In this work, we treat a design problem for recursive digital filters described by rational transfer function in discrete space with scaling and error feedback. First, we form the filter design problem using the least-squares criterion and express it as the quadratic form with re-spect to the filter coefficients. Next, we show the relax-ation method using the Lagrange multiplier method in order to search for the good solution. Finally, we show the effectiveness of the proposed method using some nu-merical examples. 1
Designing recursive digital filters satisfying both arbitrary loss and delay constraints is a classi...
The Multi-Mode Mean Field Annealing (MM-MFA) approach to combinatorial optimization is introduced ...
The paper considers the possibilities for diminishing the sensitivity of frequency responses to vari...
Close form analytical techniques for the design of a certain class of recursive digital filters such...
In recursive digital filter design,the amplitude characteristic of an ideal filterhas to be translat...
The purpose of this work is to design a digital recursive filter of a desired amplitude response wit...
A strategy for computer-aided design of recursive digital filters with canonical signed digit (CSD) ...
Digital filter design is to approximate a desired frequency response with a model of transfer functi...
AbstractThe paper discusses a numerical algorithm for obtaining rational approximations to a given c...
Techniques developed for recursive digital filters design in the frequency domain are mainly based o...
Two new digital filter design techniques are proposed for obtaining the transfer function, in the z-...
This paper describes a novel branching strategy using the branch and bound technique for the design ...
A simple technique for designing low-pass recursive digital filters with nearly linear phase charact...
This brief investigates the generalized dissipativity of digital filters with finite-wordlength arit...
Recently, a very versatile algorithm for the design of finite word length filters has been proposed....
Designing recursive digital filters satisfying both arbitrary loss and delay constraints is a classi...
The Multi-Mode Mean Field Annealing (MM-MFA) approach to combinatorial optimization is introduced ...
The paper considers the possibilities for diminishing the sensitivity of frequency responses to vari...
Close form analytical techniques for the design of a certain class of recursive digital filters such...
In recursive digital filter design,the amplitude characteristic of an ideal filterhas to be translat...
The purpose of this work is to design a digital recursive filter of a desired amplitude response wit...
A strategy for computer-aided design of recursive digital filters with canonical signed digit (CSD) ...
Digital filter design is to approximate a desired frequency response with a model of transfer functi...
AbstractThe paper discusses a numerical algorithm for obtaining rational approximations to a given c...
Techniques developed for recursive digital filters design in the frequency domain are mainly based o...
Two new digital filter design techniques are proposed for obtaining the transfer function, in the z-...
This paper describes a novel branching strategy using the branch and bound technique for the design ...
A simple technique for designing low-pass recursive digital filters with nearly linear phase charact...
This brief investigates the generalized dissipativity of digital filters with finite-wordlength arit...
Recently, a very versatile algorithm for the design of finite word length filters has been proposed....
Designing recursive digital filters satisfying both arbitrary loss and delay constraints is a classi...
The Multi-Mode Mean Field Annealing (MM-MFA) approach to combinatorial optimization is introduced ...
The paper considers the possibilities for diminishing the sensitivity of frequency responses to vari...