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Ake CHAISAWADI, Tsuoshi TAKEBE, Toyoji MATSUMOTO, Kiyoshi NISHIKAWA, "Design of FIR Partial Response Filter with Equiripple Stopband Attenuation (Class )" in IEICE TRANSACTIONS on transactions,
vol. E71-E, no. 11, pp. 1107-1115, November 1988, doi: .
Abstract: Two design methods, namely method 1 and method 2, for class partial response FIR filters with equiripple stopband attenuation and low intersymbol interference (ISI) are investigated. For method 1, we design only a transmitter filter. For method 2, we design a transmitter and receiver filter pair having nearly the same amplitude response in the frequency domain. Both design methods have mainly three steps in common. First, a truncated sampled sequence of an ideal impulse response is used as an initial impulse response of the filter or filter pair in cascade. The optimum length of the sequence is examined. Second, z is transformed into such that the stopband section on the z-plane unit circle of the filter is mapped to be the entire unit circle in the -plane. Then a special all-zero function of is constructed having equiripple amplitude response along the unit circle. From this function, the filter transfer function of z with equiripple stopband attenuation is derived by inversely transforming into z. Finally, zero ISI approximation is performed with least-squares criterion, which drastically reduces ISI without significant change in the attenuation. Various characteristics of the filters designed by both methods are also illustrated.
URL: https://globals.ieice.org/en_transactions/transactions/10.1587/e71-e_11_1107/_p
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@ARTICLE{e71-e_11_1107,
author={Ake CHAISAWADI, Tsuoshi TAKEBE, Toyoji MATSUMOTO, Kiyoshi NISHIKAWA, },
journal={IEICE TRANSACTIONS on transactions},
title={Design of FIR Partial Response Filter with Equiripple Stopband Attenuation (Class )},
year={1988},
volume={E71-E},
number={11},
pages={1107-1115},
abstract={Two design methods, namely method 1 and method 2, for class partial response FIR filters with equiripple stopband attenuation and low intersymbol interference (ISI) are investigated. For method 1, we design only a transmitter filter. For method 2, we design a transmitter and receiver filter pair having nearly the same amplitude response in the frequency domain. Both design methods have mainly three steps in common. First, a truncated sampled sequence of an ideal impulse response is used as an initial impulse response of the filter or filter pair in cascade. The optimum length of the sequence is examined. Second, z is transformed into such that the stopband section on the z-plane unit circle of the filter is mapped to be the entire unit circle in the -plane. Then a special all-zero function of is constructed having equiripple amplitude response along the unit circle. From this function, the filter transfer function of z with equiripple stopband attenuation is derived by inversely transforming into z. Finally, zero ISI approximation is performed with least-squares criterion, which drastically reduces ISI without significant change in the attenuation. Various characteristics of the filters designed by both methods are also illustrated.},
keywords={},
doi={},
ISSN={},
month={November},}
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TY - JOUR
TI - Design of FIR Partial Response Filter with Equiripple Stopband Attenuation (Class )
T2 - IEICE TRANSACTIONS on transactions
SP - 1107
EP - 1115
AU - Ake CHAISAWADI
AU - Tsuoshi TAKEBE
AU - Toyoji MATSUMOTO
AU - Kiyoshi NISHIKAWA
PY - 1988
DO -
JO - IEICE TRANSACTIONS on transactions
SN -
VL - E71-E
IS - 11
JA - IEICE TRANSACTIONS on transactions
Y1 - November 1988
AB - Two design methods, namely method 1 and method 2, for class partial response FIR filters with equiripple stopband attenuation and low intersymbol interference (ISI) are investigated. For method 1, we design only a transmitter filter. For method 2, we design a transmitter and receiver filter pair having nearly the same amplitude response in the frequency domain. Both design methods have mainly three steps in common. First, a truncated sampled sequence of an ideal impulse response is used as an initial impulse response of the filter or filter pair in cascade. The optimum length of the sequence is examined. Second, z is transformed into such that the stopband section on the z-plane unit circle of the filter is mapped to be the entire unit circle in the -plane. Then a special all-zero function of is constructed having equiripple amplitude response along the unit circle. From this function, the filter transfer function of z with equiripple stopband attenuation is derived by inversely transforming into z. Finally, zero ISI approximation is performed with least-squares criterion, which drastically reduces ISI without significant change in the attenuation. Various characteristics of the filters designed by both methods are also illustrated.
ER -
)
English
