Design and Analysis of Analog Filters: A Signal Processing Perspective (The Springer International S
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1. Introduction
View or edit your browsing history. Get to Know Us. English Choose a language for shopping. Amazon Music Stream millions of songs. We have presented a general approach for approximating ideal filters from a view of fractional-order systems.
This paper aims at providing an approach to approximate ideal filters by using frequency responses of fractional-order. There are two types of fractional-order systems based on A. They are included on the disk as an instructional. However, the literature regarding approximating ideal filters from a view of filters of fractional-order is rarely seen. Cattani C, Pierro G.
This approach is based on fractional calculus. The theoretical significance of the present approach is that the Paley and Wiener criterion might be no longer a necessary condition for designing physically realizable ideal filters. We have showed a case that can be used for designing ideal filters for suppressing Hz interference in ECG signals. This work was supported in part by the Plan under the Project no. The fractional derivative of Caputo type of a function f t is defined by. Without generality losing, we take a system of second-order as a case:.
There are two types of fractional-order systems based on A. One is given by see [ 36 ]. Denote the impulse response function of A. Therefore, if one denotes the frequency response of A. National Center for Biotechnology Information , U.
Comput Math Methods Med. Published online Jan Received Sep 16; Accepted Oct This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
This article has been cited by other articles in PMC. Abstract The contributions in this paper are in two folds.
Introduction Filters have wide applications in various fields, ranging from medical engineering to electrical engineering; see, for example, Hussain et al. In this case, we present the following approximation: Some Filters of Integer Order for Approximating Ideal Filters Various methods in the approximations are studied, such as Butterworth filters, Chebyshev's, Cauer-Chebyshev's, and Bessel's filters; see, for example, [ 2 ], and Lam [ 14 ].
Problem Statement The Butterworth filters obviously correspond to linear differential equations of integer order [ 17 , 18 ]. Open in a separate window.
Conclusions We have presented a general approach for approximating ideal filters from a view of fractional-order systems. Acknowledgment This work was supported in part by the Plan under the Project no. Handbook of Signal Processing Systems. Statistical Image Processing and Multidimensional Modeling.
Analysis and Measurement Procedure. Introduction to Statistical Signal Processing. Cambridge University Press; Generation of teletraffic of generalized Cauchy type. Handbook for Digital Signal Processing.
Design and Analysis of Analog Filters: A Signal Processing Perspective with MATLAB Examples
Fundamentals of Digital Signal Processing. Fractal time series—a tutorial review. Mathematical Problems in Engineering. The Fourier Integral and Its Applications. Paley RC, Wiener N. Fourier Transforms in the Complex Domain. American Mathematical Society Colloquium Publication; Analog and Digital Filters: Approximation Methods for Electronic Filter Design.
Positive Trigonometric Polynomials and Signal Processing Applications
Bianchi G, Sorrentino R. On the theory of filter amplifiers. An introduction to the fractional continuous-time linear systems: Some applications of fractional calculus in engineering. Langevin equation with two fractional orders. Discretization schemes for fractional-order differentiators and integrators. Fundamental Theory and Applications. Maxflat fractional delay IIR filter design.
Mathematical Methods for Physicists. Pattern recognition of the ECG: Medical and Biological Engineering and Computing. An improved adaptive power line interference canceller for electrocardiography. Dotsinsky I, Stoyanov T. Power-line interference cancellation in ECG signals.
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