Phase estimation for weak GPS signal based on incoherent integration

Yu Luo; Yong Qing Wang; Si Liang Wu; Yong Xiang Lan; Peng Ren

Phase estimation for weak GPS signal based on incoherent integration

Yu Luo, Yong Qing Wang^*, Si Liang Wu, Yong Xiang Lan, Peng Ren

^*Corresponding author for this work

School of Information and Electronics

Beijing Institute of Technology

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

1 Citation (Scopus)

Abstract

This article presents a study in order to solve the problem that the phase estimation cannot complete the application for weak GPS signal. Phase doubled processing and decision directed feedback were both used to eliminate the influence of the reverse of navigation data. A new maximum likelihood (ML) phase estimator based on incoherent integration with decision directed feedback was proposed. The expressions of SNR were derived in theory. RMSE was acquired by numerical integration of the conditional probability density function (CPDF). The new method could reduce RMSE of ML phase estimator and improve the capability of phase estimation for weak GPS signal. The effectiveness of theory analysis and the proposed algorithm were proved by simulation. The practicability of the algorithm is indicated by the result of the implementation based on field-programmable gate array.

Original language	English
Pages (from-to)	93-98
Number of pages	6
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	33
Issue number	1
Publication status	Published - Jan 2013

Keywords

Global positioning system (GPS)
Incoherent integration
Phase estimation
Weak signal

Cite this

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abstract = "This article presents a study in order to solve the problem that the phase estimation cannot complete the application for weak GPS signal. Phase doubled processing and decision directed feedback were both used to eliminate the influence of the reverse of navigation data. A new maximum likelihood (ML) phase estimator based on incoherent integration with decision directed feedback was proposed. The expressions of SNR were derived in theory. RMSE was acquired by numerical integration of the conditional probability density function (CPDF). The new method could reduce RMSE of ML phase estimator and improve the capability of phase estimation for weak GPS signal. The effectiveness of theory analysis and the proposed algorithm were proved by simulation. The practicability of the algorithm is indicated by the result of the implementation based on field-programmable gate array.",

keywords = "Global positioning system (GPS), Incoherent integration, Phase estimation, Weak signal",

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T1 - Phase estimation for weak GPS signal based on incoherent integration

AU - Luo, Yu

AU - Wang, Yong Qing

AU - Wu, Si Liang

AU - Lan, Yong Xiang

AU - Ren, Peng

PY - 2013/1

Y1 - 2013/1

N2 - This article presents a study in order to solve the problem that the phase estimation cannot complete the application for weak GPS signal. Phase doubled processing and decision directed feedback were both used to eliminate the influence of the reverse of navigation data. A new maximum likelihood (ML) phase estimator based on incoherent integration with decision directed feedback was proposed. The expressions of SNR were derived in theory. RMSE was acquired by numerical integration of the conditional probability density function (CPDF). The new method could reduce RMSE of ML phase estimator and improve the capability of phase estimation for weak GPS signal. The effectiveness of theory analysis and the proposed algorithm were proved by simulation. The practicability of the algorithm is indicated by the result of the implementation based on field-programmable gate array.

AB - This article presents a study in order to solve the problem that the phase estimation cannot complete the application for weak GPS signal. Phase doubled processing and decision directed feedback were both used to eliminate the influence of the reverse of navigation data. A new maximum likelihood (ML) phase estimator based on incoherent integration with decision directed feedback was proposed. The expressions of SNR were derived in theory. RMSE was acquired by numerical integration of the conditional probability density function (CPDF). The new method could reduce RMSE of ML phase estimator and improve the capability of phase estimation for weak GPS signal. The effectiveness of theory analysis and the proposed algorithm were proved by simulation. The practicability of the algorithm is indicated by the result of the implementation based on field-programmable gate array.

KW - Global positioning system (GPS)

KW - Incoherent integration

KW - Phase estimation

KW - Weak signal

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JO - Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology

JF - Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology

IS - 1

ER -

Phase estimation for weak GPS signal based on incoherent integration

Abstract

Keywords

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