The synthesis of recursive digital filters with linear phase is approached by means of existing approximation techniques. The design is based on an FIR filter that represents the ideal filter in terms of both magnitude and phase characteris tics. The recursive digital filter with linear phase is then synthesized as an approximation of the ideal FIR filter. This novel technique is used for designing both 1-D and 2-D recursive digital filters with linear phase, and is illustrated by a few numerical examples. © 1991 IEE
This study explores four techniques for simulating analog filters by recursive digital filters. A un...
A CLASS OF HIGH-SPEED WIDE-BAND FREQUENCY MASKINGphase filters are obtained as a special case. We al...
Following a brief review of digital filters and associated terminology, the problem of linear phase ...
Techniques developed for recursive digital filters design in the frequency domain are mainly based o...
A simple technique for designing low-pass recursive digital filters with nearly linear phase charact...
This paper describes a design method of linear phase recursive FIR digital filters. The basic struct...
The synthesis of two-dimensional (2-D) linear phase digital filters is studied in terms of approxima...
In this dissertation, several algorithms to design linear phase Finite Impulse Response (FIR) and In...
A novel approach to the design of approximately linear phase recursive digital filters was recently ...
Digital filters made from a parallel combination of two allpass branches have been of considerable i...
Digital filter design is to approximate a desired frequency response with a model of transfer functi...
A method for a computer-aided design of a class of optimum filters, having specifications in the fre...
The purpose of this work is to design a digital recursive filter of a desired amplitude response wit...
Digital processing of two dimensional signals is becoming increasingly important, and is finding app...
Two new digital filter design techniques are proposed for obtaining the transfer function, in the z-...
This study explores four techniques for simulating analog filters by recursive digital filters. A un...
A CLASS OF HIGH-SPEED WIDE-BAND FREQUENCY MASKINGphase filters are obtained as a special case. We al...
Following a brief review of digital filters and associated terminology, the problem of linear phase ...
Techniques developed for recursive digital filters design in the frequency domain are mainly based o...
A simple technique for designing low-pass recursive digital filters with nearly linear phase charact...
This paper describes a design method of linear phase recursive FIR digital filters. The basic struct...
The synthesis of two-dimensional (2-D) linear phase digital filters is studied in terms of approxima...
In this dissertation, several algorithms to design linear phase Finite Impulse Response (FIR) and In...
A novel approach to the design of approximately linear phase recursive digital filters was recently ...
Digital filters made from a parallel combination of two allpass branches have been of considerable i...
Digital filter design is to approximate a desired frequency response with a model of transfer functi...
A method for a computer-aided design of a class of optimum filters, having specifications in the fre...
The purpose of this work is to design a digital recursive filter of a desired amplitude response wit...
Digital processing of two dimensional signals is becoming increasingly important, and is finding app...
Two new digital filter design techniques are proposed for obtaining the transfer function, in the z-...
This study explores four techniques for simulating analog filters by recursive digital filters. A un...
A CLASS OF HIGH-SPEED WIDE-BAND FREQUENCY MASKINGphase filters are obtained as a special case. We al...
Following a brief review of digital filters and associated terminology, the problem of linear phase ...