高维的样本和计算效率随机克里格

IF 0.7 4区 管理学 Q3 Engineering
Liang Ding, Xiaowei Zhang
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引用次数: 2

摘要

高维仿真元建模随机克里格法已被广泛应用于仿真元建模,以预测复杂仿真模型的响应面。然而,它的使用仅限于设计空间是低维的情况下,因为样本复杂性(即,产生准确预测所需的设计点的数量)在设计空间的维数中呈指数增长。大样本量导致运行模拟模型的样本成本过高,并且由于需要反转大的协方差矩阵而导致严重的计算挑战。为了解决这个长期存在的挑战,丁亮和张晓伟在他们最近的论文《高维的样本和计算效率随机克里格》中,开发了一种基于张量马尔可夫核和稀疏网格实验设计的新方法,极大地缓解了维数的诅咒。该方法在样本复杂度和计算复杂度上都有理论保证,在高达16675维的数值问题上表现出优异的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sample and Computationally Efficient Stochastic Kriging in High Dimensions
High-dimensional Simulation Metamodeling Stochastic kriging has been widely employed for simulation metamodeling to predict the response surface of complex simulation models. However, its use is limited to cases where the design space is low-dimensional because the sample complexity (i.e., the number of design points required to produce an accurate prediction) grows exponentially in the dimensionality of the design space. The large sample size results in both a prohibitive sample cost for running the simulation model and a severe computational challenge due to the need to invert large covariance matrices. To address this long-standing challenge, Liang Ding and Xiaowei Zhang, in their recent paper “Sample and Computationally Efficient Stochastic Kriging in High Dimensions”, develop a novel methodology — based on tensor Markov kernels and sparse grid experimental designs — that dramatically alleviates the curse of dimensionality. The proposed methodology has theoretical guarantees on both sample complexity and computational complexity and shows outstanding performance in numerical problems of as high as 16,675 dimensions.
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来源期刊
Military Operations Research
Military Operations Research 管理科学-运筹学与管理科学
CiteScore
1.00
自引率
0.00%
发文量
0
审稿时长
>12 weeks
期刊介绍: Military Operations Research is a peer-reviewed journal of high academic quality. The Journal publishes articles that describe operations research (OR) methodologies and theories used in key military and national security applications. Of particular interest are papers that present: Case studies showing innovative OR applications Apply OR to major policy issues Introduce interesting new problems areas Highlight education issues Document the history of military and national security OR.
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