Title :
Automatic design of frequency sampling filters by hybrid genetic algorithm techniques
Author :
Harris, Stephen P. ; Ifeachor, Emmanuel C.
Author_Institution :
Sch. of Electron. Commun. & Electr. Eng., Plymouth Univ., UK
fDate :
12/1/1998 12:00:00 AM
Abstract :
A new method of designing recursive and nonrecursive frequency sampling filters is presented. We investigate the use of a hybrid real-coded genetic algorithm (GA) for optimising transition sample values to give the maximum stopband attenuation. A modification allows the coefficient wordlength to be optimized concurrently, thereby reducing the overall number of design steps and simplifying the design process. The technique is able to consistently optimize filters with up to six transition samples. Designing digital filters is a complex process involving optimization at several discrete design steps. The techniques presented could form the basis for integrating several of the optimizations. Investigations into increasing this integration by using a binary-coded GA to optimize nonlinear phase, quantized coefficient FIR filters are introduced, with an analysis of the difficulty of the problem from a GA perspective
Keywords :
FIR filters; circuit optimisation; genetic algorithms; nonlinear filters; quantisation (signal); recursive filters; signal sampling; automatic design; binary-coded GA; coefficient wordlength; digital filters; frequency sampling filter design; hybrid real-coded genetic algorithm; maximum stopband attenuation; nonlinear phase filters; nonrecursive frequency sampling filters; optimization; quantized coefficient FIR filters; recursive frequency sampling filters; transition sample values optimisation; Algorithm design and analysis; Band pass filters; Design methodology; Design optimization; Digital filters; Finite impulse response filter; Frequency; Genetic algorithms; Passband; Sampling methods;
Journal_Title :
Signal Processing, IEEE Transactions on
