This paper investigates the use of genetic algorithm in the design of finite linear phase raised cosine FIR filters. The design of such filters does not only involve meeting a specific amplitude response but also imposes time domain constraints on the impulse response in order to ensure zero ISI. It is shown that genetic algorithm provides simple and effective technique for the design of finite precision filters with both frequency and time domain constraints. Furthermore, the algorithm computational time is low with respect to filter order and is independent of word length. Two filter design examples are included demonstrating the effectiveness of the design method
In this paper, a new technique is presented for the design and optimization of digital FIR filters w...
This thesis presents an enhanced version of a Genetic Algorithm to design discrete filter coefficien...
Abstract:- There are well known classic techniques for filter design, the most common are the Butter...
In this work, a novel genetic algorithm (GA) is proposed for the design of multiplierless linear pha...
A genetic algorithm is used to design and optimise digital FIR filter coefficients. Given the desire...
In this work, a novel genetic algorithm (GA) is proposed for the design of multiplierless finite imp...
This paper presents an efficient genetic approach to the design of digital finite impulse response (...
The object of research is the process of digital signal processing. The subject of research is metho...
The paper presents a genetic approach to the design of finite impulse response filters with coeffici...
The authors describe a design method for realising FIR linear phase raised cosine filters with >1...
Infinite Impulse Response filters are an important class of digital filters which are significantly ...
In this paper the design of maximally flat linear phase finite impulse response (FIR) filters is con...
A computer program for the design and analysis of linear phase FIR raised cosine filters is describe...
This paper presents the design of multi-bandpass finite-duration impulse response (FIR) digital filt...
AbstractIn this paper, an optimal design of linear phase digital finite impulse response (FIR) highp...
In this paper, a new technique is presented for the design and optimization of digital FIR filters w...
This thesis presents an enhanced version of a Genetic Algorithm to design discrete filter coefficien...
Abstract:- There are well known classic techniques for filter design, the most common are the Butter...
In this work, a novel genetic algorithm (GA) is proposed for the design of multiplierless linear pha...
A genetic algorithm is used to design and optimise digital FIR filter coefficients. Given the desire...
In this work, a novel genetic algorithm (GA) is proposed for the design of multiplierless finite imp...
This paper presents an efficient genetic approach to the design of digital finite impulse response (...
The object of research is the process of digital signal processing. The subject of research is metho...
The paper presents a genetic approach to the design of finite impulse response filters with coeffici...
The authors describe a design method for realising FIR linear phase raised cosine filters with >1...
Infinite Impulse Response filters are an important class of digital filters which are significantly ...
In this paper the design of maximally flat linear phase finite impulse response (FIR) filters is con...
A computer program for the design and analysis of linear phase FIR raised cosine filters is describe...
This paper presents the design of multi-bandpass finite-duration impulse response (FIR) digital filt...
AbstractIn this paper, an optimal design of linear phase digital finite impulse response (FIR) highp...
In this paper, a new technique is presented for the design and optimization of digital FIR filters w...
This thesis presents an enhanced version of a Genetic Algorithm to design discrete filter coefficien...
Abstract:- There are well known classic techniques for filter design, the most common are the Butter...