Your search keyword '"Artificial satellites in navigation"' showing total 4 results

1. Análise do uso de dados GPS/GLONASS em diferentes métodos de posicionamento por satélites considerando a influência das condições ionosféricas brasileiras.

Author

Oliveira Jerez, Gabriel and Marra Alves, Daniele Barroca

Subjects

*GLOBAL Positioning System, *ARTIFICIAL satellites in navigation, *IONOSPHERE

Abstract

GLONASS (GLObal NAvigation Satellite System) and GPS (Global Positioning System) are the pioneer satellite navigation systems. The combined use of GPS and GLONASS data initially aroused interest, but research investigating both signals declined greatly in the late nineties due to the fast degradation that GLONASS suffered. However, after a plan to re-establish the system, in 2011 GLONASS returned to a complete constellation and global coverage. In addition to the reestablishment, the system also went through a modernization process, with new generations of satellites being developed, refinements of the time and reference systems and new control stations being installed. Besides the use of combined data, other factors that influence the positioning quality are the methods employed and the errors to which the transmitted signals are subject. Regarding errors, the ionosphere is an important source, especially for users of simple frequency receivers. Considering this scenario, the present work aimed to conduct a study of the GLONASS system, as well as to analyze the improvements presented in the positioning using its data combined with GPS data in different positioning methods, considering different ionospheric conditions. In general, it was possible to verify the viability of using GLONASS data combined with GPS in all the positioning methods evaluated. In general, it was possible to verify the viability of using GLONASS data combined with GPS in all the positioning methods evaluated, with improvement in more than 97% of the cases analyzed for point positioning and around 70% of the cases with relative positioning. [ABSTRACT FROM AUTHOR]

Published

2022

2. Análise do serviço on-line de PPP (GDGPS - APPS) para Receptores de Dupla Frequência: um estudo envolvendo dados de estações da RBMC.

Author

Klein, Ivandro, Matsuoka, Marcelo Tomio, and de Souza, Sérgio Florêncio

Subjects

*GLOBAL Positioning System, *GEOGRAPHIC information systems, *UMA, *GEODYNAMICS, *ARTIFICIAL satellites in navigation

Abstract

ANALYSIS OF ON-LINE PPP SERVICE (GDGPS - APPS) FOR DUAL-FREQUENCY RECEIVERS: A STUDY INVOLVING DATA FROM RBMC STATIONS. The PPP (Precise Point Positioning) is a positioning method by GNSS (Global Navigation Satellite System) that has gained great popularity, due to on-line services for processing, most of them available for free. The PPP requires GNSS data from a unique receiver and the use of precise ephemeris and corrections. One of these freely available on-line PPP processing services is the APPS (Automatic Precise Positioning Service), a post-processed mode from NASA, and derivated from GDGPS (Global Differential GPS), which is a real-time GPS monitoring system with more than 100 globally distributed stations. This paper is focused on the evaluation of the APPS processing service to GPS data corresponding to a period of 30 days from the Brazilian stations POAL and IMPZ, respectively located in the South and North of Brazil, which belong to the official network of SIRGAS reference system. Each daily file contains 24 hours of observations with collection rate of 15 seconds, and it was processed time tracking of 2, 4, 6 and 24 hours. The daily coordinates of these stations, estimated by the PPP, have been updated to the SIRGAS2000 reference's epoch (2000,4), and compared with the official station coordinates. The discrepancies to a time tracking of 24 hours showed root mean square error less than 2 cm, both in planimetry and altimetry, which attests the potential use of PPP/APPS in high-accuracy applications, as geodynamic studies. It also shows an improve of accuracy of few millimeters when the time tracking increases to four hours, and minor or statically similar error variances when the time was six hours. [ABSTRACT FROM AUTHOR]

Published

2010

3. Comparative Analysis of positional quality methods of precise point positioning and relative positioning static with GNSS

Author

Almeida, Marília Sanglard, Rodrigues, Dalto Domingos, Gripp Junior, Joel, Poz, Willian Rodrigo Dal, Ferraz, Antonio Santana, and Camargo, Paulo de Oliveira

Subjects

Artificial satellites in navigation, Sistema de posicionamento global, Satélites artificiais em navegação, ENGENHARIAS [CNPQ], Global positioning system, Geodésia, Geodesy

Abstract

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior Among the technologies of spatial positioning, highlight the GNSS (Global Navigation Satellite System), which is widely used in various applications in the area of Geodesy, among others. The precise point positioning (PPP) has been shown to be a powerful tool for geodetic and geodynamics. applications Relative positioning is still the most widely used method for determination of coordinates in precision geodetic surveys. However, the PPP is increasingly in evidence and has provided satisfactory results. Given the above, remains to be seen, among the techniques mentioned, which provides more accurate results currently. The data used in this study were collected by the stations of RBMC (Brazilian Network for Continuous Monitoring of GNSS Systems) provided by IBGE (Brazilian Institute of Geography and Statistics), for the date January 01, 2014. For PPP analysis was used the free service online IBGE-PPP, and for analysis of static relative positioning was used the free online placement service AUSPOS, that processes network data, using the scientific software Bernese, and commercial software LGO (Leica Geo Office), which was used for processing single baselines and multiple baselines (vector adjustment).The GPS data were processed by varying the trace interval, covering the intervals of 1, 2, 4, 6, 8, 10 and 12 hours. In IBGE-PPP and AUSPOS the results provided was referenced to IGb08 (ITRF2008) at the time of data collection. To process the data in the LGO, the coordinates of the base stations, available in SIRGAS2000, epoch 2000.4, were transformed and updated to the reference system IGb08 (ITRF2008) at the time of data collection.Thus, the estimated coordinates at LGO were also estimated in IGb08 at the time of data collection. In sequence, the coordinates estimated in LGO, IBGE-PPP and AUSPOS were compared with the coordinates provided in descriptive of RBMC stations,which were also transformed and updated to the same reference system and time of coordinates estimated. With that, the movement of tectonic plates over time was minimized. In this way, from the calculation of discrepancies (trends) and with the clarifications provided in the adjustment, it was possible to perform the calculation of accuracies. According to the results, it was concluded that the method of relative positioning with the use of computational application and commercial use of receivers of dual frequency continues to be the most accurate method, regardless of the length of the baseline. The performance of relative positioning with a frequency receivers, involving short baselines also showed excellent results. In this case, at 64.3% of the results the accuracy was millimeter. It should be noted the potential of the IBGE-PPP and AUSPOS, which showed good results. In addition, these processing services are free and the users need only a receiver. Dentre as tecnologias espaciais de posicionamento, destaca-se o GNSS (Global Navigation Satellite System), que é amplamente empregado em diversas aplicações na área de Geodésia, entre outras. O Posicionamento por Ponto Preciso (PPP) tem se mostrado uma poderosa ferramenta para aplicações geodésicas e geodinâmicas. O posicionamento relativo é ainda o método mais utilizado para determinação de coordenadas em levantamentos geodésicos de precisão. Contudo, o PPP está cada vez mais em evidência e tem proporcionado resultados satisfatórios. Diante do exposto, resta saber, dentre as técnicas mencionadas, qual apresenta resultados mais acurados atualmente. Os dados utilizados neste trabalho foram coletados pelas estações da RBMC (Rede Brasileira de Monitoramento Contínuo dos Sistemas GNSS) disponibilizados pelo IBGE (Instituto Brasileiro de Geografia e Estatística), referentes à data 01 de janeiro de 2014. Para análise do PPP foi utilizado o serviço gratuito online IBGE-PPP, e para análise do posicionamento relativo estático foram utilizados o serviço de posicionamento online gratuito AUSPOS, que processa os dados em rede, com uso do software científico Bernese, e o software comercial LGO (Leica Geo Office), que foi utilizado para processamento de linhas de base simples e de múltiplas linhas de base (ajustamento vetorial). Os dados GPS foram processados variando o intervalo de rastreio, abrangendo os intervalos de 1, 2, 4, 6, 8, 10 e 12 horas. No IBGE- PPP e no AUSPOS os resultados fornecidos são referenciados ao IGb08 (ITRF2008) na época de coleta dos dados. Para o processamento dos dados no LGO as coordenadas das estações base, disponibilizadas em SIRGAS2000, época 2000,4, foram transformadas e atualizadas para o sistema de referência IGb08 (ITRF2008) na época de coleta dos dados. Assim, as coordenadas estimadas no LGO também foram estimadas no IGb08 na época de coleta dos dados. Na sequência, as coordenadas estimadas no LGO, IBGE-PPP e AUSPOS foram comparadas com as coordenadas disponibilizadas nos descritivos das estações da RBMC, que também foram transformadas e atualizadas para o mesmo sistema de referência e época das coordenadas estimadas. Com isso, o deslocamento das placas tectônicas ao longo do tempo foi minimizado. Desta forma, a partir do cálculo das discrepâncias (tendências) e com as precisões disponibilizadas no ajustamento, foi possível realizar o cálculo das acurácias. De acordo com os resultados obtidos, conclui-se que o método de posicionamento relativo com o uso de aplicativo computacional comercial e uso de receptores de dupla frequência continua sendo o método mais acurado, independentemente do comprimento da linha de base. A performance do posicionamento relativo com receptores de uma frequência, envolvendo linhas de base curtas, também apresentou ótimos resultados. Neste caso, em 64,3% dos resultados a acurácia foi milimétrica. Deve-se salientar a potencialidade do IBGE-PPP e do AUSPOS, que apresentaram bons resultados. Além disso, esses serviços de processamento são gratuitos e o usuário deve dispor de apenas um receptor.

Published

2015

4. Relative positioning in real-time and post-processed using GNSS micro receiver used in smartphone

Author

Oliveira, Gabriel Diniz de, Costa, Moisés Ferreira, Poz, Willian Rodrigo Dal, and Saatkamp, Eno Darci

Subjects

Artificial satellites in navigation, Sistema de posicionamento global, Satélites artificiais em navegação, Smartphone, Sistemas de comunicação móvel, Mobile communication systems, Global positioning system, ENGENHARIAS::ENGENHARIA CIVIL [CNPQ]

Abstract

Over time has increased the need for low cost positioning of the populatio, and for this reason the demand for navigation devices has grown considerably in all levels of users of these devices, the population in general has greater access to smartphones because of its many features. Smartphones using micro GNSS receiver has a main component of positioning, where the pseudorange is its basic observable. The data sources for GPS corrections are increasingly available to the community through institutions as the IBGE with the Brazilian Network for Continuous Monitoring (RBMC). Thus, there is a greater possibility of improvement in accuracy of positioning these devices with the post- processed relative positioning and even in real time. With these possibilities and needs, this study aims the establishment of methodology that improves the accuracy in the positioning devices using micro GNSS receiver with a recursive least squares estimation with the Kalman gain matrix applied in relative positioning static by double difference of pseudorange in short baselines. To verify the effectiveness of this methodology is used SiRFstar IV micro receiver data which receives data only in L1 frequency GPS constellation. Was used reference RBMC stations to process these data. With tracking 15 minutes in known points had a mean deviation in the horizontal component of the plane coordinates 29 cm for post-processing and 98 cm for the real time processing, and, for the single point positioning average deviation was 6 meters. With this, it was concluded that the use of static methods for processing on recursive least squares estimation improves the accuracy of positioning significantly, where mobile devices that were previously given only to navigation may also be used for mapping. Com o passar do tempo aumentou a necessidade da população em posicionamento a baixo custo, e por este motivo a procura por aparelhos de navegação tem crescido consideravelmente em todos os níveis de usuários. Destes dispositivos, a população no geral tem maior acesso aos smartphones devido a suas diversas funcionalidades. Os smartphones utilizam de microrreceptor GNSS como principal componente de posicionamento, sendo que sua observável básica é a pseudodistância derivada do código C/A. As fontes de dados para correções GPS estão cada vez mais disponíveis para a comunidade por meio de instituições como o IBGE com a Rede Brasileira de Monitoramento Continuo dos Sistemas GNSS (RBMC). Com isso, tem-se uma maior possibilidade de melhorias na acurácia do posicionamento destes dispositivos com o posicionamento relativo pós-processado e até mesmo em tempo real. Com estas possibilidades e necessidades, este trabalho tem como objetivo o estabelecimento de metodologia que melhore a acurácia no posicionamento de dispositivos móveis que utilizam microrreceptor GNSS, utilizando a estimativa de mínimos quadrados recursiva com a matriz de ganho de Kalman aplicada no posicionamento relativo estático por dupla diferença da pseudodistância em linhas de base curtas. Para verificar a eficácia desta metodologia utilizou-se dados do microrreceptor SiRFstar IV que recebe dados na frequência L1 da constelação GPS. Foram utilizadas as estações de referência da RBMC para o processamento destes dados. Com rastreios de 15 minutos em pontos de coordenadas conhecidas teve-se um desvio médio na componente horizontal das coordenadas planas de 29 centímetros para o pós- processamento e 98 centímetros para o processamento em tempo real, sendo que, para o posicionamento por ponto simples o desvio médio foi de 6 metros. Com isso, concluiu-se que a utilização da metodologia de processamento relativo estático por estimativa dos mínimos quadrados recursiva melhorou a acurácia do posicionamento de forma significativa, onde dispositivos móveis 14que até então eram indicados somente para navegação podem ser utilizados também para mapeamento.

Published

2014