The Pascal Triangle (1654), the Reed-Muller-Fourier Transform (1992), and the Discrete Pascal Transform (2005)

2016 IEEE 46th International Symposium on Multiple-Valued Logic (ISMVL) Pub Date : 2016-05-18 DOI:10.1109/ISMVL.2016.24

C. Moraga, R. Stankovic, M. Stankovic

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引用次数: 10

Abstract

This paper makes a theoretical comparative analysis of the Reed-Muller-Fourier Transform, Pascal matrices based on the Pascal triangle, and the Discrete Pascal Transform. The Reed-Muller-Fourier Transform was not originated by a Pascal matrix, however it happens to show a strong family resemblance with it, sharing several basic properties. Its area of application is the multiple-valued switching theory, mainly to obtain polynomial expressions from the value vector of multiple-valued functions. The Discrete Pascal Transform was introduced over a decade later, based on an ad hoc modification of a Pascal matrix, for applications on picture processing. It is however shown that a Discrete Pascal Transform of size p, taken modulo p equals the special Reed-Muller-Fourier Transform for the same p and n = 1. The Sierpinski fractal is close related to the Pascal matrix. Data structures based on the Sierpinski triangle have been successfully used to solve special problems in switching theory. Some of them will be addressed in the paper.

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帕斯卡三角(1654)、里德-穆勒-傅立叶变换(1992)和离散帕斯卡变换(2005)

本文对Reed-Muller-Fourier变换、基于帕斯卡三角的帕斯卡矩阵和离散帕斯卡变换进行了理论比较分析。里德-穆勒-傅里叶变换不是由帕斯卡矩阵产生的，但它恰好与帕斯卡矩阵表现出强烈的家族相似性，共享几个基本性质。它的应用领域是多值转换理论，主要是从多值函数的值向量中得到多项式表达式。离散帕斯卡变换是在十多年后引入的，基于对帕斯卡矩阵的特别修改，用于图像处理。然而，证明了一个大小为p的离散帕斯卡变换，以p为模等于对相同的p和n = 1的特殊里德-穆勒-傅里叶变换。Sierpinski分形与Pascal矩阵密切相关。基于Sierpinski三角形的数据结构已经成功地用于解决交换理论中的特殊问题。其中一些问题将在论文中讨论。

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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2016 IEEE 46th International Symposium on Multiple-Valued Logic (ISMVL)

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