Two accurate phase-difference estimators for dual-channel sine-wave model

Hing Cheung So; Zhenhua Zhou

doi:10.1186/1687-6180-2013-122

Two accurate phase-difference estimators for dual-channel sine-wave model

Hing Cheung So, Zhenhua Zhou

Department of Electrical Engineering

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

8 Citations (Scopus)

59 Downloads (CityUHK Scholars)

Abstract

Two algorithms for estimating the phase-difference between two real sinusoids with common frequency in the presence of white noise are proposed. The first estimator utilizes the maximum likelihood criterion to find the phase of each channel output in a separable manner, and the phase-shift estimate is then given by their difference. The algorithm extension to unknown frequency and/or noise powers is also studied. On the other hand, the development of the second method is based on the linear prediction approach with a properly chosen sampling frequency. Furthermore, variance expressions for the two estimators are derived. Computer simulations are included to corroborate the theoretical calculations and to contrast the performance of the proposed schemes with several existing phase-difference estimators as well as Cramér-Rao lower bound. © 2013 So and Zhou; licensee Springer.

Original language	English
Article number	122
Journal	EURASIP Journal on Advances in Signal Processing
Volume	2013
Issue number	1
DOIs	https://doi.org/10.1186/1687-6180-2013-122
Publication status	Published - 2013

Research Keywords

Phase-difference

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This full text is made available under CC-BY 2.0. https://creativecommons.org/licenses/by/2.0/

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abstract = "Two algorithms for estimating the phase-difference between two real sinusoids with common frequency in the presence of white noise are proposed. The first estimator utilizes the maximum likelihood criterion to find the phase of each channel output in a separable manner, and the phase-shift estimate is then given by their difference. The algorithm extension to unknown frequency and/or noise powers is also studied. On the other hand, the development of the second method is based on the linear prediction approach with a properly chosen sampling frequency. Furthermore, variance expressions for the two estimators are derived. Computer simulations are included to corroborate the theoretical calculations and to contrast the performance of the proposed schemes with several existing phase-difference estimators as well as Cram{\'e}r-Rao lower bound. {\textcopyright} 2013 So and Zhou; licensee Springer.",

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T1 - Two accurate phase-difference estimators for dual-channel sine-wave model

AU - So, Hing Cheung

AU - Zhou, Zhenhua

PY - 2013

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N2 - Two algorithms for estimating the phase-difference between two real sinusoids with common frequency in the presence of white noise are proposed. The first estimator utilizes the maximum likelihood criterion to find the phase of each channel output in a separable manner, and the phase-shift estimate is then given by their difference. The algorithm extension to unknown frequency and/or noise powers is also studied. On the other hand, the development of the second method is based on the linear prediction approach with a properly chosen sampling frequency. Furthermore, variance expressions for the two estimators are derived. Computer simulations are included to corroborate the theoretical calculations and to contrast the performance of the proposed schemes with several existing phase-difference estimators as well as Cramér-Rao lower bound. © 2013 So and Zhou; licensee Springer.

AB - Two algorithms for estimating the phase-difference between two real sinusoids with common frequency in the presence of white noise are proposed. The first estimator utilizes the maximum likelihood criterion to find the phase of each channel output in a separable manner, and the phase-shift estimate is then given by their difference. The algorithm extension to unknown frequency and/or noise powers is also studied. On the other hand, the development of the second method is based on the linear prediction approach with a properly chosen sampling frequency. Furthermore, variance expressions for the two estimators are derived. Computer simulations are included to corroborate the theoretical calculations and to contrast the performance of the proposed schemes with several existing phase-difference estimators as well as Cramér-Rao lower bound. © 2013 So and Zhou; licensee Springer.

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DO - 10.1186/1687-6180-2013-122

M3 - RGC 21 - Publication in refereed journal

SN - 1110-8657

VL - 2013

JO - EURASIP Journal on Advances in Signal Processing

JF - EURASIP Journal on Advances in Signal Processing

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ER -

Two accurate phase-difference estimators for dual-channel sine-wave model

Abstract

Research Keywords

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