Single-Frequency Kinematic Performance Comparison between Galileo, GPS, and GLONASS Satellite Positioning Systems Using an MMS-Generated Trajectory as a Reference: Preliminary Results

Tarantino, Eufemia; Novelli, Antonio; Cefalo, Raffaela; Sluga, Tatiana; Tommasi, Agostino

doi:10.3390/ijgi7030122

Cited by 5 publications

(4 citation statements)

References 33 publications

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“…This article presents some results of the terrestrial campaigns performed starting from 2019 using the GeoSNav Lab MMS (Mobile Mapping System), a Septentrio ® AsterX-U geodetic GNSS multi-constellation/multi-frequency receiver and a multiconstellation/double frequencies smartphone with the principal aim of evaluating the Galileo performances. These performances were evaluated comparing the Galileo PVT (Positioning, Velocity, Time) parameters (Leick et al, 2003;Subirana et al, 2013;Hofmann-Wellenhof et al, 2015; obtained using GPS, GLONASS, GPS+GLONASS, GPS+Galileo and GPS+GLONASS+Galileo, both in urban and extra-urban areas (Bastos et al, 2022;Tarantino et al, 2018). The processed rover trajectories and the produced outputs were compared with integrated high-performance trajectory obtained from GNSS/INS (INertial System), giving a "reference", stable and highly accured trajectory.…”

Section: Introductionmentioning

confidence: 99%

Geodetic Kinematic Terrestrial Navigation Using a MMS – Multi-Constellation and Multi-Frequency Galileo/GPS/Glonass Performance Comparisons

Cefalo

Snider

Sluga

et al. 2023

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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Abstract. This paper presents a part of the research activities performed from 2019 to 2022 in the framework of WP 5.3 “Field campaign” and in particular, the activities “Land urban and extra-urban data measurement campaigns” of the European GRC-MS (Galileo Reference Center – Member States) Project - GSA/GRANT/04/2016.The dynamic data-collection campaigns were conducted by three participating member states (Portugal, Italy, and Romania), in three different environments: aerial, terrestrial, and maritime, respectively.This article presents a comparison of the results obtained for the terrestrial environment, considering the performance of Galileo used in conjunction with other GNSS systems, such as GPS, using different geodetic and navigational multi-constellation and multi-frequency receivers/devices experimental dynamic activities. Starting from the user’s needs and requirements, the experimental setup and the methodology for the estimation of the reference («actual») trajectory are provided. These are complemented by numerical results and reasons for possible performance degradations analyses.The processed rover trajectories and the produced outputs were compared to the reference trajectory obtained from GNSS/INS (INertial System) integrated high-performance solution.Galileo-only and GPS-only solutions, so as multi-system solutions (GPS+Galileo, GPS+GLONASS and GPS+GLONASS+Galileo) were analysed. PVT (Position Velocity Time) solutions were computed using post-processing geodetic interferential techniques.From the performed analyses, some preliminary conclusions relative to the Galileo performances applied to terrestrial urban and extra-urban navigation were derived.These activities need to be continued in the near future, taking into consideration the Galileo constellation improvements and the ITS (Intelligent Transport Systems) applications in order to improve the offered services and the road safety.

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Section: Introductionmentioning

confidence: 99%

Geodetic Kinematic Terrestrial Navigation Using a MMS – Multi-Constellation and Multi-Frequency Galileo/GPS/Glonass Performance Comparisons

Cefalo

Snider

Sluga

et al. 2023

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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“…The Galileo OS is freely available for mass-market applications of synchronization and positioning. It does not require any authorization and can be used by anyone equipped with an adequate receiver [6]. Kinematic applications represent one of the main domains that can benefit from the advantages of the Galileo OS.…”

Section: Introductionmentioning

confidence: 99%

“…For the terrestrial domain, the results of a single-frequency kinematic performance comparison among the Galileo, GPS, and GLONASS systems using an MMS (Mobile Mapping System) generated a trajectory as reference, presented in [6]. It is stated that the Galileo system is characterized by a better planimetric performance with respect to the other systems, referred to by the reference trajectory [6]. The results of a vehicular test conducted in urban and suburban areas, with real-time computed kinematic GPS/Galileo PPP solutions, are presented in [22].…”

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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“…Diante disso, a literatura científica internacional apresenta alguns estudos sobre a interoperabilidade dos sistemas GNSS com dados simulados, como os trabalhos de Ji et al (2010), Odijk e Teunissen (2013) e, dados reais de Li et al (2015), Pan et al (2016) e Tarantino et al (2018). Porém, no Brasil têm-se poucos estudos relacionados, como o de Setti Júnior, Alves e Gouveia (2016) que compararam a contribuição do Galileo integrado ao GPS no posicionamento por ponto simples.…”

Section: Introductionunclassified

Análise do GNSS PPP multi-constelações com uso dos sistemas GPS, GLONASS e Galileo

Menezes

Poz²

2020

Rev. Bras. Cartogr.

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Dentre os sistemas que compõem o GNSS, estão completamente funcionais o GPS e o GLONASS. Além disso, encontram-se em desenvolvimento o Galileo e o BeiDou, sendo que o Galileo dispõe de 17 satélites operantes. Desta forma, o objetivo deste trabalho é investigar o desempenho de combinações multi-constelações envolvendo GPS, GLONASS e Galileo em quatro estações da RBMC, utilizando o método de posicionamento PPP. Para alcançar esse propósito, foram realizadas avaliações das acurácias planimétricas e altimétricas de estações multi-constelações, pertencentes à RBMC, abrangendo os 30 dias do mês de abril de 2018. Os dados foram editados no freeware GFZRNX a fim de obter arquivos com intervalos de 60 e 180 minutos de rastreio, contendo apenas dados GPS, GPS e GLONASS, GPS e Galileo e, a combinação dos três sistemas. Os dados foram processados a partir do software científico Bernese, versão 5.2. Os resultados mais acurados, tanto na planimetria quanto na altimetria, foram proporcionados pela tradicional integração GPS/GLONASS. Em segundo lugar, a combinação GPS/GLONASS/Galileo mostrou-se promissora, evidenciando sua interoperabilidade no método de posicionamento PPP.

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Single-Frequency Kinematic Performance Comparison between Galileo, GPS, and GLONASS Satellite Positioning Systems Using an MMS-Generated Trajectory as a Reference: Preliminary Results

Cited by 5 publications

References 33 publications

Geodetic Kinematic Terrestrial Navigation Using a MMS – Multi-Constellation and Multi-Frequency Galileo/GPS/Glonass Performance Comparisons

Geodetic Kinematic Terrestrial Navigation Using a MMS – Multi-Constellation and Multi-Frequency Galileo/GPS/Glonass Performance Comparisons

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

Análise do GNSS PPP multi-constelações com uso dos sistemas GPS, GLONASS e Galileo

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