教育软件工具的信号和系统理论

Juan Heredia Juesas, E. Gago-Ribas, S. García
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引用次数: 2

摘要

信号与系统理论(SST)是电气工程教育背景以及其他重要科学知识领域中最重要的学科之一。考虑到海表温度与代数表示的联系以及对物理问题的数学理解-在我们的具体情况中是电磁辐射、散射和逆问题-目前正在开发海表温度的广义格式(GSST)。虽然经典海表温度的通常观点对实际目的是有效的,但它通常避免了许多重要的概念,这些概念在物理问题的推广分析中是至关重要的。这种推广的一些例子涉及到不同于通常时频域的物理问题的表示——使用一般变量——用无限维向量空间和相关代数来描述问题,用分布理论来描述狄拉克函数,等等。获得GSST最重要的目的是将通常的SST与重要的数学表示联系起来,从而获得更一般的表示,这些表示可以严格地应用于一般物理问题的建模。这个广义理论集中在信号和算子空间的代数概念上,将每个问题识别到相应的向量空间中,并用GSST方案表示。这个推广中的一个重点是广义变换的概念。选择一组函数作为基,空间的每个信号都可以用基的广义线性组合算子表示,该算子由一组确定变换的系数加权-它们的表达式与最初在相关代数中定义的度量直接相关-。系统的频谱分析也被考虑,一旦选择了一组基函数,就用它们的系数来表示信号。广义谱分析理论使我们能够得到线性系统的不变和非不变的积分特征,从而产生了与算子理论密切相关的广义谱分析概念。虽然GSST的数学分析及其应用,例如推广格林函数理论,已经在几个研讨会上提出,如2009年IEEE AP和URSI会议,一个基于GSST的软件工具正在与理论工作并行开发。本工具的目的是促进学生和实际的科学和工程师对这个广义方案的主要代数概念的理解,提供了五个不同信号空间中的多信号和多系统的一些例子。用户可以选择具有适当参数的信号和系统,并分析系统以及输出信号在实谱域和不同谱域的特性。这个工具的最后一个版本,SSTv4.5,可以分析线性非不变系统,并将脉冲响应集合可视化,以及在傅里叶变换、希尔伯特变换或贝塞尔变换(取决于信号空间)下的谱分析,从而举例说明广义谱分析的一些特殊情况。本文对该软件工具的当前版本进行了描述。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Educational software tool for signals and systems theory
One of the most important subjects in the educational background of electrical engineering as well as in other important scientific areas of knowledge is the Signals and Systems Theory (SST). Taking into account the connection of the SST with the algebraic representation and the mathematical understanding of physical problems - electromagnetic radiation, scattering and inverse problems in our particular case -, a generalized scheme of the SST (GSST) is currently under development. While the usual point of view of classical SST is valid for practical purposes, it usually avoids many important concepts which become fundamental in the generalization of the analysis of physical problems. Some examples of this generalization are concerned with representations of physical problems different from those in the usual time-frequency domains - using a general variable -, the description of the problem in terms of infinite dimensional vector spaces and the algebra associated, the description of the Dirac delta function in terms of the distribution theory, etc. The most important purpose of obtaining a GSST is to connect the usual SST with important mathematical representations that lead to obtain more general representations that may be rigorously applied to model general physical problems. This generalized theory is focused on the algebraic concepts of signals and operators spaces, identifying each problem into their corresponding vector spaces and representing it in terms of the GSST scheme. One important point within this generalization is the concept of the Generalized Transform. Choosing a set of functions which play the role of a base, each signal of the space may be expressed in terms of a Generalized Linear Combination operator of this base weighted by a set of coefficients which identify the transform - their expression is directly related to the metric defined initially in the associated algebra -. Spectral analysis of systems is also contemplated, representing the signals in terms of their coefficients once a set of basis functions is chosen. The generalized theory let to obtain integral characterizations of linear systems - invariant and non invariant -, leading to the Generalized Spectral Analysis concept, closely connected to the operator theory. While the mathematical analysis of the GSST and its application, for instance to generalize the Green's function theory, has already been presented in several symposium - like 2009 IEEE AP and URSI Meeting -, a software tool based on the GSST is being worked out in parallel to the theoretical works. The aim of this tool is to facilitate both students and practical scientific and engineers the understanding of the main algebraic concepts of this generalized scheme, providing some examples of many signals and many systems in five different signal spaces. The user can select the signal and the system with their appropriate parameters and analyze the properties of the systems as well as the output signal both in real and different spectral domains. The last version of this tool, SSTv4.5, lets to analyze linear non invariant systems and to visualize the set of impulse responses as well as the spectral analysis under some transformations such as Fourier, Hilbert or Bessel Transforms - depending on the signal space -, thus exemplifying some particular cases of the Generalized Spectral Analysis. The description of the current version of this software tool is presented in this paper.
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