Probabilistic density function estimation of geotechnical shear strength parameters using the second Chebyshev orthogonal polynomial

Xi-bing Li; Feng-qiang Gong; Jian Deng

doi:10.1007/s11771-006-0123-4

Journal of Central South University ›› 2006, Vol. 13 ›› Issue (3) : 275 -280. DOI: 10.1007/s11771-006-0123-4

Article

Probabilistic density function estimation of geotechnical shear strength parameters using the second Chebyshev orthogonal polynomial

Author information +

History +

PDF

Abstract

A method to estimate the probabilistic density function (PDF) of shear strength parameters was proposed. The second Chebyshev orthogonal polynomial (SCOP) combined with sample moments (the origin moments) was used to approximate the PDF of parameters. x² test was adopted to verify the availability of the method. It is distribution-free because no classical theoretical distributions were assumed in advance and the inference result provides a universal form of probability density curves. Six most commonly-used theoretical distributions named normal, lognormal, extreme value I, gama, beta and Weibull distributions were used to verify SCOP method. An example from the observed data of cohesion c of a kind of silt clay was presented for illustrative purpose. The results show that the acceptance levels in SCOP are all smaller than those in the classical finite comparative method and the SCOP function is more accurate and effective in the reliability analysis of geotechnical engineering.

Keywords

shear strength / second Chebyshev orthogonal polynomial / probabilistic density function / origin moments

Cite this article

Download citation ▾

Xi-bing Li, Feng-qiang Gong, Jian Deng. Probabilistic density function estimation of geotechnical shear strength parameters using the second Chebyshev orthogonal polynomial. Journal of Central South University, 2006, 13(3): 275-280 DOI:10.1007/s11771-006-0123-4

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	DengJian, LiXi-bin, GuDe-sheng. A distribution-free method using maximum entropy and moments for estimating probability curves of rock variables[J]. International Journal of Rock Mechanics and Mining Sciences, 2004, 41(3): 1-6

[2]	GongFeng-qiang, LiXi-bing, DengJian. The inference of probabilistic distribution of geotechnical parameter by using Orthogonal polynomial[J]. Geotechnical Engineering Technique, 2005, 19(3): 144-147(in Chinese)

[3]	SuYong-hua, HeMan-chao, SunXiao-ming. Approach on asymptotic approximations of polynomials for probability density function of geotechnics random parameters[J]. Chinese Journal of Geotechnical Engineering, 2001, 23(1): 117-119(in Chinese)

[4]	FAN Ming-qiao. Probability property of shear strength parameters of refilled clay [J]. Journal of Nanjing Hydraulic Research Institute, 2000, (1): 49–53. (in Chinese)

[5]	ChenLi-hong, ChenZu-yu, LiuJin-mei. Probability distributions of soil strength[J]. Rock and Soil Mechanics, 2005, 26(1): 37-40(in Chinese)

[6]	NiWan-kui, HanQi-long. Statistical analysis of physical and mechanical indexes of the typical loess [J]. Journal of Engineering Geology, 2001, 9(1): 62-67(in Chinese)

[7]	LuoChong, YinKun-long, ChenLi-xia, et al. . Probability distribution fitting and optimization of shear strength parameters in sliding zone along horizontal-stratum landslides in Wanzhou city[J]. Chinese Journal of Rock Mechanics and Engineering, 2005, 24(9): 1588-1593(in Chinese)

[8]	WuT H, KraftL M. The probability of foundation safety[J]. Journal of Soil Mechanics and Foundation Division, American Society of Civil Engineering, 1967, 93: 213-231

[9]	YanChun-feng, LiuDong-yan, ZhangJian-hui, et al. . The susceptibility analysis of reliability for the probability distribution types of parameters in strength criterion[J]. Chinese Journal of Rock Mechanics and Engineering, 1999, 18(1): 36-39(in Chinese)

[10]	LumbP. Safety factors and the probability distribution of soil strength[J]. Canadian Geotechnical Journal, 1970, 7(3): 225-241

[11]	LiXiao-yong, XieKang-he, YuYan. Probabilistic characteristics of strength indexes for Taiyuan silty caly[J]. Journal of Zhejiang University, 2001, 35(5): 492-496(in Chinese)

[12]	YanChun-feng, XuJianThe probability model of rock intensity criterion and its application [M], 1999, Chongqing, Chong Qing University Press(in chinese)

[13]	XuChao, YangLin-de. Test of goodness of fit of random variables and Bayesian estimation of distribution parameters [J]. Journal of Tongji University, 1998, 26(3): 340-344(in Chinese)

[14]	DengJian, BianLi. Estimation probability curves of rock variables using orthogonal polynomials and sample moments[J]. Journal of Central South University of Technology, 2005, 12(3): 349-353

[15]	ErGuo-kang. A method for multi-parameter PDF estimation of random variables[J]. Structural Safety, 1998, 18(1): 25-36

[16]	ZongZ, LamK Y. Bayesian estimation of complicated distributions[J]. Structural Safety, 2000, 22(1): 81-95

[17]	GautschiW. Orthogonal polynomials (in Matlab) [J]. Journal of Computational and Applied Mathematics, 2005, 178(1–2): 215-234

[18]	KennedyC A, LennoxW C. Solution to the practical problem of moments using non-classical orthogonal polynomials, with applications for probabilistic analysis[J]. Probabilistic Engineering Mechanics, 2000, 15(4): 371-379

[19]	NedarniiO I, OsiporS P. Approximate energy spectrum of a high-intensity bremsstrahlung source derived from attenuation curve by method of moments [J]. Russian Journal of Nondestructive Testing, 2001, 37(1): 667-671