Abstract
Under the thousands of meters deep ocean, manned deep-ocean submersible will not only encounter extreme pressure in deep ocean and other unknown work environment, but experience wave slap and wobble caused by wind and wave when launching and retrieving submersible, so the changing ocean work environment requires high reliability on manned submersible.
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References
Agarwal H, Renaud JE, Mack JD. A decomposition approach for reliability-based multidisciplinary design optimization. In: 44th AIAA/ASME/ASCE/AHS structures, structural dynamics, and materials conference. Norfolk, Virginia, AIAA 2003-1778
Agarwal H, Renaud JE, LeeJ C, Watson LT (2004) A unilevel method for reliability based design optimization. In: Proceedings of the 45th AIAA/ASME/ASCE/AHS/ASC structures, structural dynamics, and materials conference, AIAA2004–2029. Palm Springs, CA
Anxi C (2008) Multidisciplinary design optimization methods and application research for HOV. PhD thesis of Shanghai Jiaotong University. (操安喜. 载人潜水器多学科设计优化方法及其应用研究. 上海交通大学博士学位论文, 2008)
Binbin P, Weicheng C, Cong Y, Zhengyuan L (2012) Development of the unpowered descent and ascent system for jiaolong HOV. J Ship Mech 16(1–2):58–71. (潘彬彬, 崔维成, 叶聪, 刘正元. 蛟龙号载人潜水器无动力潜浮运动分析系统开发. 船舶力学, 2012,Vol. 16, No.1-2, pp. 58-71.)
Binbin P, Weicheng C (2010) Multidisciplinary design optimization of whole ship structure based on finite element method. China Ship Build 51(1):47–54. (潘彬彬,崔维成. 基于有限元的整船结构多学科设计优化. 中国造船, 2010, Vol. 51, No.1, pp. 47-54.)
CCS (2011) Principles of drawing review and inspection of deep-sea manned submersible. (中国船级社. 深海载人潜水器审图和检验原则. 2011.)
Cao AX, Cui WC (2008) Multidisciplinary design optimization method applied to a HOV design. In: International conference of INMARTECH2008, All Seasons Hotel. France
Chen XG, Hasselman TK, Neill DJ, Reliability based structural design optimization for practical applications. AIAA-97–1403, pp 2724–2732
Choi KK, Youn BD, Du L (2005) Integration of reliability- and possibility-based design optimization using performance measure approach. In: Keynote paper 2005 SAE world congress. Detroit, MI
Choi KK, Youn BD, Yang R (2001) Moving least square method for raliability-based design optimization. In: Proceedings of the 4th world congress of structural and multidisciplinary optimization. Dalian, China
Committee on Future Needs in Deep Submergence Science (CFNDSC). Future Needs in Deep Submergence Science: Occupied and Unoccupied Vehicles in Basic Ocean Research, National Research Council, ISBN: 0-309-52917-4, 152 pages, The National Academies Press, 2004. This PDF is available from the National Academies Press at: http://www.nap.edu/catalog/10854.html
Cui W, Hu Y, Guo W et al (2014) A preliminary design of a movable laboratory for hadal trenches. Methods Oceanogr 9:1–16
Depei S, Changchun L (1991) Structural strength of submersible. Shanghai jiao tong university press. (施德培,李长春. 潜水器结构强度[M]. 上海交通大学出版社,1991.)
Deremaux Y, Pietremont N, Négrier J, Herbin E, Ravachol M (2008) Environmental MDO and uncertainty hybrid approach applied to a supersonic business jet. In: 12th AIAA/ISSMO multidisciplinary analysis and optimization conference. Victoria, British Columbia Canada, AIAA 2008-5832
Dong WM, Shah HC, Vertex method for computing functions of fuzzy variables. FSS24, pp 65–78
Fan H, Li WJ (2008) An efficient method for reliability-based multidisciplinary design optimization. Chin J Aeronaut 21:335–340
Geethaikrishnan C, Mujumdar PM, Sudhakar K, Adimurthy V (2010) A Hybrid MDO architecture for launch vehicle conceptual design. In: 51st AIAA/ASME/ASCE/AHS/ASC structures, structural dynamics, and materials conference < BR > 18th. Orlando, Florida. AIAA 2010-2757
Guo J (2008) Uncertainty analysis and sentivity analysis for multidisciplinary systems design. PhD thesis of Missouri University of Science and Technology
Gündüz ME, Software integration for automated stability analysis and design optimization of a bearingless rotor blade. PhD thesis of Daniel Guggenheim School of Aerospace Engineering in Georgia Institute of Technology
Hawkes G (2009) The old arguments of manned versus unmanned systems are about to become irrelevant: new technologies are game changers. Marine Technol Soc J 43(5):164–168
Helton J, Johnson J, Oberkampf W (2007) An exploration of alternative approaches to the representation of uncertainty in model predictions. Reliab Eng Syst Saf 85(1–3):39–71
Jianguo Z, Duo S, Yingwei L (2008) Reliability analysis and optimization of mechanical products. Electronic industry press. (张建国,苏多,刘英卫(编著). 机械产品可靠性分析与优化[M]. 北京:电子工业出版社,2008.)
Jimao Z (1992) Submersible design. Shanghai jiao tong University Press. (朱继懋. 潜水器设计[M]. 上海交通大学出版社, 1992.)
Kim HM (2001) Target cascading in optimal system design. PhD Dissertation, Department of Mechanical Engineering, University of Michigan
Kohnen W (2009) Human exploration of the deep seas: fifty years and the inspiration continues. Marine Technol Soc J 43(5):42–62
Li M, Azarm S (2008) Multiobjective collaborative robust optimization with interval uncertainty and interdisciplinary uncertainty propagation. J Mech Des 130
Liu B (1999) Uncertain Programming. Wiley, New York
Liu W (2007) Application of multidisciplinary design optimization method in the overall design of 7000m Manned submersible [D]. Shanghai Jiao Tong University, 2007. (刘蔚. 多学科设计优化方法在7000 米载人潜水器总体设计中的应用[D]. 上海: 上海交通大学,2007.)
Liu B, Iwamura K (1998b) Chance constrainted programming with fuzzy parameters. Fuzzy Sets Syst 94:227–237
Liu B, Liu YK (2002) Expected value of fuzzy variable and fuzzy expected value models. IEEE Trans Fuzzy Syst 10:445–450
Liu B, Iwamura K (1998) A note on chance constrained programming with fuzzy coeffieients. Fuzzy Sets Syst 100:229–233
Liu B (2006) A survey of credibility theory. Fuzzy Optim Decis Making 5(4)
Liu B (2002) Toward fuzzy optimization without mathematical ambiguity. Fluzzy Optim Decis Making l:43–63
Lu B, Liu T, Cui WC (2004) Ultimate strength of pressure spherical hull in deep-sea manned submersibles. J Ship Mech 8(1):51–58 (in Chinese)
Lévêque JP, Drogou JF (2006) Operational overview of NAUTILE deep submergence vehicle since 2001. New Orleans, LA, Underwater Intervention 2006. In: Proceedings of Underwater Intervention Conference. New Orleans, LA. Published by Marine Technology Society
Momma H (1999) Deep ocean technology at JAMSTEC. Mar Technol Soc J 33:49–64
Nanba N, Morihana H, Nakamura E et al (1990) Development of deep submergence research vehicle “SHINKAI 6500”. Tech Rev Mitsubish Heavy Ind Ltd 27:157–168
Neufeld D, Chung J, Behdinan K (2009) Aircraft conceptual design optimization with uncertain contributing analyses. In: AIAA modeling and simulation technologies conference. Chicago, Illinois, AIAA 2009-6237
Ohno D, Shibata Y, Tezuka H, Morihana H, Seki R (2004) A design study of manned deep submergence research vehicles in Japan. MTS J 38(1):40–51
Padula SL, Gillian RE (2006) Multidisciplinary environments: a history of engineering framework development. In 11th AIAA/ISSMO multidisciplinary analysis and optimization conference. Portsmouth, Virginia. AIAA 2006-7083
Paliy OM (1991) Weight characteristics, reliability and operational safety of deep-sea submersible hulls. In: International symposium on marine structures (ISM’91). Shanghai, China, pp 197–199
Pan BB, Cui WC (2010) An overview of buckling and ultimate strength of spherical pressure hull under external pressure. Marine Struct 23:227–240
Pan BB, Cui WC, Leng WH (2009) Multidisciplinary design optimization of surface vessels. J Ship Mech 13(3):378–387
Pan BB, Cui WC, Shen YS (2012) Experimental verification of the new ultimate strength equation of spherical pressure hulls. Marine Struct. https://doi.org/10.1016/j.marstruc.2012.05.007
Pan BB, Cui WC (2011a) On an appropriate design and test standard for spherical pressure hull in a deep manned submersible. In: Presented at advanced underwater technology for the ocean symposium on underwater technology 2011 and workshop on scientific use of submarine cables & related technologies 2011, IIS conference Hall, “Haricot”. Tokyo, Japan
Pan BB, Cui WC (2011b) A comparison of different rules for the spherical pressure hull of manned submersible. J Ship Mech 15(3):276–285
Pan BB, Cui WC (2011c) Structural optimization of the manned pressure hull of a deep manned submersible based on a new safety standard. In: International conference on computation, and experimental engineering and science (ICCES). Nanjing, China. Session: Theory, Analysis and Design of Shell Structures
Peng G (2009) Application of sequential collaborative optimization method in the design of deep-sea space station structure system. PhD thesis of Shanghai Jiaotong University. (苟鹏. 序列协同优化方法在深海空间站结构系统设计中的应用. 上海交通大学博士学位论文, 2009.)
Qu X, Venkataraman S, Haftka RT, Johnson TF (2001) Reliability, weight, and cost tradeoffs in the design of composite laminates for cryogenic environments. In: AIAA Paper 2001-1327, Proceedings of the AIAA/ASME/ASCE/AHS/ASC 42nd structures, structural dynamics and materials conference. Seattle, Washington
Rules for certification/classification of submersibles, published by Det Norske Veritas (DNV) in 1988
Rules for building and classing underwater vehicles, systems and hyperbaric facilities 2010, published by American Bureau of Shipping (ABS) in 2010
Rules and Regulations for the classification of submersibles, published by Bureau Veritas (BV) in 1989
Rules and Regulations for the construction and classification of submersibles and underwater systems, published by Lloyd’s Register (LR) in 1989
Rules for the survey and construction of steel ships contents, published by Nippon Kaiji Kyokai (NK) (publishing year unknown)
Rules for the classification and construction of manned submersibles, ship’s diving systemsand passenger submersibles, published by Russian Maritime Register of Shipping (RS) in 2004
Rules for the classification and construction of diving systems and submersibles, publish by China Classification Society (CCS) in 1996
Rules for Classification and Construction,1-Ship Technology,5-Underwater Technology,2-Manned Submersibles, published Germanischer Lloyd Aktiengesellschaft (GL) in 2009
Sagalevitch AM (2009) From the bathyscaph trieste to the submersibles mir. Marine Technol Soc J 43(5):79–86
Sagalevitch AM, Experience of the use of manned submersibles in P. P. Shirshov Institute of Oceanology of the Russian Academy of Sciences. In: Proceeding of the 1998 international symposium on under-water technology, p 403
Sakalkar V, Hajela P (2011) Multilevel decomposition based nondeterministic design optimization for structural systems. Adv Eng Softw 42:1–11
Savoia M (2002) Structural reliability analysis through fuzzy number approach, with application to stability. Comput Struct 80:1087–1102
Taylor L, Lawson T (2009) Project deepsearch: an innovative solution for accessing the oceans. Marine Technol Soc J 43(5):169–177
Tu J, Choi KK (1999) A new Study on reliability-based design optimization. J Mech Des 121(4):557–564
Vadim VK, Jury KM (1999) About designing experience of submarines and deep submersibles from titanium alloys in Bureau “MALACHITE”. In: Titanium’99, p 1125
Van Dover C (eds) (2009) 6500 m HOV Project: A-4500 HOV project execution plan
Walsh D (2009) In the beginning… a personal view. Marine Technol Soc J 43(5):9–14
Wang ZL, Wang RH, Yu MH, Li LB (2007) The influence of the initial imperfections on the ultimate strength of manned deep-sea submersible pressure sphere hull. Shipbuild China 48(2):45–50
Weck OD, Agte J, Sobieski JS, Arendsen P, Morris A, Spieck M (2007) State-of-the-Art and future trends in multidisciplinary design optimization. In: 48th AIAA/ASME/ASCE/AHS/ASC structures, structural dynamics, and materials conference < br > 15th. Honolulu, Hawaii. AIAA 2007-1905
Wei L, Anxi C, Peng G, Weicheng C (2008) BLH based MDO frame for deepsea HOV general design. Ship Mech 12(1):110–117. (刘蔚, 操安喜,苟鹏,崔维成. 基于BLH框架的大深度载人潜水器总体性能的多学科设计优化. 船舶力学,2008, 第12卷第1期, pp.110-117.)
Wei L (2007) Application of MDO method in the design of 7000 m rating HOV design. PhD thesis of Shanghai Jiaotong University. (刘蔚. 多学科设计优化方法在7000米载人潜水器总体设计中的应用. 上海交通大学博士学位论文, 2007.)
Weicheng C, Zhen H, Cong Y, Binbin P (2011) Current status and future trends for deep manned submersibles. J Central South Univer (Science and Technology) 42(Suppl. 2):13–20. (崔维成, 胡震, 叶聪, 潘彬彬 (2011) 深海载人潜水器技术的发展现状与趋势, 中南大学学报 (自然科学版), 第42卷增刊 2, 13-20)
Yao W, Chen XQ, Luo WC, Tooren MV, Guo J (2011) Review of uncertainty-based multidisciplinary design optimization methods for aerospace vehicles. Prog Aerosp Sci 47:450–479
Yokota K, Murata T (1986–1987) Research on pressure hull for deep submergence research vehicle made of titanium alloy. Tech Rev Mitsubish Heavy Ind Ltd 23(4):440–2
Youn BD, Choi KK (2001) Hybrid analysis method for reliability-based design optimization. J Mech Des ASME 125(2):221–232 and Proceedings of 2001 ASME design engineering technical conferences: 27th design automation conference, Number DETC/DAC-21044. Pittsburgh, PA
Zhengyuan L, Jianmin G (1992) Four elements method. J Nanjing Univer Sci Technol (Nature Science) 6(016). (刘正元, 顾建民. 系统四要素[J]. 南京理工大学学报 (自然科学版), 1992, 6: 016.)
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Pan, B., Cui, W. (2020). Application of Multi-disciplinary Design Optimization in Manned Submersible Design. In: Multidisciplinary Design Optimization and Its Application in Deep Manned Submersible Design. Ocean Engineering & Oceanography, vol 13. Springer, Singapore. https://doi.org/10.1007/978-981-15-6455-0_7
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