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Uncertainty Quantification for Polynomial Systems via Bernstein Expansions.

机译：通过Bernstein展开的多项式系统的不确定性量化。

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This paper presents a unifying framework to uncertainty quantification for systems having polynomial response metrics that depend on both aleatory and epistemic uncertainties. The approach proposed, which is based on the Bernstein expansions of polynomials, enables bounding the range of moments and failure probabilities of response metrics as well as finding supersets of the extreme epistemic realizations where the limits of such ranges occur. These bounds and supersets, whose analytical structure renders them free of approximation error, can be made arbitrarily tight with additional computational effort. Furthermore, this framework enables determining the importance of particular uncertain parameters according to the extent to which they affect the first two moments of response metrics and failure probabilities. This analysis enables determining the parameters that should be considered uncertain as well as those that can be assumed to be constants without incurring significant error. The analytical nature of the approach eliminates the numerical error that characterizes the sampling-based techniques commonly used to propagate aleatory uncertainties as well as the possibility of under predicting the range of the statistic of interest that may result from searching for the best- and worstcase epistemic values via nonlinear optimization or sampling.

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作者
Crespo, L. G.; Kenny, S. P.; Giesy, D. P.;
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年度 2012
页码 1-25
总页数 25
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Polynomials; Uncertain systems; Numerical analysis; Probability theory; Performance tests; Reliability analysis; Optimization; Bernstein energy principle; Error analysis; Nonlinear equations;

机译：多项式;不确定系统;数值分析;概率论;性能测试;可靠性分析;优化; Bernstein能量原理;误差分析;非线性方程;

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机译：使用混合状态和参数不确定性的非线性动力系统的广义多项式混沌扩展的不确定性定量
2. Efficient polynomial chaos expansion for uncertainty quantification in power systems [J] . Metivier David, Vuffray Marc, Misra Sidhant Electric power systems research . 2020,第Deca期

机译：高效多项式混沌扩展，用于电力系统的不确定性量化
3. Uncertainty quantification of nonlinear distributed parameter systems using generalized polynomial chaos [J] . ChettapongJanya-anurak, ThomasBernard, JürgenBeyerer Automatisierungstechnik: Methoden und Anwendungen der Steuerungs-, Regelungs- und Informationstechnik . 2019,第4期

机译：使用广义多项式混沌的非线性分布参数系统的不确定度量
4. Uncertainty Quantification for Polynomial Systems via Bernstein Expansions [C] . Luis G. Crespo, Sean P. Kenny, Daniel P. Giesy AIAA/ASME/ASCE/AHS/ASC structures, structural dynamics and materials conference . 2012

机译：通过Bernstein展开的多项式系统不确定度量化。
5. Data-Driven Polynomial Chaos Expansions for Uncertainty Quantification [D] . Liu, Zhanlin. 2020

机译：用于不确定性量化的数据驱动多项式混沌扩展
6. Numerical Solutions of the Nonlinear Fractional-Order Brusselator System by Bernstein Polynomials [O] . Hasib Khan, Hossein Jafari, Rahmat Ali Khan, -1

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7. Uncertainty Quantification for Polynomial Systems via Bernstein Expansions [O] . Giesy, Daniel P., Crespo, Luis G., Kenny, Sean P. 2012

机译：通过Bernstein展开的多项式系统不确定度量化。

Uncertainty Quantification for Polynomial Systems via Bernstein Expansions.

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