Estimating probability curves of rock variables using orthogonal polynomials and sample moments

被引：0

作者：

Jian Deng

Li Bian

机构：

[1] Central South University,School of Resources and Safety Engineering

[2] Central South University,School of Business

来源：

Journal of Central South University of Technology | 2005年 / 12卷

关键词：

rock variables; probability curve; orthogonal polynomials; conventional moments; probability-weighted moments; TU 457; TU413.6;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

A new algorithm using orthogonal polynomials and sample moments was presented for estimating probability curves directly from experimental or field data of rock variables. The moments estimated directly from a sample of observed values of a random variable could be conventional moments (moments about the origin or central moments) and probability-weighted moments (PWMs). Probability curves derived from orthogonal polynomials and conventional moments are probability density functions (PDF), and probability curves derived from orthogonal polynomials and PWMs are inverse cumulative density functions (CDF) of random variables. The proposed approach is verified by two most commonly-used theoretical standard distributions; normal and exponential distribution. Examples from observed data of uniaxial compressive strength of a rock and concrete strength data are presented for illustrative purposes. The results show that probability curves of rock variable can be accurately derived from orthogonal polynomials and sample moments. Orthogonal polynomials and PWMs enable more secure inferences to be made from relatively small samples about an underlying probability curve.

引用

页码：349 / 353

页数：4

共 18 条

[1] Deng Jian(2003)Pillar design by combining finite elements, neural networks and reliability: a case study of Feng Huangshan Mine in China[J] International Journal of Rock Mechanics and Mining Sciences 40 585-599
[2] Yue Zhong-qi(1995)Reliability-based stability analysis of rock excavations [J] International Journal of Rock Mechanics and Mining Sciences 32 617-620
[3] Quek S T(1979)Comparison of the percentage points of distributions with the same first four moments, chosen from eight different systems of frequency curves [J] Commun Statistics B 8 191-195
[4] Leung C F(2000)Solution to the practical problem of moments using non-classical orthogonal polynomials, with applications for probabilistic analysis[J] Probabilistic Engineering Mechanics 15 371-379
[5] Pearson E S(2004)A distribution-free method using maximum entropy and moments for estimating probability curves of rock variable[J] International Journal of Rock Mechanics and Mining Sciences 41 376-376
[6] Johnson N L(2000)Direct estimation of quantile functions using the maximum entropy principle [J] Structural Safety 22 61-79
[7] Burr I W(1996)Approximating probability density functions and their convolutions using orthogonal polynomials [J] European Journal of Operational Research 95 211-230
[8] Kennedy C A(1979)Probability-weighted moments: definition and relation to parameters of several distributions expressable in inverse form [J] Water Resources Research 15 1049-1054
[9] Lennox W C(1990)L-moments: Analysis and estimation of distributions using linear combinations of order statistics[J] Journal of the Royal Statistical Society, Series B 52 105-124
[10] Deng Jian(1990)Lower fractiles of material strength from limited test data [J] Structural Safety 12 67-75

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