Jiexian Wang scite author profile

Jiexian Wang

5Publications

171Citation Statements Received

44Citation Statements Given

How they've been cited

270

169

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Affiliations

Tongji University, University of Stuttgart, Shanghai Astronomical Observatory

Publications

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Experimental Study on the Precise Orbit Determination of the BeiDou Navigation Satellite System

Wang

et al. 2013

Sensors

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The regional service of the Chinese BeiDou satellite navigation system is now in operation with a constellation including five Geostationary Earth Orbit satellites (GEO), five Inclined Geosynchronous Orbit (IGSO) satellites and four Medium Earth Orbit (MEO) satellites. Besides the standard positioning service with positioning accuracy of about 10 m, both precise relative positioning and precise point positioning are already demonstrated. As is well known, precise orbit and clock determination is essential in enhancing precise positioning services. To improve the satellite orbits of the BeiDou regional system, we concentrate on the impact of the tracking geometry and the involvement of MEOs, and on the effect of integer ambiguity resolution as well. About seven weeks of data collected at the BeiDou Experimental Test Service (BETS) network is employed in this experimental study. Several tracking scenarios are defined, various processing schemata are designed and carried out; and then, the estimates are compared and analyzed in detail. The results show that GEO orbits, especially the along-track component, can be significantly improved by extending the tracking network in China along longitude direction, whereas IGSOs gain more improvement if the tracking network extends in latitude. The involvement of MEOs and ambiguity-fixing also make the orbits better.

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Performance of BDS-3: satellite visibility and dilution of precision

Wang

Dong

et al. 2019

GPS Solut

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Improved method for estimating the inter-frequency satellite clock bias of triple-frequency GPS

Xiao

et al. 2015

GPS Solut

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A simplified and unified model of multi-GNSS precise point positioning

Chen

Zhang

Wang

et al. 2015

Advances in Space Research

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Initial Positioning Assessment of BDS New Satellites and New Signals

et al. 2019

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With the official announcement of open service since the end of 2018, the BeiDou navigation satellite system (BDS) has started to provide global positioning, navigation and timing (PNT) services. Thus, it is worth assessing the positioning service of new BDS satellites and signals. In this paper, we comprehensively assess the system status and the global positioning performance of BDS regarding single point positioning (SPP) and real-time kinematic (RTK) performance. Results show that the signal in space range error (SISRE) of BDS-3 satellites is superior to that of BDS-2 satellites, showing an overall accuracy of 0.71 m versus 0.97 m, which is competitive with GPS and Galileo. With the contribution of BDS-3, the number of global average visible satellites has increased from 5.1 to 10.7, which provides a mean global position dilution of precision (PDOP) value better than 6 at 99.88% and the mean availability of basic PNT performance is also improved from 35.25% to 98.84%. One week of statistical results from 54 globally distributed international GNSS service (IGS) stations show that the root mean square (RMS) of SPP accuracy is 1.1 m in horizontal and 2.2 m in vertical, which is at the same level of GPS. The new B1c and B2a signals show a smaller observation noise than B1I, and SPP performance of B1c is similar to that of B1I. However, the positioning precision is slightly worse at the B2a frequency, which may be due to the inaccurate BDS ionosphere correction. As for short baseline RTK, baseline accuracy is also improved due to the increased number of new BDS satellites.

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Jiexian Wang

Experimental Study on the Precise Orbit Determination of the BeiDou Navigation Satellite System

Performance of BDS-3: satellite visibility and dilution of precision

Improved method for estimating the inter-frequency satellite clock bias of triple-frequency GPS

A simplified and unified model of multi-GNSS precise point positioning

Initial Positioning Assessment of BDS New Satellites and New Signals

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