An Innovative Approach for Modeling the Digital Signal Processing

2018 New Trends in Signal Processing (NTSP) Pub Date : 2018-10-01 DOI:10.23919/NTSP.2018.8524084

M. Silveira, G. Figueiredo, R. G. Caputo

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Abstract

The essential purpose of this manuscript is to introduce for the current literature a new theoretical approach how to implement the process of encoding data using an unique treatment with respect to the digital signal processing. Some relationship between a set of digital pulses and a special class of the real polynomials, allow us to identify the generation of a single pulse with an intrinsic dependence with the zero values of an arbitrary equation represented by a polynomial equation, where this direct match is established through an analytic operator. By using an ordinary Field Programmable Gate Array architecture, it is possible to validate our theoretical approach, and we are presenting some experimental measurements, as well as one application on how to build a commercial data compressor for fiber optics. The algorithm here introduced presents an innovative technique, and it performance is faster per comparison. Furthermore, thanks to the math-to-time domain transformations, it tends to overcome the current time required to process polynomial equations, which are involved in the data compression and data encryption systems.

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数字信号处理建模的一种创新方法

这篇手稿的基本目的是为目前的文献介绍一种新的理论方法，如何实现编码数据的过程中使用一种独特的处理相对于数字信号处理。一组数字脉冲和一类特殊的实多项式之间的某种关系，使我们能够识别出与多项式方程表示的任意方程的零值具有内在相关性的单个脉冲的产生，其中这种直接匹配是通过解析算子建立的。通过使用普通的现场可编程门阵列架构，可以验证我们的理论方法，并且我们提出了一些实验测量，以及如何构建光纤商业数据压缩器的一个应用。本文介绍的算法是一种创新的技术，其性能比传统算法更快。此外，由于数学到时间域的转换，它倾向于克服当前处理多项式方程所需的时间，这涉及到数据压缩和数据加密系统。

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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2018 New Trends in Signal Processing (NTSP)

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