Review and Improvement of the Finite Moment Problem

F. Hjouj, M. Jouini
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引用次数: 13

Abstract

Background: This paper reviews the Particle Size Distribution (PSD) problem in detail. Mathematically, the problem faced while recovering a function from a finite number of its geometric moments has been discussed with the help of the Spline Theory. Undoubtedly, the splines play a major role in the theory of interpolation and approximation in many fields of pure and applied sciences. B-Splines form a practical basis for the piecewise polynomials of the desired degree. A high degree of accuracy has been obtained in recovering a function within the first ten to fifteen geometric moments. The proposed approximation formula has been tested on several types of synthetic functions. This work highlights some advantages, such as the use of a practical basis for the approximating space, the exactness of computing the moments of these basis functions and the reduction of the size along with an appropriate transformation of the resulting linear system for stability. Objective: The aim is to recover a function from a finite number of its geometric moments. Methods: The main tool is the Spline Theory. Undoubtedly, the role of splines in the theory of interpolation and approximation in many fields of pure and applied sciences has been wellestablished. B-Splines form a practical basis for the piecewise polynomials of the desired degree. Results: A high degree of accuracy has been obtained in recovering a function within the first ten to fifteen geometric moments. The proposed approximation formula is tested on several types of synthetic functions. Conclusion: This work highlights some advantages, such as the use of a practical basis for the approximating space, the exactness of computing the moments of these basic functions and the reduction of the size along with the data transformation of the resulting linear system for stability.
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有限矩问题的回顾与改进
背景:本文对颗粒尺寸分布(PSD)问题进行了详细的综述。在数学上,利用样条理论讨论了从有限个几何矩中恢复函数所面临的问题。毫无疑问,样条曲线在纯科学和应用科学的许多领域的插值和近似理论中起着重要的作用。b样条为期望次数的分段多项式提供了实用的基础。在恢复前10到15个几何矩内的函数时,获得了很高的精度。所提出的近似公式已在几种类型的合成函数上进行了检验。这项工作突出了一些优点,例如使用实用的基来逼近空间,计算这些基函数的矩的准确性,以及减小大小以及对所得到的线性系统进行适当的变换以保持稳定性。目的:目的是从有限的几何矩中恢复一个函数。方法:以样条理论为主要工具。毫无疑问,在纯科学和应用科学的许多领域中,样条在插值和近似理论中的作用已经得到了很好的确立。b样条为期望次数的分段多项式提供了实用的基础。结果:在恢复前10到15个几何矩内的函数时获得了很高的精度。在几种类型的综合函数上对所提出的近似公式进行了检验。结论:本工作突出了一些优点,如使用实用的基础来逼近空间,计算这些基本函数的矩的准确性,以及减小线性系统的大小以及对结果进行数据变换以保持稳定性。
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