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PPP models and performances from single- to quad-frequency BDS observations

Nowadays, China BeiDou Navigation Satellite System (BDS) has been developed well and provided global services with highly precise positioning, navigation and timing (PNT) as well as unique short-message commun...

Authors: Shuanggen Jin and Ke Su

Citation: Satellite Navigation 2020 1:16

Content type: Original Article Published on: 30 April 2020
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Impact of China’s high speed train window glass on GNSS signals and positioning performance

High speed train (HST) is an excellent platform to perform ultra-high spatial and temporal resolution observations of atmosphere using global navigation satellite systems (GNSS). However, we find that signal a...

Authors: Zhizhao Liu, Yangzhao Gong and Letao Zhou

Citation: Satellite Navigation 2020 1:14

Content type: Original Article Published on: 13 April 2020
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Correction to: Advances in BeiDou Navigation Satellite System (BDS) and satellite navigation augmentation technologies

First, in the first paragraph of this article, the sentence “In recent years, China has been actively promoting the construction and development of the BeiDou Navigation Satellite System (BDS), and by the end ...

Authors: Rui Li, Shuaiyong Zheng, Ershen Wang, Jinping Chen, Shaojun Feng, Dun Wang and Liwen Dai

Citation: Satellite Navigation 2020 1:13

Content type: Correction Published on: 31 March 2020

The original article was published in Satellite Navigation 2020 1:12
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Estimation method of SBAS dual-frequency range error integrity parameter

The development of a dual-frequency multi-constellation satellite-based augmentation system (DFMC SBAS) is in progress worldwide. The broadcasted dual-frequency range error (DFRE) integrity parameter reflects ...

Authors: Bo Shao, Qun Ding and Xianbing Wu

Citation: Satellite Navigation 2020 1:9

Content type: Original Article Published on: 30 March 2020
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Advances in BeiDou Navigation Satellite System (BDS) and satellite navigation augmentation technologies

Several noteworthy breakthroughs have been made with the BeiDou Navigation Satellite System (BDS) and other global navigation satellite systems as well as the associated augmentation systems, such as the commi...

Authors: Rui Li, Shuaiyong Zheng, Ershen Wang, Jinping Chen, Shaojun Feng, Dun Wang and Liwen Dai

Citation: Satellite Navigation 2020 1:12

Content type: Review Published on: 16 March 2020

The Correction to this article has been published in Satellite Navigation 2020 1:13
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Precise time scales and navigation systems: mutual benefits of timekeeping and positioning

The relationship and the mutual benefits of timekeeping and Global Navigation Satellite Systems (GNSS) are reviewed, showing how each field has been enriched and will continue to progress, based on the progres...

Authors: Patrizia Tavella and Gérard Petit

Citation: Satellite Navigation 2020 1:10

Content type: Review Published on: 16 March 2020
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Orbit determination and time synchronization for BDS-3 satellites with raw inter-satellite link ranging observations

To provide competitive global positioning and timing services under the condition that monitoring stations are confined to Chinese territory, inter-satellite link (ISL) technology is used by the third-generati...

Authors: Rengui Ruan, Xiaolin Jia, Laiping Feng, Jun Zhu, Zongbo Huyan, Jie Li and Ziqing Wei

Citation: Satellite Navigation 2020 1:8

Content type: Original Article Published on: 2 March 2020
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Multi-constellation GNSS precise point positioning with multi-frequency raw observations and dual-frequency observations of ionospheric-free linear combination

Precise point positioning (PPP) is famous for its capability of high-precision positioning with just one station as long as the receiver can receive global navigation satellite system (GNSS) signals. With the ...

Authors: Xiangdong An, Xiaolin Meng and Weiping Jiang

Citation: Satellite Navigation 2020 1:7

Content type: Original Article Published on: 17 February 2020
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Analysis of Galileo signal-in-space range error and positioning performance during 2015–2018

A long-term analysis of signal-in-space range error (SISRE) is presented for all healthy Galileo satellites, and the first pair of full operational capability satellites in wrong elliptical orbits. Both orbit ...

Authors: Weiwang Wu, Fei Guo and Jiazhu Zheng

Citation: Satellite Navigation 2020 1:6

Content type: Original Article Published on: 3 February 2020
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Research on BeiDou anti-spoofing technology based on comprehensive radio determination satellite service

The BeiDou system (BDS) plays a significant role in people’s lives, but its security is easily affected by spoofing attacks. The radio determination satellite service (RDSS) is a special service of BDS that pr...

Authors: Fei Wang, Caibo Hu, Shuang Wu, Yixue Tao and Yunxiang Xu

Citation: Satellite Navigation 2020 1:5

Content type: Original Article Published on: 20 January 2020
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On inertial navigation and attitude initialization in polar areas

Inertial navigation and attitude initialization in polar areas become a hot topic in recent years in the navigation community, as the widely-used navigation mechanization of the local level frame encounters th...

Authors: Yuanxin Wu, Chao He and Gang Liu

Citation: Satellite Navigation 2020 1:4

Content type: Original Article Published on: 20 January 2020
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Initial analysis for characterizing and mitigating the pseudorange biases of BeiDou navigation satellite system

Pseudorange bias has become a practical obstacle in the field of high-precision global navigation satellite system (GNSS) applications, which greatly restricts the further development of high-precision applica...

Authors: Chengyan He, Xiaochun Lu, Ji Guo, Chengeng Su, Wei Wang and Meng Wang

Citation: Satellite Navigation 2020 1:3

Content type: Original Article Published on: 20 January 2020
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Inertial sensors technologies for navigation applications: state of the art and future trends

Inertial navigation represents a unique method of navigation, in which there is no dependency on external sources of information. As opposed to other position fixing navigation techniques, inertial navigation ...

Authors: Naser El-Sheimy and Ahmed Youssef

Citation: Satellite Navigation 2020 1:2

Content type: Review Published on: 20 January 2020
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Basic performance and future developments of BeiDou global navigation satellite system

The core performance elements of global navigation satellite system include availability, continuity, integrity and accuracy, all of which are particularly important for the developing BeiDou global navigation...

Authors: Yuanxi Yang, Yue Mao and Bijiao Sun

Citation: Satellite Navigation 2020 1:1

Content type: Original Article Published on: 20 January 2020
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Articles

PPP models and performances from single- to quad-frequency BDS observations

Impact of China’s high speed train window glass on GNSS signals and positioning performance

Correction to: Advances in BeiDou Navigation Satellite System (BDS) and satellite navigation augmentation technologies

Estimation method of SBAS dual-frequency range error integrity parameter

Advances in BeiDou Navigation Satellite System (BDS) and satellite navigation augmentation technologies

Precise time scales and navigation systems: mutual benefits of timekeeping and positioning

Orbit determination and time synchronization for BDS-3 satellites with raw inter-satellite link ranging observations

Multi-constellation GNSS precise point positioning with multi-frequency raw observations and dual-frequency observations of ionospheric-free linear combination

Analysis of Galileo signal-in-space range error and positioning performance during 2015–2018

Research on BeiDou anti-spoofing technology based on comprehensive radio determination satellite service

On inertial navigation and attitude initialization in polar areas

Initial analysis for characterizing and mitigating the pseudorange biases of BeiDou navigation satellite system

Inertial sensors technologies for navigation applications: state of the art and future trends

Basic performance and future developments of BeiDou global navigation satellite system

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