Abstract
The reliability based multidisciplinary design optimization is composed of reliability design and multidisciplinary design optimization. The preceding part of the paper has introduced the theory and key technology of multidisciplinary design optimization, as well as the basis of reliability design: Uncertainty theory and reliability analysis.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Agarwal H (2004) Reliability based design optimization: formulations and methodologies. PhD thesis, Notre Dame
Allen M, Maute K (2004) Reliability-based design optimization of aeroelastic structures. Struct Multi O 27:228–242
Ang A, Tang WH (1984) Risk and reliability. Wiley, New York
Baabbad MA (2004) Reliability-based design optimization of a nonlinear elastic plastic thin-walled t-section beam. PhD Dissertation, Dept. of Aerospace and Ocean Engineering, Virginia Polytechnic Inst. and State Univ., Blacksburg, VA
Burton SA, Hajela P (2002) Variable complexity reliability-based optimization with neural network augmentation. In: AIAA 2002-1474
Chen XG, Hasselman TK, Neill DJ (1997) Reliability based structural design optimization for practical applications. In: AIAA-97-1403, pp 2724–2732
Choi KK, Youn BD (2002) On probabilistic approaches for reliability-based design optimization (RBDO). In: 9th AIAA/ISSMO symposium on multidisciplinary analysis and optimization. Atlanta, Georgia, AIAA-2002-5472
Du L (2006) Reliability-based and possibility-based design optimization using inverse analysis methods. PhD thesis of graduate college of the university of Iowa
Du X, Chen W (2002) Sequential optimization and reliability assessment method for efficient probabilistic design. In: Proceedings of the ASME design engineering technical conference, vol 2. American Societyof Mechanical Engineers, pp 871–880
Gayton N, BourinetJ M, Lamaire M (2003) CQ2RS: a new statistical approach to the response surface method for reliability analysis. Struct Saf 25(1):99–121
He Q, LI Y, AO L, Wen Z, Yue Q (2011) Reliability and multidisciplinary design optimization of turbine blades based on single cycle method. Propulsion Technology (5), 658–663. (贺谦, 李元生,
良波, 温志勋, 岳珠峰. (2011). 基于单循环方法的
轮叶片可靠性及多学科设计优化. 推进技术(5), 658-663.)Huang H, Yu H, Yuan Y, Zhang X, Li Y (2009) Optimization of multidisciplinary reliability design based on single discipline feasible method. Acta Aerophenica Sinica 30(010):1871–1876. (黄洪钟, 余辉, 袁亚辉, 张小玲, & 李彦锋. (2009). 基于单学科可行法的多学科可靠性设计优化. 航空学报, 30(010), 1871-1876.)
Krishnamurthy T, Romero VJ (2002) Construction of response surface with higher order continuity and its application to reliability engineering. In: AIAA 2002-1466
Lee J, Yang Y, Ruy W (2002) A comparative study on reliability-index and target-performance-based probabilistic structural design optimization. Comput Sand Struct 80(3–4):257–269
Li F (2008) Collaborative product design under uncertainty. PhD thesis of Arizona State University
Liu D, Choi KK, Youn BD, Gorsich D (2006) Possibility-based design optimization method for design problems with both statistical and fuzzy input data. Trans ASME 128:928–935
Maglaras G, Nikolaidis E, Haftka RT et al (1997) Analytical-experimental comparison of probabilitic and fuzzy set based methods for designing under uncertainty. Struct Optim 13:69–80
Meng D, Huang H-W, Xu H, Zhang X, Zhang X (2011) A method for uncertainty analysis of multidisciplinary systems – Improvement of collaborative uncertainty analysis. Chinese J Mech Eng (19):133–139. (孟德彪, 黄洪钟, 许焕卫, 张小玲, & 张旭东. (2011). 一种多学科系统不确定性分析方法——协同不确定性分析法的改进. 机械工程学报(19), 133-139.)
Pan BB, Cui WC (2008) Multidisciplinary design optimization methods for ship design. J Ship Mech 12(6):914–931
Pan BB, Cui WC, He L (2009) A ship hull transform program for multidisciplinary design optimization. J Ship Mech 13(6):886–894
Papadrakakis M, Lagaros ND (2002) Reliability-based structural optimization using neural networks and montecarlo simulation. Comput Methods Appl Mech Eng 191(32):3491–3507
Qing X, Hong C, Shifeng Z (2010) Application of reliability optimization method in multidisciplinary design optimization of airborne missiles. J Missile Guidance 30(1):40–42. (夏青, 蔡洪, 张士峰. 可靠性优化方法在飞航导弹多学科设计优化中的应用. 弹箭与制导学报, 2010, 30(1), pp. 40-42.)
Royset JO, DerKiureghian A, Polak E (2001) Reliability-based optimal design of series structural systems. J Eng Mech 127(6):607–614
Savoia M (2002) Structural reliability analysis through fuzzy number approach, with application to stability. Comput Struct 80:1087–1102
Simpson TW, Toropov V, Balabanov V, Viana FAC (2008) Design and analysis of computer experiments in multidisciplinary design optimization: a review of how far we have come-or not. In: 12th AIAA/ISSMO multidisciplinary analysis and optimization conference. Victoria, British Columbia Canada. AIAA 2008-5802
Smith N (2007) Probabilistic design of multidisciplinary systems. PhD thesis of Vanderbilt University
Wang L, Grandhi RV, Hopkins DA (1995) Structural reliability optimization using an efficient safety index calculation procedure. Int J Numer Meth Eng 38:1721–1738
Wu YT, Wang W (1998) Efficient probabilistic design by converting reliability constraints to approximately equivalent deterministic constraints. Trans SDPS, J Integr. Des Process Sci 2:13–21
Wu YT, Shin Y, Sues R, Cesare M (2001) Safety-factor based approach for probability-based design optimization. In: Proceedings of the 42rd AIAA/ASME/ASCE/AHS/ASC structures, structural dynamics, and materials Conference,AIAA2001–1522, Seattle, WA
Yang RJ, Gu L (2004) Experience with approximate reliability-based optimization. Struct Multi Optim 26:152–159
Yu M, Liu Y, Li L, Li Y, Yue Q (2012) Reliability-based multidisciplinary design optimization of centrifugal impeller with double-loop strategy. Acta Aeronautica et Astronautica Sinica (4). (于明, 刘永寿, 李磊, 李元生, & 岳珠峰. (2012). 基于双循环的离心叶轮多学科可靠性优化设计. 航空学报, 33(004), 650–657.)
Yuan W, Huang H, Wu J (2005) A new multi-discipline design optimization method based on reliability. In: Proceedings of Vehicle and engineering equipment quality and reliability forum, 2005 national conference on mechanical reliability. (原薇, 黄洪钟, & 吴宝贵. (2005). 一种新的基于可靠性的多学科设计优化方法初探. 2005年全国机械可靠性学术交流会暨"车
与工程装备质量与可靠性论坛"论文集.)Yunping L, Jun Z, Bing Z, Jin S (2013) Optimization of multidisciplinary reliability design based on Bliss and PMA. Acta Aeronautica sinica, 34(010):2349–2356. (刘云平, 张俊, 张冰, & 孙瑾. (2013). 基于bliss和pma的多学科可靠性设计优化. 航空学报, 34(010), 2349–2356.)
良波, 温志勋, 岳珠峰. (2011). 基于单循环方法的
轮叶片可靠性及多学科设计优化. 推进技术(5), 658-663.)
与工程装备质量与可靠性论坛"论文集.)Author information
Authors and Affiliations
Corresponding author
Rights and permissions
Copyright information
© 2020 Zhejiang Science and Technology Publishing House Co., Ltd. and Springer Nature Singapore Pte Ltd.
About this chapter
Cite this chapter
Pan, B., Cui, W. (2020). Reliability Based Multi-disciplinary Design Optimization Based on Reliability. 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_5
Download citation
DOI: https://doi.org/10.1007/978-981-15-6455-0_5
Published:
Publisher Name: Springer, Singapore
Print ISBN: 978-981-15-6454-3
Online ISBN: 978-981-15-6455-0
eBook Packages: Mathematics and StatisticsMathematics and Statistics (R0)