참고문헌
- Amann, H., Oebius, H.U., Gehbauer, F., Schwarz, W., and Weber, R.(1991), "Soft Ocean Mining," Proc Offshore Tech Conf, Houston, Paper 6553. https://doi.org/10.4043/6553-MS
- Brink, A.W. and Chung, J.S. (1981), "Automatic Position Control of a 300,000-Ton Ship Ocean Mining System," Proc Offshore Tech Conf, Houston, Paper 4091. https://doi.org/10.1115/1.3230417
- Chung, J.S. (1996), "Deep-ocean Mining. Technologies for Manganese Nodules and Crusts," Int J Offshore and Polar Eng, ISOPE, Vol. 6, No. 4, pp. 244-254.
- Chung, J.S. (2003), "Deep-ocean Mining Technology. Learning Curve I," Proc 5th ISOPE Ocean Mining Sym, Tsukuba, November, pp. 1-6.
- Deepak, C.R., Shajahan, M.A., Atmanand, M.A., and Annamalai, K.(2001), "Development Tests on the Underwater Mining System Using Flexible Riser Concept," Proc 4thISOPE Ocean Mining Sym, Szczecin, pp. 94-98.
- Edward J. H. (1989), Computer-Aided Kinematics and Dynamics of Mechanical Systems, Allyn and Bacon
- Handschuh, R., Grebe, H., Panthel, J., Schulte, E., Wenzlawski, B., Schwarz, W., Atmanand, M.A., Jeyamani, R., Shajahan, M., Deepak, C., and Ravindran, M. (2001), "Innovative Deep Ocean Mining Concept based on Flexible Riser and Self-propelled Mining Machines," Proc 4th ISOPE Ocean Mining Sym, Szczecin, pp. 99-107.
- Herrouin, G., Lenoble, J.P., Charles, C., Mauviel, F., Bernard, J., and Taine, B. (1989), "A Manganese Nodule Industrial Venture Would Be Profitable. Summary of a 4-Year Study in France," Proc Offshore Tech Conf, Houston, Paper 5997. https://doi.org/10.4043/5997-MS
- Hong, S. (1992), Three dimensional nonlinear static and dynamic analysis of flexible risers, doctoral dissertation (in German), Univ of Aachen.
- Hong, S. (1995), "Three Dimensional Analysis on Behaviour of Mining Pipe of Deep Seabed Mineral Resources," Proc 1st ISOPE Ocean Mining Sym, Tsukuba, pp. 69-74.
- Hong, S. (1997), "3D Dynamic Analyses of Lifting Pipe Systems in Deep Seabed Mining," Proc 2nd ISOPE Ocean Mining Sym, Seoul, pp. 75-81.
- Hong, S. and Kim, K. (1999), "Proposed Technologies for Mining Deep-Seabed Polymetallic Nodules-Chap 12 Research and Development of Deep Seabed Mining Technologies for Polymetallic Nodules in Korea," Proc International Seabed Authority’s Workshop, Kingston, Jamaica, pp. 261-283.
- Hong, S., Kim, H.W., and Choi, J.S. (2002), "Transient Dynamic Analysis of Tracked Vehicle on Extremely Soft Cohesive Soil," Proc 5th ISOPE Pacific/Asia Offshore Mechanics Sym, Daejeon, pp. 100-107.
- Hong, S., Kim, H.W., and Choi, J.S. (2003), "A New Method Using Euler Parameters for 3D Nonlinear Analysis of Marine Risers/Pipelines," Proc 5th ISOPE Ocean Mining Sym, Tsukuba, pp. 83-90.
- Hong, S., Choi, J.S., and Kim, H.W. (2003), "Effects of Internal Flow on Dynamics of Underwater Flexible Pipes," Proc 5th ISOPE Ocean Mining Sym, Tsukuba, pp. 91-98.
- Kim, H.W., Hong, S., and Choi, J.S. (2003), "Comparative Study on Tracked Vehicle Dynamics on Soft Soil. Single-Body Dynamics vs. Multi-Body Dynamics," Proc 5th ISOPE Ocean Mining Sym, Tsukuba, pp. 132-138.
- Kim, H.W., Hong, S., Choi, J.S., and Yeu, T.K. (2005), "Dynamic Analysis of Underwater Tracked Vehicle on Extremely Soft Soil by Using Euler Parameters", Proc 6th ISOPE Ocean Mining Sym, Changsha, pp. 141-148.
- Liu, F. and Yang, N. (1999), Proposed Technologies for Mining Deep-Seabed Polymetallic Nodules ?"Chap 9 Environmentally Friendly Deep Seabed Mining System," Proc International Seabed Authority’s Workshop, Kingston, Jamaica, pp. 187-211.
피인용 문헌
- Numerical Analysis of Deep Seawater Flow Disturbance Characteristics Near the Manganese Nodule Mining Device vol.36, pp.4, 2014, https://doi.org/10.4217/OPR.2014.36.4.475
- A Study on the Efficient Flexible Multibody Dynamics Modeling of Deep Seabed Integrated Mining System with Subsystem Synthesis Method vol.39, pp.12, 2015, https://doi.org/10.3795/KSME-A.2015.39.12.1213
- Structural Integrity Monitoring of the Marine Riser with Composite Structure vol.5, pp.4, 2014, https://doi.org/10.11004/kosacs.2014.5.4.044
- Deep Seawater flow Characteristics Around the Manganese Nodule Collecting Device vol.116, 2015, https://doi.org/10.1016/j.proeng.2015.08.324