institute) Son, Young-Jun (Systems and Industrial Engineering Department, University of Arizona) |
1 | W.I. Ko, H.H. Lee, S. Choi, S.-K. Kim, B.H. Park, H.J. Lee, I.T. Kim, H.S. Lee, Preliminary conceptual design and cost estimation for Korea advanced pyroprocessing facility plus (KAPF+), Nuclear Engineering and Design 277 (2014) 212-224. DOI |
2 | M. Shin, T. Ryu, K. Ryu, Agent-based production simulation of TFT-LCD fab driven by material handling requests, International Journal of Industrial Engineering 21 (2014) 396-407. |
3 | B.C. Park, E.S. Park, B.K. Choi, B.H. Kim, J.H. Lee, Simulation based planning and scheduling system for TFT-LCD fab, in: 40th Conference on Winter Simulation, Winter Simulation Conference, 2008, pp. 2271-2276. |
4 | B.R. Mehta, Y.J. Reddy, Chapter 23-manufacturing Execution Systems, Industrial Process Automation Systems, Butterworth-Heinemann, Oxford, 2015, pp. 593-607. |
5 | M.P. Groover, Automation, Production Systems, and Computer-integrated Manufacturing, Prentice Hall Press, 2007. |
6 | B. Scholten, The Road to Integration: a Guide to Applying the ISA-95 Standard in Manufacturing, International Society of Automation, 2007. |
7 | ISA, ISA95, Enterprise-control System Integration, International Society of Automation, 2016. https://www.isa.org/isa95/. |
8 | ISA, Enterprise-control System Integration - Part 3: Activity Models of Manufacturing Operations Management, International Society of Automation, 2013. https://www.isa.org/store/products/product-detail/?productId=116782#sthash.uzPtF2wO.dpuf. |
9 | M. Rolon, E. Martinez, Agent-based modeling and simulation of an autonomic manufacturing execution system, Computers in Industry 63 (2012) 53-78. DOI |
10 | M. Shin, J. Mun, K. Lee, M. Jung, r-FrMS: a relation-driven fractal organisation for distributed manufacturing systems, International Journal of Production Research 47 (2009) 1791-1814. DOI |
11 | H. Van Brussel, J. Wyns, P. Valckenaers, L. Bongaerts, P. Peeters, Reference architecture for holonic manufacturing systems: PROSA, Computers in Industry 37 (1998) 255-274. DOI |
12 | P. Leitao, F. Restivo, ADACOR: a holonic architecture for agile and adaptive manufacturing control, Computers in Industry 57 (2006) 121-130. DOI |
13 | O. Morariu, T. Borangiu, S. Raileanu, vMES: virtualization aware manufacturing execution system, Computers in Industry 67 (2015) 27-37. DOI |
14 | J.K. Lee, H.J. Lee, B.S. Park, K. Kim, Bridge-transported bilateral mastereslave servo manipulator system for remote manipulation in spent nuclear fuel processing plant, Journal of Field Robotics 29 (2012) 138-160. DOI |
15 | A. Borshchev, The Big Book of Simulation Modeling: Multimethod Modeling with AnyLogic 6, AnyLogic North America Chicago, 2013. |
16 | K. Kim, J. Lee, B. Park, S. Kim, S. Yu, D. Ryu, J. Han, I. Cho, Remote manipulator systems for pyroprocessing facility application, in: 44th International Symposium on Robotics (ISR), 2013, pp. 1-5. |
17 | M.S. Yang, Korean strategy for sustainable nuclear energy development, in: 2012 International Pyroprocessing Research Conference (IPRC 2012), Fontana, USA, 2012. |
18 | G.-S. You, I.-J. Cho, W.-M. Choung, E.-P. Lee, D.-H. Hong, W.-K. Lee, J.-H. Ku, Concept and safety studies of an integrated pyroprocess facility, Nuclear Engineering and Design 241 (2011) 415-424. DOI |
19 | S.-I. Moon, W.-M. Chong, G.-S. You, J.-H. Ku, H.-D. Kim, Preliminary conceptual study of engineering-scale pyroprocess demonstration facility, Nuclear Engineering and Design 259 (2013) 71-78. DOI |