Multimedia-based analog and digital filter design

The theoretical basis for the design of analog and digital filters by prototype and transformation is studied. Necessary and suficient conditions are developed for a transformation to preserue realizibility as well as the frequency response. The attendant structural properties of such transformation

This article presents a spreadsheet approach to the design of analog and digital Butterworth and Chebyshev filters. Corresponding analog filters are designed; then, bilinear transformation is used to map from the s plane into the z plane. Plots of magnitude and pole locations in the s and z planes o

One method of designing digital filters is to start with the magnitude squared analog function and replace (w/w,)2 (w, = cut-off frequency) by either [tan (&'/2)/tan (w, T/2)12 or [sin (&!'/2)/sin (w, T/2)12, where T is the sampling period. In the first case we get the so-called digital tan filter,

In this paper we present an alternative approach to the direct design of 1-D recursive digitalfilters satisfying prescribed magnitude specifications with or without constant group delay characteristic. This method uses an iterative method to calculate the coejkients of the$lter's transfer,function a

A generalized time domain approach is described for the analysis and design of wave digital filters capable of performing sampling rate alterations whether integer or non-integer. It is based on sequential computation of the filter's system response; then this discrete response is reduced to a ratio