Channel estimation for PLNC under time-selective fading scenario

Feifei Gao; Chengwen Xing; Gongpu Wang

doi:10.1007/978-3-319-11668-6_5

Channel estimation for PLNC under time-selective fading scenario

Feifei Gao^*, Chengwen Xing, Gongpu Wang

^*Corresponding author for this work

School of Information and Electronics

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

In this chapter, we design channel estimation and training sequence for PLNC in a time-selective fading environment. We first propose a new complex-exponential basis expansion model (CE-BEM) to represent the mobile-to-mobile time-varying channels. To estimate such channels, a novel pilot symbol-aided transmission scheme is developed such that a low complex linear approach can be applied to estimate the BEM coefficients of the convoluted channels. More essentially, we design two algorithms to extract the BEM coefficients of the individual channels. The optimal training parameters, including the number of the pilot symbols, the placement of the pilot symbols, and the power allocation to the pilot symbols, are derived by minimizing the channel mean-square error (MSE). Finally, extensive numerical results are provided to corroborate the proposed studies.

Original language	English
Title of host publication	SpringerBriefs in Computer Science
Publisher	Springer
Pages	59-77
Number of pages	19
Edition	9783319116679
DOIs	https://doi.org/10.1007/978-3-319-11668-6_5
Publication status	Published - 2014

Publication series

Name	SpringerBriefs in Computer Science
Number	9783319116679
Volume	0
ISSN (Print)	2191-5768
ISSN (Electronic)	2191-5776

Keywords

Basis expansion model
Channel estimation
Pilot symbol
Power allocation
Relay node

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10.1007/978-3-319-11668-6_5

Cite this

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abstract = "In this chapter, we design channel estimation and training sequence for PLNC in a time-selective fading environment. We first propose a new complex-exponential basis expansion model (CE-BEM) to represent the mobile-to-mobile time-varying channels. To estimate such channels, a novel pilot symbol-aided transmission scheme is developed such that a low complex linear approach can be applied to estimate the BEM coefficients of the convoluted channels. More essentially, we design two algorithms to extract the BEM coefficients of the individual channels. The optimal training parameters, including the number of the pilot symbols, the placement of the pilot symbols, and the power allocation to the pilot symbols, are derived by minimizing the channel mean-square error (MSE). Finally, extensive numerical results are provided to corroborate the proposed studies.",

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T1 - Channel estimation for PLNC under time-selective fading scenario

AU - Gao, Feifei

AU - Xing, Chengwen

AU - Wang, Gongpu

PY - 2014

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KW - Channel estimation

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KW - Power allocation

KW - Relay node

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Channel estimation for PLNC under time-selective fading scenario

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