Exploiting spectral regrowth for channel identification

Kuang Cai; Hongbin Li; Joseph Mitola

doi:10.1109/LSP.2014.2323943

Exploiting spectral regrowth for channel identification

Kuang Cai, Hongbin Li, Joseph Mitola

Stevens Institute of Technology

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

2 Scopus citations

Abstract

In modern communication systems, power amplifiers (PAs) are important components and inherently nonlinear. The nonlinearity of the PA causes bandwidth expansion of the communication signal, often referred to as spectral regrowth, at the PA output. Conventionally, spectral regrowth is treated as a distortion, and a range of compensation and filtering techniques have been considered to mitigate its effect. In this paper, we propose to exploit spectral regrowth to enhance channel identification accuracy. Our approach is motivated by the fact that the nonlinearly amplified communication signal carries more bandwidth and allows better probing of the channel. We introduce an iterative algorithm which jointly estimates the PA characteristics and the channel impulse response. The effectiveness of the proposed algorithm is illustrated by computer simulation.

Original language	English
Article number	6815725
Pages (from-to)	1050-1053
Number of pages	4
Journal	IEEE Signal Processing Letters
Volume	21
Issue number	9
DOIs	https://doi.org/10.1109/LSP.2014.2323943
State	Published - Sep 2014

Keywords

Channel identification
nonlinear power amplifier
spectral regrowth

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10.1109/LSP.2014.2323943

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AB - In modern communication systems, power amplifiers (PAs) are important components and inherently nonlinear. The nonlinearity of the PA causes bandwidth expansion of the communication signal, often referred to as spectral regrowth, at the PA output. Conventionally, spectral regrowth is treated as a distortion, and a range of compensation and filtering techniques have been considered to mitigate its effect. In this paper, we propose to exploit spectral regrowth to enhance channel identification accuracy. Our approach is motivated by the fact that the nonlinearly amplified communication signal carries more bandwidth and allows better probing of the channel. We introduce an iterative algorithm which jointly estimates the PA characteristics and the channel impulse response. The effectiveness of the proposed algorithm is illustrated by computer simulation.

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Exploiting spectral regrowth for channel identification

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