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Frequency-Domain Hammerstein Self-Interference Canceller for In-Band Full-Duplex OFDM Systems

In-band full-duplex communications have been spotlighted because they can double the spectral efficiency of the current wireless communication systems. However, it is necessary to mitigate the self-interference (SI). Currently, several time-domain and frequency-domain SI cancellers have been propose...

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Main Authors:	Komatsu, Kazuki, Miyaji, Yuichi, Uehara, Hideyuki
Format:	Conference Proceeding
Language:	English
Subjects:	Frequency-domain analysis Mixers OFDM Receiving antennas Time-domain analysis Training
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creator	Komatsu, Kazuki Miyaji, Yuichi Uehara, Hideyuki
description	In-band full-duplex communications have been spotlighted because they can double the spectral efficiency of the current wireless communication systems. However, it is necessary to mitigate the self-interference (SI). Currently, several time-domain and frequency-domain SI cancellers have been proposed. Time-domain SI cancellers are based on the parallel Hammerstein (PH) model, and they have good flexibility with high computational cost. In contrast, frequency-domain SI cancellers can achieve high cancellation performance with low computational cost but they have less flexibility than time-domain PH based SI cancellers. In this paper, we propose a frequency-domain SI canceller based on the PH model. The proposed scheme estimates the frequency response of the SI channel and regenerates SI signals by the overlap- save method. Therefore, the computational complexity of the proposed scheme is less than time-domain PH based SI canceller. The performance of the proposed scheme is assessed by equivalent baseband signal simulations of a full-duplex transceiver. As a result, the proposed scheme achieves high SI cancellation as the time-domain PH based SI canceller with low computational cost. In addition, the convergence performance of the proposed scheme is faster than the time-domain scheme.
doi_str_mv	10.1109/WCNC.2017.7925765
format	conference_proceeding
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source	IEEE Xplore All Conference Series
subjects	Frequency-domain analysis Mixers OFDM Receiving antennas Time-domain analysis Training
title	Frequency-Domain Hammerstein Self-Interference Canceller for In-Band Full-Duplex OFDM Systems
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