Optimal digital fir filter design

Lina Karam; James H. McClellan

Optimal digital fir filter design

Lina Karam, James H. McClellan

Electrical Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

exchangeascentalgorithmispresentedfordesigningoptimalChebyshevdigitalFIR fil terswitharbitrarymagnitudeandphasespecifications. ComparedwithexistingChebyshevdesigntechniques, thenewdesignalgorithmexhibitsfasterconvergencewhilemaintaininghighaccuracyandisg uaranteedtoconvergetotheoptimalsolution.Inaddition, theproposedalgorithmexactlyreducestotheclassicsecondReniez(Parks-McClellan) algorithmwhenreal-onlyandimaginary-onlyfiltersaredesignedandis,therefore, atruegeneralizationoftheclassicRemezalgorithmtothecomplexcase. Designexamplesarepresentedtoillustratetheperformanceoftheproposedalgorithm.

Original language	English (US)
Pages (from-to)	2918
Number of pages	1
Journal	IEEE Transactions on Signal Processing
Volume	44
Issue number	11
State	Published - 1996

ASJC Scopus subject areas

Signal Processing
Electrical and Electronic Engineering

Cite this

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title = "Optimal digital fir filter design",

abstract = "exchangeascentalgorithmispresentedfordesigningoptimalChebyshevdigitalFIR fil terswitharbitrarymagnitudeandphasespecifications. ComparedwithexistingChebyshevdesigntechniques, thenewdesignalgorithmexhibitsfasterconvergencewhilemaintaininghighaccuracyandisg uaranteedtoconvergetotheoptimalsolution.Inaddition, theproposedalgorithmexactlyreducestotheclassicsecondReniez(Parks-McClellan) algorithmwhenreal-onlyandimaginary-onlyfiltersaredesignedandis,therefore, atruegeneralizationoftheclassicRemezalgorithmtothecomplexcase. Designexamplesarepresentedtoillustratetheperformanceoftheproposedalgorithm.",

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AU - Karam, Lina

AU - McClellan, James H.

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AB - exchangeascentalgorithmispresentedfordesigningoptimalChebyshevdigitalFIR fil terswitharbitrarymagnitudeandphasespecifications. ComparedwithexistingChebyshevdesigntechniques, thenewdesignalgorithmexhibitsfasterconvergencewhilemaintaininghighaccuracyandisg uaranteedtoconvergetotheoptimalsolution.Inaddition, theproposedalgorithmexactlyreducestotheclassicsecondReniez(Parks-McClellan) algorithmwhenreal-onlyandimaginary-onlyfiltersaredesignedandis,therefore, atruegeneralizationoftheclassicRemezalgorithmtothecomplexcase. Designexamplesarepresentedtoillustratetheperformanceoftheproposedalgorithm.

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Optimal digital fir filter design

Abstract

ASJC Scopus subject areas

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