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  1. The Fractional Cycle Bias (FCB) product is crucial for the Ambiguity Resolution (AR) in Precise Point Positioning (PPP). Different from the traditional method using the ionospheric-free ambiguity which is form...

    Authors: Jin Wang, Qin Zhang and Guanwen Huang
    Citation: Satellite Navigation 2021 2:9
  2. This paper reviews the state of the art and future trends of indoor Positioning, Localization, and Navigation (PLAN). It covers the requirements, the main players, sensors, and techniques for indoor PLAN. Othe...

    Authors: Naser El-Sheimy and You Li
    Citation: Satellite Navigation 2021 2:7
  3. The BeiDou global navigation satellite system (BDS-3) constellation deployment has been completed on June 23, 2020, with a full constellation comprising 30 satellites. In this study, we present the performance...

    Authors: Wanke Liu, Mingkui Wu, Xiaohong Zhang, Wang Wang, Wei Ke and Zhiqin Zhu
    Citation: Satellite Navigation 2021 2:6
  4. The last satellite of BeiDou Navigation Satellite System with Global Coverage (BDS-3) constellation was successfully launched on June 23rd, 2020, and the entire system began to provide Positioning, Navigation,...

    Authors: Yan Xia, Xiaolin Meng, Yusong Yang, Shuguo Pan, Qing Zhao and Wang Gao
    Citation: Satellite Navigation 2021 2:8
  5. Civil receivers of Global Navigation Satellite System (GNSS) are vulnerable to spoofing and jamming attacks due to their signal structures. The Spreading Code Authentication (SCA) technique is one of the GNSS ...

    Authors: Shenran Wang, Hao Liu, Zuping Tang and Bin Ye
    Citation: Satellite Navigation 2021 2:4
  6. The implementation of Intelligent Transport System (ITS) technology is expected to significantly improve road safety and traffic efficiency. One of the key components of ITS is precise vehicle positioning. Pos...

    Authors: Yujun Du, Jinling Wang, Chris Rizos and Ahmed El-Mowafy
    Citation: Satellite Navigation 2021 2:3
  7. China Geodetic Coordinate System 2000 (CGCS2000), as the formal national coordinate reference frame, has been used for 20 years. The coordinates of all Global Navigation Satellite System (GNSS) stations in Chi...

    Authors: Pengfei Cheng, Yingyan Cheng, Xiaoming Wang and Yantian Xu
    Citation: Satellite Navigation 2021 2:2
  8. Because of its high-precision, low-cost and easy-operation, Precise Point Positioning (PPP) becomes a potential and attractive positioning technique that can be applied to self-driving cars and drones. However...

    Authors: Xingxing Li, Xuanbin Wang, Jianchi Liao, Xin Li, Shengyu Li and Hongbo Lyu
    Citation: Satellite Navigation 2021 2:1
  9. The establishment of the BeiDou global navigation satellite system (BDS-3) has been completed, and the current constellation can independently provide positioning service globally. BDS-3 satellites provide qua...

    Authors: Bofeng Li, Zhiteng Zhang, Weikai Miao and Guang’e Chen
    Citation: Satellite Navigation 2020 1:30
  10. Light Detection and Ranging (LiDAR) sensors are popular in Simultaneous Localization and Mapping (SLAM) owing to their capability of obtaining ranging information actively. Researchers have attempted to use th...

    Authors: Changhui Jiang, Yuwei Chen, Wenxin Tian, Ziyi Feng, Wei Li, Chunchen Zhou, Hui Shao, Eetu Puttonen and Juha Hyyppä
    Citation: Satellite Navigation 2020 1:29
  11. Global Navigation Satellite System (GNSS) multipath channel models are fundamental and critical for signal simulation and receiver performance evaluation. They also aid the designing of suitable multipath erro...

    Authors: Xin Chen, Di He and Ling Pei
    Citation: Satellite Navigation 2020 1:26
  12. The BeiDou Navigation Satellite System (BDS) has completed the constellation deployment and started to provide global services. After achieving the capabilities of global coverage, global first-class accuracy ...

    Authors: Jun Lu, Xia Guo and Chengeng Su
    Citation: Satellite Navigation 2020 1:27
  13. Communication, positioning, navigation, and decision-making abilities have evolved into Positioning, Navigation, and Timing (PNT) intelligence during the long process of human migration and hence promoted huma...

    Authors: Jingnan Liu, Kefu Gao, Wenfei Guo, Jingsong Cui and Chi Guo
    Citation: Satellite Navigation 2020 1:23
  14. This paper reviews the status of satellite navigation (as per 11 May 2020)—without claim for completeness—and discusses the various global navigation satellite systems, regional satellite navigation systems an...

    Authors: Guenter W. Hein
    Citation: Satellite Navigation 2020 1:22
  15. There is increasing concern about the uncombined (UC) observation model in the field of global navigation satellite system (GNSS). Based on the global positioning system (GPS) and the third-generation BeiDou n...

    Authors: Tian Zeng, Lifen Sui, Rengui Ruan, Xiaolin Jia and Laiping Feng
    Citation: Satellite Navigation 2020 1:19
  16. Decimeter-level service is provided by the BeiDou satellite navigation system wide area differential service (BDS WADS) for users who collect carrier phase measurements. However, the fluctuations in Geostation...

    Authors: Binghao Wang, Jianhua Zhou, Bin Wang, Dianwei Cong and Hui Zhang
    Citation: Satellite Navigation 2020 1:18
  17. Strong environmental dependence is an intractable problem for vapor cell clocks, for which the high-temperature sensitivity of the physics package is considered one of the dominant reasons. In this paper, we r...

    Authors: Qiang Hao, Wenxiang Xue, Feng Xu, Kemu Wang, Peter Yun and Shougang Zhang
    Citation: Satellite Navigation 2020 1:17
  18. 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

    The original article was published in Satellite Navigation 2020 1:12

  19. 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

    The Correction to this article has been published in Satellite Navigation 2020 1:13

  20. 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
  21. 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
  22. 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
  23. 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

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