Iterative Algorithm for Reducing the Peak-to-Average Power Ratio of Feedback-Controlled Multitone-Hopping CDMA Signals

A novel peak-to-average power ratio (PAR) control algorithm for feedback-controlled multitone-hopping code-division multiple access (FC/MH-CDMA) signals is proposed. In FC/MH-CDMA, since each chip consists of plural tones, the energy consumption due to a large PAR is not negligible at the transmitte...

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Veröffentlicht in:	IEICE Transactions on Communications 2010/11/01, Vol.E93.B(11), pp.3072-3082
Hauptverfasser:	CHIBA, Kazuki, HAMAMURA, Masanori
Format:	Artikel
Sprache:	eng
Schlagworte:	asynchronous CDMA Channels Code division multiple access Construction Control systems Control theory feedback multipath Multiple access multitone PAR Quantization Transmitters
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container_end_page	3082
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container_title	IEICE Transactions on Communications
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creator	CHIBA, Kazuki HAMAMURA, Masanori
description	A novel peak-to-average power ratio (PAR) control algorithm for feedback-controlled multitone-hopping code-division multiple access (FC/MH-CDMA) signals is proposed. In FC/MH-CDMA, since each chip consists of plural tones, the energy consumption due to a large PAR is not negligible at the transmitter. The proposed PAR control algorithm iteratively constructs a time-frequency code that achieves a preset, target PAR under the condition that all signals are asynchronously transmitted. A PAR of 1dB is shown to be achievable, and the bit-error rate performance is shown to be only slightly influenced if the target PAR is set to be larger than 3dB. The influence of quantization is also discussed in terms of its application to limited feedback channels.
doi_str_mv	10.1587/transcom.E93.B.3072
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In FC/MH-CDMA, since each chip consists of plural tones, the energy consumption due to a large PAR is not negligible at the transmitter. The proposed PAR control algorithm iteratively constructs a time-frequency code that achieves a preset, target PAR under the condition that all signals are asynchronously transmitted. A PAR of 1dB is shown to be achievable, and the bit-error rate performance is shown to be only slightly influenced if the target PAR is set to be larger than 3dB. 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Commun.</addtitle><description>A novel peak-to-average power ratio (PAR) control algorithm for feedback-controlled multitone-hopping code-division multiple access (FC/MH-CDMA) signals is proposed. In FC/MH-CDMA, since each chip consists of plural tones, the energy consumption due to a large PAR is not negligible at the transmitter. The proposed PAR control algorithm iteratively constructs a time-frequency code that achieves a preset, target PAR under the condition that all signals are asynchronously transmitted. A PAR of 1dB is shown to be achievable, and the bit-error rate performance is shown to be only slightly influenced if the target PAR is set to be larger than 3dB. 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subjects	asynchronous CDMA Channels Code division multiple access Construction Control systems Control theory feedback multipath Multiple access multitone PAR Quantization Transmitters
title	Iterative Algorithm for Reducing the Peak-to-Average Power Ratio of Feedback-Controlled Multitone-Hopping CDMA Signals
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