All-digital self-interference cancellation in zero-IF full-duplex transceivers

Lu Tian; Shuai Wang; Zhiheng Cheng; Xiangyuan Bu

doi:10.1109/CC.2016.7781715

All-digital self-interference cancellation in zero-IF full-duplex transceivers

Lu Tian, Shuai Wang^*, Zhiheng Cheng, Xiangyuan Bu

^*Corresponding author for this work

Beijing Institute of Technology

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

11 Citations (Scopus)

Abstract

In this paper, a general scheme in digital self-interference cancellation at base-band for zero-IF full-duplex transceivers is presented. We model the self-interference signals specifically with only the nonlinear distortion signals falling in receiving band considered. A joint estimation algorithm is proposed for compensating the time delay and frequency offset taking into account the IQ amplitude and phase imbalances from mixers. The memory effect and nonlinear distortion are adaptively estimated by the de-correlated normalized least mean square (DNLMS) algorithm. Numerical simulation results demonstrate that the proposed self-interference cancellation scheme can efficiently compensate the self-interference and outperform the existing traditional solutions.

Original language	English
Article number	7781715
Pages (from-to)	27-34
Number of pages	8
Journal	China Communications
Volume	13
Issue number	11
DOIs	https://doi.org/10.1109/CC.2016.7781715
Publication status	Published - Nov 2016

Keywords

IQ imbalance
communication systems
de-correlated normalized least mean square algorithm
full-duplex transceivers
self-interference cancellation

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10.1109/CC.2016.7781715

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title = "All-digital self-interference cancellation in zero-IF full-duplex transceivers",

abstract = "In this paper, a general scheme in digital self-interference cancellation at base-band for zero-IF full-duplex transceivers is presented. We model the self-interference signals specifically with only the nonlinear distortion signals falling in receiving band considered. A joint estimation algorithm is proposed for compensating the time delay and frequency offset taking into account the IQ amplitude and phase imbalances from mixers. The memory effect and nonlinear distortion are adaptively estimated by the de-correlated normalized least mean square (DNLMS) algorithm. Numerical simulation results demonstrate that the proposed self-interference cancellation scheme can efficiently compensate the self-interference and outperform the existing traditional solutions.",

keywords = "IQ imbalance, communication systems, de-correlated normalized least mean square algorithm, full-duplex transceivers, self-interference cancellation",

author = "Lu Tian and Shuai Wang and Zhiheng Cheng and Xiangyuan Bu",

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AU - Bu, Xiangyuan

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AB - In this paper, a general scheme in digital self-interference cancellation at base-band for zero-IF full-duplex transceivers is presented. We model the self-interference signals specifically with only the nonlinear distortion signals falling in receiving band considered. A joint estimation algorithm is proposed for compensating the time delay and frequency offset taking into account the IQ amplitude and phase imbalances from mixers. The memory effect and nonlinear distortion are adaptively estimated by the de-correlated normalized least mean square (DNLMS) algorithm. Numerical simulation results demonstrate that the proposed self-interference cancellation scheme can efficiently compensate the self-interference and outperform the existing traditional solutions.

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All-digital self-interference cancellation in zero-IF full-duplex transceivers

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