| 交通工程、土木工程 |
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| 结构体系可靠度分析的改进支持向量回归 |
| 刘扬1,鲁乃唯1,2,蒋友宝1 |
| 1. 长沙理工大学 土木与建筑学院,湖南 长沙 410114; 2.东南大学 土木工程学院,江苏 南京 210096 |
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| Adaptive support vector regression method for structural system reliability analysis |
| LIU Yang1 , LU Nai wei1,2, JIANG You bao1 |
| 1. School of Civil Engineering and Architecture, Changsha University of Science and Technology, Changsha 410114, China;2. School of Civil Engineering, Southeast University, Nanjing 210096, China |
| [1] THOFT CHRISTENSEN P, MUROTSU Y. Application of structural systems reliability theory [M]. New York: Springer Science and Business Media, 2012.
[2] LEE Y J, SONG J. Finite element based system reliability analysis of fatigue induced sequential failures [J]. Reliability Engineering and System Safety, 2012, 108: 131-141.
[3] GOMES H M, AWRUCH A M. Comparison of response surface and neural network with other methods for structural reliability analysis [J]. Structural Safety, 2004, 26(1): 49-67.
[4] ROCCO C M, MORENO J A. Fast Monte Carlo reliability evaluation using support vector machine [J]. Reliability Engineering and System Safety, 2002, 76(3): 237-243.
[5] HURTADO J E, ALVAREZ D A. Classification approach for reliability analysis with stochastic finite element modeling [J]. Journal of Structural Engineering, 2003, 129(8): 1141-1149.
[6] CHEN K Y. Forecasting systems reliability based on support vector regression with genetic algorithms [J]. Reliability Engineering and System Safety, 2007, 92(4): 423432.
[7] 金伟良, 袁雪霞. 基于 LS—SVM 的结构可靠度响应面分析方法[J]. 浙江大学学报: 工学版, 2007, 41(1): 44-47.
JIN Wei liang, YUAN Xue xia. Response surface method based on LS SVM for structural reliability analysis [J]. Journal of Zhejiang University: Engineering Science, 2007, 41(1): 44-47.
[8] VAPNIK V. The nature of statistical learning theory [M]. Berlin: Springer, 2000.
[9] SCHOLKOPF B, SMOLA A J. Learning with kernels: support vector machines, regularization, optimization, and beyond [M]. Massachusetts: MIT, 2001.
[10] MOURA M C, ZIO E, LINS I D, et al. Failure and reliability prediction by support vector machines regression of time series data [J]. Reliability Engineering and System Safety, 2011, 96(11): 1527-1534.
[11] 孙文彩, 杨自春. 结构非概率可靠性分析的支持向量机分类方法[J]. 工程力学, 2012, 29(4): 150-154.
SUN Wen cai, YANG Zi chun. Support vector classification for structural non probabilistic reliability analysis [J]. Engineering Mechanics, 2012, 29(4): 150-154.
[12] DAI H, ZHAN H, WANG W. A support vector density based importance sampling for reliability assessment [J]. Reliability Engineering and System Safety, 2012, 106: 86-93.
[13] VANLI O A, JUNG S. Statistical updating of finite element model with Lamb wave sensing data for damage detection problems [J]. Mechanical Systems and Signal Processing, 2014, 42(1): 137-151.
[14] DEGRAUWE D, DE ROECK G, LOMBAERT G. Uncertainty quantification in the damage assessment of a cable stayed bridge by means of fuzzy numbers [J]. Computers and Structures, 2009, 87(17): 1077-1084.
[15] ZHAO Y G, ANG A H. On the first order third moment reliability method [J]. Structure and Infrastructure Engineering, 2012, 8(5): 517-527.
[16] KANG S C, KOH H M, CHOO J F. An efficient response surface method using moving least squares approximation for structural reliability analysis [J]. Probabilistic Engineering Mechanics, 2010, 25(4): 365-371.
[17] FRANGOPOL D M, IMAI K. Geometrically nonlinear finite element reliability analysis of structural systems. II: applications [J]. Computers and Structures, 2000, 77(6): 693-709.
[18] 朱劲松, 肖汝诚, 何立志. 大跨度斜拉桥智能可靠度评估方法研究[J]. 土木工程学报, 2007, 40(5): 41-48.
ZHU Jin song, XIAO Ru cheng, HE Li zhi. Reliability assessment of large span cable stayed bridges based on artificial intelligence [J]. China Civil Engineering Journal, 2007, 40(5): 41-48. |
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