Denoising effect of multiscale multiway analysis on high-rate GPS observations

In general, high-rate GPS data sets are subject to common mode error (CME), multipath error, and high-frequency random noise, which adversely affect the GPS positioning accuracy. In order to improve the precision and reliability of GPS positioning, a multiscale multiway principal component analysis...

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Published in	GPS solutions Vol. 21; no. 1; pp. 31 - 41
Main Authors	Li, Yanyan, Xu, Caijun, Yi, Lei
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.01.2017 Springer Nature B.V
Subjects	Amplitudes Atmospheric Sciences Automotive Engineering Component reliability Earth and Environmental Science Earth Sciences Electrical Engineering Flicker Geophysics/Geodesy Global positioning systems GPS Multiscale analysis Noise Noise reduction Original Article Performance assessment Power law Principal components analysis Random noise Reliability analysis Satellite navigation systems Space Exploration and Astronautics Space Sciences (including Extraterrestrial Physics Spatial data Spectral analysis Spectrum analysis White noise Spatial analysis GPS Noise Wavelet denoising Spectral analysis Principal component analysis
Online Access	Get full text
ISSN	1080-5370 1521-1886
DOI	10.1007/s10291-015-0502-0

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Abstract	In general, high-rate GPS data sets are subject to common mode error (CME), multipath error, and high-frequency random noise, which adversely affect the GPS positioning accuracy. In order to improve the precision and reliability of GPS positioning, a multiscale multiway principal component analysis (MSMPCA) denoising method is introduced here. The 1-Hz GPS coordinate time series at ten stations from the California Real Time GPS Network are employed to assess the performance of MSMPCA. Its results are compared with those of the classical denoising methods, including wavelet denoising, PCA, multiway PCA, and multiscale PCA. The results indicate that MSMPCA is able to eliminate not only high-frequency random noise but also low-frequency errors and CME. Furthermore, quantitative analysis shows that MSMPCA is more accurate than the classical denoising methods. Spectral analysis shows that a combination of white plus flicker noise is considered to be the adequate model for the noise characteristics of all three components. Both white and power-law noise amplitudes are smallest in the north component and largest in the vertical component. MSMPCA decreases the mean amplitudes of white noise from 1.3 to 0.0, 0.9 to 0.0, and 2.8 to 0.1 mm in north, east, and vertical components, and those of power-law noise from 4.6 to 1.2, 3.9 to 1.1, and 19.9 to 8.4 mm, respectively. MSMPCA is a promising alternative for removing noise of various frequencies (0.00025–0.5 Hz) from high-rate GPS signals.
AbstractList	In general, high-rate GPS data sets are subject to common mode error (CME), multipath error, and high-frequency random noise, which adversely affect the GPS positioning accuracy. In order to improve the precision and reliability of GPS positioning, a multiscale multiway principal component analysis (MSMPCA) denoising method is introduced here. The 1-Hz GPS coordinate time series at ten stations from the California Real Time GPS Network are employed to assess the performance of MSMPCA. Its results are compared with those of the classical denoising methods, including wavelet denoising, PCA, multiway PCA, and multiscale PCA. The results indicate that MSMPCA is able to eliminate not only high-frequency random noise but also low-frequency errors and CME. Furthermore, quantitative analysis shows that MSMPCA is more accurate than the classical denoising methods. Spectral analysis shows that a combination of white plus flicker noise is considered to be the adequate model for the noise characteristics of all three components. Both white and power-law noise amplitudes are smallest in the north component and largest in the vertical component. MSMPCA decreases the mean amplitudes of white noise from 1.3 to 0.0, 0.9 to 0.0, and 2.8 to 0.1 mm in north, east, and vertical components, and those of power-law noise from 4.6 to 1.2, 3.9 to 1.1, and 19.9 to 8.4 mm, respectively. MSMPCA is a promising alternative for removing noise of various frequencies (0.00025–0.5 Hz) from high-rate GPS signals. In general, high-rate GPS data sets are subject to common mode error (CME), multipath error, and high-frequency random noise, which adversely affect the GPS positioning accuracy. In order to improve the precision and reliability of GPS positioning, a multiscale multiway principal component analysis (MSMPCA) denoising method is introduced here. The 1-Hz GPS coordinate time series at ten stations from the California Real Time GPS Network are employed to assess the performance of MSMPCA. Its results are compared with those of the classical denoising methods, including wavelet denoising, PCA, multiway PCA, and multiscale PCA. The results indicate that MSMPCA is able to eliminate not only high-frequency random noise but also low-frequency errors and CME. Furthermore, quantitative analysis shows that MSMPCA is more accurate than the classical denoising methods. Spectral analysis shows that a combination of white plus flicker noise is considered to be the adequate model for the noise characteristics of all three components. Both white and power-law noise amplitudes are smallest in the north component and largest in the vertical component. MSMPCA decreases the mean amplitudes of white noise from 1.3 to 0.0, 0.9 to 0.0, and 2.8 to 0.1 mm in north, east, and vertical components, and those of power-law noise from 4.6 to 1.2, 3.9 to 1.1, and 19.9 to 8.4 mm, respectively. MSMPCA is a promising alternative for removing noise of various frequencies (0.00025–0.5 Hz) from high-rate GPS signals.
Author	Xu, Caijun Li, Yanyan Yi, Lei
Author_xml	– sequence: 1 givenname: Yanyan surname: Li fullname: Li, Yanyan organization: School of Geodesy and Geomatics, Wuhan University – sequence: 2 givenname: Caijun surname: Xu fullname: Xu, Caijun email: cjxu@sgg.whu.edu.cn organization: School of Geodesy and Geomatics, Wuhan University, Collaborative Innovation Center of Geospatial Technology – sequence: 3 givenname: Lei surname: Yi fullname: Yi, Lei organization: School of Geodesy and Geomatics, Wuhan University
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Cites_doi	10.1029/97JB01378 10.1080/01621459.1988.10478639 10.1785/0120070096 10.1007/s00034-014-9864-8 10.1007/978-1-4471-2386-6_128 10.1029/2001JB000305 10.1029/2001JB000329 10.1007/s10916-014-0031-3 10.1002/jgrb.50199 10.1029/2004GL021621 10.1016/j.asr.2014.12.016 10.1046/j.1365-246x.1999.00862.x 10.1029/1998JB900033 10.1007/s00190-008-0251-8 10.1126/science.1084531 10.1146/annurev.earth.25.1.301 10.1002/aic.690400809 10.1029/91GL02832 10.1007/s00190-010-0371-9 10.1029/96JB02945 10.1016/j.jbiotec.2004.10.012 10.1002/env.628 10.1061/(ASCE)0733-9453(2003)129:3(99) 10.1029/97JB01380 10.1002/aic.690440712 10.1093/biomet/81.3.425 10.1016/0169-7439(93)E0086-J 10.1016/j.jsv.2008.04.036 10.1126/science.1101304 10.1109/PLANS.2006.1650660
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SubjectTerms	Amplitudes Atmospheric Sciences Automotive Engineering Component reliability Earth and Environmental Science Earth Sciences Electrical Engineering Flicker Geophysics/Geodesy Global positioning systems GPS Multiscale analysis Noise Noise reduction Original Article Performance assessment Power law Principal components analysis Random noise Reliability analysis Satellite navigation systems Space Exploration and Astronautics Space Sciences (including Extraterrestrial Physics Spatial data Spectral analysis Spectrum analysis White noise
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Title	Denoising effect of multiscale multiway analysis on high-rate GPS observations
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