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Centimeter-Level Precise Orbit Determination for the Luojia-1A Satellite Using BeiDou Observations
Luojia-1A is a scientific experimental satellite operated by Wuhan University, which is the first low earth orbiter (LEO) navigation signal augmentation experimental satellite. The precise orbit is the prerequisite of augmenting existing Global Navigation Satellite System (GNSS) performance and impr...
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| Published in: | Remote sensing (Basel, Switzerland) Switzerland), 2020-06, Vol.12 (12), p.2063 |
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| creator | Wang, Lei Xu, Beizhen Fu, Wenju Chen, Ruizhi Li, Tao Han, Yi Zhou, Haitao |
| description | Luojia-1A is a scientific experimental satellite operated by Wuhan University, which is the first low earth orbiter (LEO) navigation signal augmentation experimental satellite. The precise orbit is the prerequisite of augmenting existing Global Navigation Satellite System (GNSS) performance and improves users’ positioning accuracy. Meanwhile, LEO precise orbit determination (POD) with BeiDou-2 observations is particularly challenging since it only provides regional service. In this study, we investigated the method of precise orbit determination (POD) for Luojia-1A satellite with the onboard BeiDou observation to establish the high-precision spatial datum for the LEO navigation augmentation (LEO-NA) system. The multipath characteristic of the BeiDou System (BDS) observations from Luojia-1A satellite is analyzed, and the elevation-dependent BeiDou code bias is estimated with the LEO onboard observations. A weight reduction strategy is adopted to mitigate the negative effect of poor BeiDou-2 geostationary earth orbit (GEO) satellites orbit quality, and the Luojia-1A orbit precision can be improved from 6.3 cm to 2.3 cm with the GEO weighting strategy. The precision improvement of the radial direction, along-track, and out-of-plane directions are 53.47%, 47.29%, and 76.2%, respectively. Besides, tuning the pseudo-stochastic parameters is also beneficial for improving orbit precision. The experiment results indicate that about 2 cm overlapping orbit accuracy are achievable with BeiDou observations from Luojia-1A satellite if proper data processing strategies are applied. |
| doi_str_mv | 10.3390/rs12122063 |
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The precise orbit is the prerequisite of augmenting existing Global Navigation Satellite System (GNSS) performance and improves users’ positioning accuracy. Meanwhile, LEO precise orbit determination (POD) with BeiDou-2 observations is particularly challenging since it only provides regional service. In this study, we investigated the method of precise orbit determination (POD) for Luojia-1A satellite with the onboard BeiDou observation to establish the high-precision spatial datum for the LEO navigation augmentation (LEO-NA) system. The multipath characteristic of the BeiDou System (BDS) observations from Luojia-1A satellite is analyzed, and the elevation-dependent BeiDou code bias is estimated with the LEO onboard observations. A weight reduction strategy is adopted to mitigate the negative effect of poor BeiDou-2 geostationary earth orbit (GEO) satellites orbit quality, and the Luojia-1A orbit precision can be improved from 6.3 cm to 2.3 cm with the GEO weighting strategy. The precision improvement of the radial direction, along-track, and out-of-plane directions are 53.47%, 47.29%, and 76.2%, respectively. Besides, tuning the pseudo-stochastic parameters is also beneficial for improving orbit precision. The experiment results indicate that about 2 cm overlapping orbit accuracy are achievable with BeiDou observations from Luojia-1A satellite if proper data processing strategies are applied.</description><identifier>ISSN: 2072-4292</identifier><identifier>EISSN: 2072-4292</identifier><identifier>DOI: 10.3390/rs12122063</identifier><language>eng</language><publisher>Basel: MDPI AG</publisher><subject>Antennas ; Augmentation ; BeiDou Navigation Satellite System ; BeiDou observations ; Data processing ; Earth orbits ; Elevation ; Global navigation satellite system ; Ground stations ; Investigations ; Low earth orbit satellites ; Low earth orbits ; Luojia-1A satellite ; navigation augmentation ; Orbit determination ; precise orbit determination ; Receivers & amplifiers ; reduce-dynamic ; Remote sensing ; Satellite communications ; Satellite navigation systems ; Satellite observation ; Satellite tracking ; Satellites ; Stochasticity ; Weight reduction</subject><ispartof>Remote sensing (Basel, Switzerland), 2020-06, Vol.12 (12), p.2063</ispartof><rights>2020. 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The precise orbit is the prerequisite of augmenting existing Global Navigation Satellite System (GNSS) performance and improves users’ positioning accuracy. Meanwhile, LEO precise orbit determination (POD) with BeiDou-2 observations is particularly challenging since it only provides regional service. In this study, we investigated the method of precise orbit determination (POD) for Luojia-1A satellite with the onboard BeiDou observation to establish the high-precision spatial datum for the LEO navigation augmentation (LEO-NA) system. The multipath characteristic of the BeiDou System (BDS) observations from Luojia-1A satellite is analyzed, and the elevation-dependent BeiDou code bias is estimated with the LEO onboard observations. A weight reduction strategy is adopted to mitigate the negative effect of poor BeiDou-2 geostationary earth orbit (GEO) satellites orbit quality, and the Luojia-1A orbit precision can be improved from 6.3 cm to 2.3 cm with the GEO weighting strategy. 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The experiment results indicate that about 2 cm overlapping orbit accuracy are achievable with BeiDou observations from Luojia-1A satellite if proper data processing strategies are applied.</description><subject>Antennas</subject><subject>Augmentation</subject><subject>BeiDou Navigation Satellite System</subject><subject>BeiDou observations</subject><subject>Data processing</subject><subject>Earth orbits</subject><subject>Elevation</subject><subject>Global navigation satellite system</subject><subject>Ground stations</subject><subject>Investigations</subject><subject>Low earth orbit satellites</subject><subject>Low earth orbits</subject><subject>Luojia-1A satellite</subject><subject>navigation augmentation</subject><subject>Orbit determination</subject><subject>precise orbit determination</subject><subject>Receivers & amplifiers</subject><subject>reduce-dynamic</subject><subject>Remote sensing</subject><subject>Satellite communications</subject><subject>Satellite navigation 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Yi</au><au>Zhou, Haitao</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Centimeter-Level Precise Orbit Determination for the Luojia-1A Satellite Using BeiDou Observations</atitle><jtitle>Remote sensing (Basel, Switzerland)</jtitle><date>2020-06-01</date><risdate>2020</risdate><volume>12</volume><issue>12</issue><spage>2063</spage><pages>2063-</pages><issn>2072-4292</issn><eissn>2072-4292</eissn><abstract>Luojia-1A is a scientific experimental satellite operated by Wuhan University, which is the first low earth orbiter (LEO) navigation signal augmentation experimental satellite. The precise orbit is the prerequisite of augmenting existing Global Navigation Satellite System (GNSS) performance and improves users’ positioning accuracy. Meanwhile, LEO precise orbit determination (POD) with BeiDou-2 observations is particularly challenging since it only provides regional service. In this study, we investigated the method of precise orbit determination (POD) for Luojia-1A satellite with the onboard BeiDou observation to establish the high-precision spatial datum for the LEO navigation augmentation (LEO-NA) system. The multipath characteristic of the BeiDou System (BDS) observations from Luojia-1A satellite is analyzed, and the elevation-dependent BeiDou code bias is estimated with the LEO onboard observations. A weight reduction strategy is adopted to mitigate the negative effect of poor BeiDou-2 geostationary earth orbit (GEO) satellites orbit quality, and the Luojia-1A orbit precision can be improved from 6.3 cm to 2.3 cm with the GEO weighting strategy. The precision improvement of the radial direction, along-track, and out-of-plane directions are 53.47%, 47.29%, and 76.2%, respectively. Besides, tuning the pseudo-stochastic parameters is also beneficial for improving orbit precision. The experiment results indicate that about 2 cm overlapping orbit accuracy are achievable with BeiDou observations from Luojia-1A satellite if proper data processing strategies are applied.</abstract><cop>Basel</cop><pub>MDPI AG</pub><doi>10.3390/rs12122063</doi><orcidid>https://orcid.org/0000-0001-6683-2342</orcidid><orcidid>https://orcid.org/0000-0002-2308-3043</orcidid><orcidid>https://orcid.org/0000-0003-1887-6222</orcidid><orcidid>https://orcid.org/0000-0003-1730-074X</orcidid><oa>free_for_read</oa></addata></record> |
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| subjects | Antennas Augmentation BeiDou Navigation Satellite System BeiDou observations Data processing Earth orbits Elevation Global navigation satellite system Ground stations Investigations Low earth orbit satellites Low earth orbits Luojia-1A satellite navigation augmentation Orbit determination precise orbit determination Receivers & amplifiers reduce-dynamic Remote sensing Satellite communications Satellite navigation systems Satellite observation Satellite tracking Satellites Stochasticity Weight reduction |
| title | Centimeter-Level Precise Orbit Determination for the Luojia-1A Satellite Using BeiDou Observations |
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