Comparison between multi-constellation ambiguity-fixed PPP and RTK for maritime precise navigation

Tegedor, Javier; Liu, Xianglin; Ørpen, Ole; Treffers, N.; Goode, Matthew; Øvstedal, O.

doi:10.1515/jag-2014-0028

Journal of Applied Geodesy

2015

DOI: 10.1515/jag-2014-0028

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Comparison between multi-constellation ambiguity-fixed PPP and RTK for maritime precise navigation

Javier Tegedor¹,

Xianglin Liu²,

Ole Ørpen³

et al.

Abstract: In order to achieve high-accuracy positioning, either Real-Time Kinematic (RTK) or Precise Point Positioning (PPP) techniques can be used. While RTK normally delivers higher accuracy with shorter convergence times, PPP has been an attractive technology for maritime applications, as it delivers uniform positioning performance without the direct need of a nearby reference station. Traditional PPP has been based on ambiguityfloat solutions using GPS and Glonass constellations. However, the addition of new satelli… Show more

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2021

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Performance Assessment of PPP-AR Positioning and Zenith Total Delay Estimation with Modernized CSRS-PPP

Atiz

Kalaycı

2021

Artificial Satellites

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The precise point positioning (PPP) method has become more popular due to powerful online global navigation satellite system (GNSS) data processing services, such as the Canadian Spatial Reference System-PPP (CSRS-PPP). At the end of 2020, the CSRS-PPP service launched the ambiguity resolution (AR) feature for global positioning system (GPS) satellites. More reliable results are obtained with AR compared to the results with traditional ambiguity-float PPP. In this study, the performance of the modernized CSRS-PPP was comparatively assessed in terms of static positioning and zenith total delay (ZTD) estimation. Data for 1 month in the year 2019 obtained from 47 international GNSS service (IGS) stations were processed before and after modernization of the CSRS-PPP. The processes were conducted for GPS and GPS + GLONASS (GLObalnaya NAvigatsionnaya Sputnikovaya Sistema) satellite combinations. Besides, the results were analyzed in terms of accuracy and convergence time. According to the solutions, the AR feature of the CSRS-PPP improved the accuracy by about 50% in the east component for GPS + GLONASS configuration. The root-mean-square error (RMSE) of the ZTD difference between modernized CSRS-PPP service and IGS final troposphere product is 5.8 mm for the GPS-only case.

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Performance Assessment of PPP-AR Positioning and Zenith Total Delay Estimation with Modernized CSRS-PPP

Atiz

Kalaycı

2021

Artificial Satellites

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Comparison between multi-constellation ambiguity-fixed PPP and RTK for maritime precise navigation

Cited by 1 publication

References 10 publications

Performance Assessment of PPP-AR Positioning and Zenith Total Delay Estimation with Modernized CSRS-PPP

Performance Assessment of PPP-AR Positioning and Zenith Total Delay Estimation with Modernized CSRS-PPP

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