Comparison Analysis on the Accuracy of Galileo PPP Using Different Frequency Combinations in Europe

Song, Jia; Zhao, Liang

doi:10.3390/app112110020

Cited by 2 publications

(1 citation statement)

References 22 publications

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“…A multi GNSS single-frequency RTK study was presented in [12]. The performance of Galileo PPP using different frequencies was also examined in more recent studies, including triple-frequency, triple-constellation Precise-Point Positioning-Ambiguity Resolution (PPP-AR) models [13], triple-frequency single-constellation PPP solutions [14], triple-frequency GPS/Galileo PPP models [15], dual-and multi-frequency and multi-constellations combinations [16], and changes from the PPP approach to PPP-AR [17], for precise static and kinematic applications.…”

Section: Introductionmentioning

confidence: 99%

Kinematic Galileo and GPS Performances in Aerial, Terrestrial, and Maritime Environments

Bastos

Buist²,

Cefalo

et al. 2022

Remote Sensing

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On 15 December 2016, the European Commission (EC) declared the provision of the Galileo Initial Services (IS). This marked a historical milestone in the Galileo program, towards the reaching of its Full Operational Capability. This allows users to navigate with performance-accuracy levels either matching or exceeding those obtained with other GNSS. Under the delegation of the EC, the European Union Agency for the Space Programme (EUSPA) has assumed the role of the Galileo Service Provider. As part of this service provision, the primary mission of the Galileo Reference Centre (GRC) is to provide the EUSPA and the EC with independent means for monitoring and evaluating the performance of the Galileo services, the quality of the signals in space, and the performance of other GNSS. This mission includes significant contributions from cooperating entities in the European Union (EU) Member States (MS), Norway and Switzerland. In particular, for a detailed assessment of the Galileo performance, these contributions include (but are not limited to) periodic dynamic campaigns in three different environments (aerial, terrestrial, and maritime). These campaigns were executed in the frame of the GRC-MS Project and use multi-constellation receivers to compare the navigation performance obtained with different GNSS. The objective of this paper is to present the numerical results obtained from these campaigns, together with several considerations about the experimental setup, the methodology for the estimation of the reference («actual») trajectory, and the reasons for possible performance degradations.

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