A Global Robust Optimization Using Kriging Based Approximation Model

Jsme International Journal Series C-mechanical Systems Machine Elements and Manufacturing Pub Date : 2006-09-15 DOI:10.1299/JSMEC.49.779

Kwon-Hee Lee, G. Park

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引用次数: 70

Abstract

The current trend of design methodologies is to make engineers objectify or automate the decision-making process. Numerical optimization is an example of such technologies but it may produce uncontrollable uncertainties. To increase manageability of such uncertainties, the Taguchi method, reliability-based optimization and robust optimization are commonly being used. The main functional requirement of a mechanical system is to obtain the target performance with maximum robustness. In this research, a design procedure for global robust optimization is developed using kriging and global optimization approaches. Robustness is determined by kriging model to reduce a number of real functional calculations. The simulated annealing algorithm of global optimization methods is adopted to determine the global robust optimum of a surrogate model. As the postprocess, the global optimum is further refined by applying the first-order second-moment approximation method. Mathematical problems and the MEMS design problem are investigated to show the validity of the proposed method.

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基于Kriging逼近模型的全局鲁棒优化

当前设计方法的趋势是使工程师的决策过程客观化或自动化。数值优化是此类技术的一个例子，但它可能产生不可控的不确定性。为了提高这种不确定性的可管理性，通常使用田口方法、基于可靠性的优化和鲁棒优化。机械系统的主要功能要求是获得具有最大鲁棒性的目标性能。在本研究中，利用kriging方法和全局优化方法，建立了全局鲁棒优化的设计过程。鲁棒性是通过kriging模型来确定的，以减少一些实际的函数计算。采用全局优化方法中的模拟退火算法确定代理模型的全局鲁棒最优解。作为后处理，采用一阶二阶矩逼近法进一步细化全局最优解。通过对数学问题和MEMS设计问题的研究，验证了该方法的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Jsme International Journal Series C-mechanical Systems Machine Elements and Manufacturing

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