Novel meshes for multivariate interpolation and approximation

Proceedings of the ACMSE 2018 Conference Pub Date : 2018-03-29 DOI:10.1145/3190645.3190687
T. Lux, L. Watson, Tyler H. Chang, Jon Bernard, Bo Li, Xiaodong Yu, Li Xu, Godmar Back, A. Butt, K. Cameron, D. Yao, Yili Hong
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引用次数: 9

Abstract

A rapid increase in the quantity of data available is allowing all fields of science to generate more accurate models of multivariate phenomena. Regression and interpolation become challenging when the dimension of data is large, especially while maintaining tractable computational complexity. This paper proposes three novel techniques for multivariate interpolation and regression that each have polynomial complexity with respect to number of instances (points) and number of attributes (dimension). Initial results suggest that these techniques are capable of effectively modeling multivariate phenomena while maintaining flexibility in different application domains.
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新颖的多元插值和逼近网格
可用数据量的迅速增加使所有科学领域都能够产生更精确的多元现象模型。当数据维数较大时,特别是在保持可处理的计算复杂性的情况下,回归和插值变得具有挑战性。本文提出了三种新的多元插值和回归技术,每种技术在实例数(点)和属性数(维)方面都具有多项式复杂度。初步结果表明,这些技术能够有效地建模多变量现象,同时在不同的应用领域保持灵活性。
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Proceedings of the ACMSE 2018 Conference
Proceedings of the ACMSE 2018 Conference
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