Research and Implementation of Beidou-3 Satellite Multi-Band Signal Acquisition and Tracking Method

doi:10.1007/s12204-019-2115-1

Journal of Shanghai Jiao Tong University (Science) ›› 2019, Vol. 24 ›› Issue (5): 571-578.doi: 10.1007/s12204-019-2115-1

Research and Implementation of Beidou-3 Satellite Multi-Band Signal Acquisition and Tracking Method

CHEN Shuhao (陈树浩), MAO Xuchu (茅旭初)

(School of Electronic Information and Electrical Engineering, Shanghai Jiao Tong University, Shanghai 200240, China)

出版日期:2019-10-08 发布日期:2019-09-27
通讯作者: MAO Xuchu (茅旭初) E-mail: maoxc@sjtu.edu.cn

Research and Implementation of Beidou-3 Satellite Multi-Band Signal Acquisition and Tracking Method

CHEN Shuhao (陈树浩), MAO Xuchu (茅旭初)

(School of Electronic Information and Electrical Engineering, Shanghai Jiao Tong University, Shanghai 200240, China)

Online:2019-10-08 Published:2019-09-27
Contact: MAO Xuchu (茅旭初) E-mail: maoxc@sjtu.edu.cn

摘要/Abstract

摘要： A new acquisition and tracking method is proposed for signal processing under the new signal system structure of Beidou-3 navigation satellite system (BDS-3). By starting with the analysis of the characteristics and signal structure of the new signal, the local replica of the ranging code and the study of the characteristics of the ranging code are completed, which proves that the method in this paper can be used in the subsequent acquisition and tracking process. The fast Fourier transformation (FFT) search based on longer coherence time and the adaptive phase-frequency switching carrier tracking loop are proposed for signals in different modulation modes. The actual signal of Beidou-3 satellite is sampled by local experiment, and the acquisition and tracking of the Beidou-3 satellite multi-band signal is finally completed. The tracking results verify the feasibility of the proposed acquisition and tracking method.

关键词: Beidou-3 navigation satellite system (BDS-3), binary offset carrier (BOC), B1C signal, B3I signal, acquisition and tracking method

Abstract: A new acquisition and tracking method is proposed for signal processing under the new signal system structure of Beidou-3 navigation satellite system (BDS-3). By starting with the analysis of the characteristics and signal structure of the new signal, the local replica of the ranging code and the study of the characteristics of the ranging code are completed, which proves that the method in this paper can be used in the subsequent acquisition and tracking process. The fast Fourier transformation (FFT) search based on longer coherence time and the adaptive phase-frequency switching carrier tracking loop are proposed for signals in different modulation modes. The actual signal of Beidou-3 satellite is sampled by local experiment, and the acquisition and tracking of the Beidou-3 satellite multi-band signal is finally completed. The tracking results verify the feasibility of the proposed acquisition and tracking method.

Key words: Beidou-3 navigation satellite system (BDS-3), binary offset carrier (BOC), B1C signal, B3I signal, acquisition and tracking method

中图分类号:

TN 967.1

CHEN Shuhao (陈树浩), MAO Xuchu (茅旭初). Research and Implementation of Beidou-3 Satellite Multi-Band Signal Acquisition and Tracking Method[J]. Journal of Shanghai Jiao Tong University (Science), 2019, 24(5): 571-578.

参考文献 14

[6]	WU Z J. Data acquisition, research and analysis on Galileo E1 signal [D]. Shanghai, China: Shanghai Jiao Tong University, 2009 (in Chinese).
[1]	DING X C. Development of Beidou navigation satellite system [C]//Proceedings of the 24th International Technical Meeting of the Satellite Division of the Institute of Navigation. Portland, OR, USA: Oregon Convention Center, 2011: 882-912.
[7]	FOUCRAS M, NGAYAP U, BACARD F, et al. Acquisition performance comparison of new generation of GNSS BOC-modulated signals [C]//29th International Technical Meeting of the Satellite Division of the Institute of Navigation (ION GNSS+2016 ). Portland, OR,USA: Institute of Navigation, 2016: 107-119.
[2]	YANG X, CHEN B. Beidou satellite navigation system enters a new era of global networking [J]. Satellite Application, 2017, 11: 4 (in Chinese).
[8]	O’DRISCOLL C, RODRIGUEZ J ′A ′ A, IOANNIDES R. Bandlimiting and dispersive effects on high order BOC signals [C]//Proceedings of the 29th International Technical Meeting of the ION Satellite Division (ION GNSS+2016). Portland, OR, USA: Institute of Navigation,2016: 236-248.
[3]	XIN J. Research on GPS precise satellite clock bias prediction based on wavelet and spectral analysis [D].Chengdu, China: Southwest Jiaotong University, 2016(in Chinese).
[9]	HE C L, WANG Y. Weil code correlation performance of GPS L1C signal [J]. Radio Communication Technology,2013, 39(1): 32-35 (in Chinese).
[4]	LUCAS-SABOLA V, SECO-GRANADOS G, L′OPEZSALCEDO J A, et al. Cloud GNSS receivers: New advanced applications made possible [C]//2016 International Conference on Localization and GNSS (ICLGNSS).Barcelona, Spain: IEEE, 2016: 1-6.
[10]	MIRALLES D, HUARD J, AKOS D M, et al. FFT algorithms implementation for real-time GNSS receivers in embedded processors [C]//Proceedings of the 29th International Technical Meeting of the ION Satellite Division (ION GNSS+2016 ). Portland, OR, USA: Institute of Navigation, 2016: 62-69.
[5]	BETZ J W. Binary offset carrier modulations for radio navigation [J]. Navigation, 2001, 48(4): 227-246.
[11]	VAN NEE D J R V, COENEN A J RM. New Fast GPS code-acquisition technique using FFT [J]. Electronics Letters, 1991, 27(2): 158-160.
[6]	WU Z J. Data acquisition, research and analysis on Galileo E1 signal [D]. Shanghai, China: Shanghai Jiao Tong University, 2009 (in Chinese).
[12]	FANTINO M, DOVIS F, PRESTI L L, et al.Acquisition performance analysis for BOC modulated signals [C]//The 2004 International Symposium on GNSS/GPS. Sydney, Australia: GNSS, 2004:22832695
[13]	LIU T M. Data research and analysis on B1 signal of BDS [D]. Shanghai, China: Shanghai Jiao Tong University,2013 (in Chinese).
[7]	FOUCRAS M, NGAYAP U, BACARD F, et al. Acquisition performance comparison of new generation of GNSS BOC-modulated signals [C]//29th International Technical Meeting of the Satellite Division of the Institute of Navigation (ION GNSS+2016 ). Portland, OR,USA: Institute of Navigation, 2016: 107-119.
[14]	LIANG C. Research on the modulation and synchronization of BOC navigation signal [D]. Guilin, China:Guilin University of Electronic Technology, 2014 (in Chinese).
[8]	O’DRISCOLL C, RODRIGUEZ J ′A ′ A, IOANNIDES R. Bandlimiting and dispersive effects on high order BOC signals [C]//Proceedings of the 29th International Technical Meeting of the ION Satellite Division (ION GNSS+2016). Portland, OR, USA: Institute of Navigation,2016: 236-248.
[9]	HE C L, WANG Y. Weil code correlation performance of GPS L1C signal [J]. Radio Communication Technology,2013, 39(1): 32-35 (in Chinese).
[10]	MIRALLES D, HUARD J, AKOS D M, et al. FFT algorithms implementation for real-time GNSS receivers in embedded processors [C]//Proceedings of the 29th International Technical Meeting of the ION Satellite Division (ION GNSS+2016 ). Portland, OR, USA: Institute of Navigation, 2016: 62-69.
[11]	VAN NEE D J R V, COENEN A J RM. New Fast GPS code-acquisition technique using FFT [J]. Electronics Letters, 1991, 27(2): 158-160.
[12]	FANTINO M, DOVIS F, PRESTI L L, et al.Acquisition performance analysis for BOC modulated signals [C]//The 2004 International Symposium on GNSS/GPS. Sydney, Australia: GNSS, 2004:22832695
[13]	LIU T M. Data research and analysis on B1 signal of BDS [D]. Shanghai, China: Shanghai Jiao Tong University,2013 (in Chinese).
[14]	LIANG C. Research on the modulation and synchronization of BOC navigation signal [D]. Guilin, China:Guilin University of Electronic Technology, 2014 (in Chinese).

Research and Implementation of Beidou-3 Satellite Multi-Band Signal Acquisition and Tracking Method

Research and Implementation of Beidou-3 Satellite Multi-Band Signal Acquisition and Tracking Method

PDF (PC)

可视化

摘要/Abstract

引用本文

使用本文

参考文献 14

相关文章 1

编辑推荐

Metrics

本文评价