A Family of Square-Root Nyquist Filter With Low Group Delay and High Stopband Attenuation

A simple method for square-root Nyquist filter design with low group delay and high and fast decaying stopband attenuation is presented. The method is based on a frequency domain design procedure and can address various roll-off factors. The computation procedure is presented and justified analytica...

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Veröffentlicht in:	IEEE communications letters 2016-06, Vol.20 (6), p.1136-1139
1. Verfasser:	Traverso, Sylvain
Format:	Artikel
Sprache:	eng
Schlagworte:	Attenuation Bandwidth Complexity theory Computation Decay rate Delays Design analysis Discrete Fourier transforms FBMC FMT Frequency domains Frequency-domain analysis GFDM Group delay high stopband attenuation low group delay Mathematical analysis Mathematical models Nyquist criterion Optimized production technology prototype filter single carrier square-root Nyquist pulses
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container_title	IEEE communications letters
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creator	Traverso, Sylvain
description	A simple method for square-root Nyquist filter design with low group delay and high and fast decaying stopband attenuation is presented. The method is based on a frequency domain design procedure and can address various roll-off factors. The computation procedure is presented and justified analytically. Numerical results show that for a given group delay, the stopband attenuation performance of this proposed technique outperforms the most relevant existing techniques.
doi_str_mv	10.1109/LCOMM.2016.2556679
format	Article
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subjects	Attenuation Bandwidth Complexity theory Computation Decay rate Delays Design analysis Discrete Fourier transforms FBMC FMT Frequency domains Frequency-domain analysis GFDM Group delay high stopband attenuation low group delay Mathematical analysis Mathematical models Nyquist criterion Optimized production technology prototype filter single carrier square-root Nyquist pulses
title	A Family of Square-Root Nyquist Filter With Low Group Delay and High Stopband Attenuation
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