Generalized unambiguous tracking method based on pseudo correlation function for multi-level coded symbol modulated signals

Liu Zhen; Huang Jie; Wang Jian-Tao; Zhao Yong-Jun; Chen Shi-Wen

doi:10.7498/aps.66.139101

Abstract

The global navigation satellite system (GNSS) signal modulation type plays a crucial role in determining the performances of positioning, navigation and timing (PNT) services. Currently, the binary offset carrier (BOC) modulation signal and binary coded symbol (BCS) modulation signal are both bipolar signals, which greatly restrict the room of improving the GNSS signal performance. Therefore, multi-level coded symbol (MCS) modulation has received great attention in the field of GNSS signal design. The MCS modulation is the most extensive step-coded symbol modulation mode, where BOC modulation and BCS modulation are its special cases. Since the waveform symbol of the MCS modulation signal can be arbitrarily valued, the optimal GNSS signal can be designed. However, like the BOC modulation signal, the MCS modulation signal also has the problem of ambiguous tracking, and then results in a large pseudo range measurement error, which is unacceptable for the new generation GNSS with high accuracy. In recent years, the unambiguous tracking of GNSS signals has become a hot research subject in the navigation signal processing domain and many methods are presented, and those methods can be divided into three categories:BPSK-like method, bump jump (BJ) method, and side-peak cancellation (SC) method. However, these methods are designed for BOC signal, and they are not suitable for MCS signal. Therefore, in this paper we propose a general unambiguous tracking algorithm based on the pseudo correlation function (PCF), which is suitable for MCS modulated signals. Firstly, the unitary expression of MCS modulated signal based on waveform value vector is given, then the unitary formula of cross-correlation function for MCS signal is derived and the definition of PCF is given. Then the constraint condition which should be satisfied to realize unambiguous tracking is analyzed in depth, and the universal constructing method of two reference signals and the relationship between each other are derived according to this constraint condition, which brings great convenience for solving the specific MCS signal. The code tracking loop model of GNSS receiver based on the proposed method is illustrated. It is observed that the proposed method can receive different MCS signals under the same receiver loop framework, and can simplify the design of the receiver while eliminating the tracking ambiguous problem. Finally, as a special case of MCS signal, the applications of the proposed method in four kinds of BOC signals are discussed respectively, and then the waveform value vector of the reference signal and the unitary expression of code discriminator are derived. Simulation results show that the proposed method can effectively solve the ambiguous tracking problem of MCS signal, which has good performance and broad application prospect.

Keywords:

Authors and contacts

1.
School of Navigation and Aerospace Target Engineering, Information Engineering University, Zhengzhou 450001, China

Corresponding author: Liu Zhen, liuzheninformation@163.com

Funds: Project supported by the National Natural Science Foundation of China (Grant No.61501513).

References

[1]	Guo F 2016 Ph. D. Dissertation (Beijing:Tsinghua University) (in Chinese)[郭甫 2016 博士学位论文 (北京:清华大学)]
[2]	Wang S Z, Zhu G W, Bai W H, Liu C L, Sun Y Q, Du Q F, Wang X Y, Meng X G, Yang G L, Yang Z D, Zhang X X, Bi Y M, Wang D W, Xia J M, Wu D, Cai Y R, Han Y 2001 Navigation 48 227
[3]	Betz J W 2001 Navigation 48 227
[4]	Sun Z X, Yu Y, Zhou F, Liu S Z, Qiao G 2011 Sci. China:Phys. Mech. 54 1077
[5]	Hegarty C J, Betz J W, Saidi A 2004 Proceedings of the National Technical Meeting of the Institute of Navigation San Diego, California, USA, June 79, 2004 p56
[6]	Zhang X M, Yao Z, Lu M Q 2011 Sci. China: Phys.Mech. 54 1077
[7]	Zhou Y L, Wang D P 2016 Aerosp. Sci. Technol. 50 112
[8]	Zitouni S, Rouabah K, Chikouche D, Mokrani K, Attia S, Harba R, Ravier P 2016 Aerosp. Sci. Technol. 50 112
[9]	Martin N, Leblond V, Guillotel G, Heiries V 2003 Proceedings of the 16th International Technical Meeting of the Satellite Division of The Institute of Navigation Portland, OR, USA, September 9-12, 2003 p188
[10]	Lohan E S, Burian A, Renfors M 2008 Int. J. Satell. Commun. N. 26 503
[11]	Benedetto F, Giunta G, Lohan E S, Renfors M 2013 IEEE Trans. on Veh. Technol. 62 1350
[12]	Fine P, Wilson W 1999 Proceedings of the 1999 National Technical Meeting of The Institute of Navigation San Diego, CA, USA, January 25-27, 1999 p671
[13]	Margaia D, Falletti E, Bagnasco A, Parizzi F 2014 Proceedings of 2014 7th ESA Workshop on Satellite Navigation and European Workshop on GNSS Signals and Signal Processing ESTEC Noordwijk, Netherlands, December 3-5, 2014 p1
[14]	Ward P 2003 Proceedings of Institute of Navigation Annual Meeting Albuquerque, NM, USA, 2003 p146
[15]	Zhang T W, Yang K D, Ma Y L, Wang Y 2015 Acta Phys. Sin. 64 024303 (in Chinese)[张同伟, 杨坤德, 马远良, 汪勇 2015 物理学报 64 024303]
[16]	Julien O, Macabiau C, Cannon M E, Lachapelle G 2007 IEEE Trans. on Aerosp. Electron Sys. 43 150
[17]	Juang J C, Kao T L 2010 Proceedings of the 23rd International Technical Meeting of The Satellite Division of the Institute of Navigation Portland, OR, USA, September 21-24, 2010 p3251
[18]	Shivaramaiah N C, Dempster A G 2008 Proceeding of the European Navigation Conference Toulouse, France, April 23-25, 2008 p186
[19]	Yao Z, Cui X W, Lu M Q, Feng Z M 2010 IEEE Trans. on Aerosp. Electron Sys. 46 1782
[20]	Yao Z, Lu M Q, Feng Z M 2010 IEEE Trans. on Wirel Commun. 9 577
[21]	Chen H H, Wang R, Jia W M, Yao M L 2012 J. Syst. Eng. Electron. 34 1090 (in Chinese)[陈辉华, 王榕, 贾维敏, 姚敏立 2012 系统工程与电子技术 34 1090]
[22]	Yan T, Wei J L, Tang Z P, Qu B, Zhou Z H 2015 Wireless Pers. Commun. 84 2835
[23]	Chen H H, Ren J W, Yao M L 2012 J. Astronaut. 33 1646 (in Chinese)[陈辉华, 任嘉伟, 姚敏立 2012 宇航学报 33 1646]
[24]	Chen H H, Ren J W, Jia W M, Yao M L 2014 Acta Aeronaut. Astron. Sin. 35 2031 (in Chinese)[任嘉伟, 杨贵同, 贾维敏, 姚敏立 2014 航空学报 35 2031]
[25]	Ren J W, Yang G T, Jia W M, Yao M L 2014 Acta Aeronaut. Astron. Sin. 35 2031 (in Chinese) [任嘉伟, 杨贵同, 贾维敏, 姚敏立2014 航空学报35 2031]
[26]	Yan T, Wei J L, Tang Z P, Qu B, Zhou Z H 2015 GPS Solut. 19 623
[27]	Zhang T Q, Jiang X L, Zhao J T, Wang J X 2015 China Commun. 12 86
[28]	Liu W, Xi Y, Deng Z L, Jiao J C, Yin L 2015 China Commun. 12 86
[29]	Zhang H L, Ba X H, Chen J, Zhou H 2016 Acta Aeronaut. Astronaut. Sin. 37 1 (in Chinese)[张洪伦, 巴晓辉, 陈杰, 周航 2016 航空学报 37 1]
[30]	Jin S G 2012 Global Navigation Satellite Systems:Signal, Theory and Applications (Rijeka Croatia:InTech-Publisher) p72

Cited By

[1]	Guo F 2016 Ph. D. Dissertation (Beijing:Tsinghua University) (in Chinese)[郭甫 2016 博士学位论文 (北京:清华大学)]
[2]	Wang S Z, Zhu G W, Bai W H, Liu C L, Sun Y Q, Du Q F, Wang X Y, Meng X G, Yang G L, Yang Z D, Zhang X X, Bi Y M, Wang D W, Xia J M, Wu D, Cai Y R, Han Y 2001 Navigation 48 227
[3]	Betz J W 2001 Navigation 48 227
[4]	Sun Z X, Yu Y, Zhou F, Liu S Z, Qiao G 2011 Sci. China:Phys. Mech. 54 1077
[5]	Hegarty C J, Betz J W, Saidi A 2004 Proceedings of the National Technical Meeting of the Institute of Navigation San Diego, California, USA, June 79, 2004 p56
[6]	Zhang X M, Yao Z, Lu M Q 2011 Sci. China: Phys.Mech. 54 1077
[7]	Zhou Y L, Wang D P 2016 Aerosp. Sci. Technol. 50 112
[8]	Zitouni S, Rouabah K, Chikouche D, Mokrani K, Attia S, Harba R, Ravier P 2016 Aerosp. Sci. Technol. 50 112
[9]	Martin N, Leblond V, Guillotel G, Heiries V 2003 Proceedings of the 16th International Technical Meeting of the Satellite Division of The Institute of Navigation Portland, OR, USA, September 9-12, 2003 p188
[10]	Lohan E S, Burian A, Renfors M 2008 Int. J. Satell. Commun. N. 26 503
[11]	Benedetto F, Giunta G, Lohan E S, Renfors M 2013 IEEE Trans. on Veh. Technol. 62 1350
[12]	Fine P, Wilson W 1999 Proceedings of the 1999 National Technical Meeting of The Institute of Navigation San Diego, CA, USA, January 25-27, 1999 p671
[13]	Margaia D, Falletti E, Bagnasco A, Parizzi F 2014 Proceedings of 2014 7th ESA Workshop on Satellite Navigation and European Workshop on GNSS Signals and Signal Processing ESTEC Noordwijk, Netherlands, December 3-5, 2014 p1
[14]	Ward P 2003 Proceedings of Institute of Navigation Annual Meeting Albuquerque, NM, USA, 2003 p146
[15]	Zhang T W, Yang K D, Ma Y L, Wang Y 2015 Acta Phys. Sin. 64 024303 (in Chinese)[张同伟, 杨坤德, 马远良, 汪勇 2015 物理学报 64 024303]
[16]	Julien O, Macabiau C, Cannon M E, Lachapelle G 2007 IEEE Trans. on Aerosp. Electron Sys. 43 150
[17]	Juang J C, Kao T L 2010 Proceedings of the 23rd International Technical Meeting of The Satellite Division of the Institute of Navigation Portland, OR, USA, September 21-24, 2010 p3251
[18]	Shivaramaiah N C, Dempster A G 2008 Proceeding of the European Navigation Conference Toulouse, France, April 23-25, 2008 p186
[19]	Yao Z, Cui X W, Lu M Q, Feng Z M 2010 IEEE Trans. on Aerosp. Electron Sys. 46 1782
[20]	Yao Z, Lu M Q, Feng Z M 2010 IEEE Trans. on Wirel Commun. 9 577
[21]	Chen H H, Wang R, Jia W M, Yao M L 2012 J. Syst. Eng. Electron. 34 1090 (in Chinese)[陈辉华, 王榕, 贾维敏, 姚敏立 2012 系统工程与电子技术 34 1090]
[22]	Yan T, Wei J L, Tang Z P, Qu B, Zhou Z H 2015 Wireless Pers. Commun. 84 2835
[23]	Chen H H, Ren J W, Yao M L 2012 J. Astronaut. 33 1646 (in Chinese)[陈辉华, 任嘉伟, 姚敏立 2012 宇航学报 33 1646]
[24]	Chen H H, Ren J W, Jia W M, Yao M L 2014 Acta Aeronaut. Astron. Sin. 35 2031 (in Chinese)[任嘉伟, 杨贵同, 贾维敏, 姚敏立 2014 航空学报 35 2031]
[25]	Ren J W, Yang G T, Jia W M, Yao M L 2014 Acta Aeronaut. Astron. Sin. 35 2031 (in Chinese) [任嘉伟, 杨贵同, 贾维敏, 姚敏立2014 航空学报35 2031]
[26]	Yan T, Wei J L, Tang Z P, Qu B, Zhou Z H 2015 GPS Solut. 19 623
[27]	Zhang T Q, Jiang X L, Zhao J T, Wang J X 2015 China Commun. 12 86
[28]	Liu W, Xi Y, Deng Z L, Jiao J C, Yin L 2015 China Commun. 12 86
[29]	Zhang H L, Ba X H, Chen J, Zhou H 2016 Acta Aeronaut. Astronaut. Sin. 37 1 (in Chinese)[张洪伦, 巴晓辉, 陈杰, 周航 2016 航空学报 37 1]
[30]	Jin S G 2012 Global Navigation Satellite Systems:Signal, Theory and Applications (Rijeka Croatia:InTech-Publisher) p72

[1]	Wang Shu-Zhi, Zhu Guang-Wu, Bai Wei-Hua, Liu Cong-Liang, Sun Yue-Qiang, Du Qi-Fei, Wang Xian-Yi, Meng Xiang-Guang, Yang Guang-Lin, Yang Zhong-Dong, Zhang Xiao-Xin, Bi Yan-Meng, Wang Dong-Wei, Xia Jun-Ming, Wu Di, Cai Yue-Rong, Han Ying. For the first time fengyun3 C satellite-global navigation satellite system occultation sounder achieved spaceborne Bei Dou system radio occultation. Acta Physica Sinica, 2015, 64(8): 089301. doi: 10.7498/aps.64.089301
[2]	Wang Chong-Jie, Liu Yuan-Yuan, Zhang Bo-Chao, Zhang Qian-Ni, Liu Jin-Yan, Jin Ge, Zhang Min. Fuzzy identification of γ ray fingerprints based on adaptive network-based fuzzy inference system. Acta Physica Sinica, 2014, 63(12): 122801. doi: 10.7498/aps.63.122801
[3]	Su Yong, Fan Dong-Ming, You Wei. Gravity field model calculated by using the GOCE data. Acta Physica Sinica, 2014, 63(9): 099101. doi: 10.7498/aps.63.099101
[4]	Liu Yang-Yang, Lian Bao-Wang, Zhao Hong-Wei, Liu Ya-Qing. Indoor pseudolite relative localization algorithm with kalman filter. Acta Physica Sinica, 2014, 63(22): 228402. doi: 10.7498/aps.63.228402
[5]	Shi Ming-Zhu, Xu Ting-Fa, Liang Jiong, Li Xiang-Min. PSF estimation via gradient cepstrum analysis for single blurred image. Acta Physica Sinica, 2013, 62(17): 174204. doi: 10.7498/aps.62.174204
[6]	Cao Xiao-Qun. Optimal control for a chaotic system by means of Gauss pseudospectral method. Acta Physica Sinica, 2013, 62(23): 230505. doi: 10.7498/aps.62.230505
[7]	Zhang Zhi-Ying, Fu Shen-Cheng, Gou Li-Dan, Yao Zhi-Hai. Phase and amplitude-dependent inversionless gain controlled by a three-level closed loop system. Acta Physica Sinica, 2013, 62(10): 104206. doi: 10.7498/aps.62.104206
[8]	Song Han-Feng, Wang Jing-Zhou, Li Yun. The effect of the radiative pressure on the potential function in asynchronous rotational binary. Acta Physica Sinica, 2013, 62(5): 059701. doi: 10.7498/aps.62.059701
[9]	Liang Ying, Jia Ke-Ning, Liu Zhong-Bo, Tong Dian-Min, Fan Xi-Jun. Effects of modulation of atomic injection and exit rate on spatial evolution of phase-dependent lasing without inversion gain and intensity in an open V-type system. Acta Physica Sinica, 2012, 61(18): 184207. doi: 10.7498/aps.61.184207
[10]	Zhao Ting-Yu, Liu Qin-Xiao, Yu Fei-Hong. The point spread function analysis in a wavefront coding system based on stationary phase method. Acta Physica Sinica, 2012, 61(7): 074207. doi: 10.7498/aps.61.074207
[11]	Wang Fu-Lai. A new pseudo-random number generator and application to digital secure communication scheme based on compound symbolic chaos. Acta Physica Sinica, 2011, 60(11): 110517. doi: 10.7498/aps.60.110517
[12]	Chen Xiao-Jun, Li Zan, Bai Bao-Ming, Cai Jue-Ping. New complexity metric of chaotic pseudorandom sequences using fuzzy relationship entropy. Acta Physica Sinica, 2011, 60(6): 064215. doi: 10.7498/aps.60.064215
[13]	Liu Xiao-Feng, Yu Wen-Li. A symbolic dynamics approach to the complexity analysis of event-related potentials. Acta Physica Sinica, 2008, 57(4): 2587-2594. doi: 10.7498/aps.57.2587
[14]	Zhao Ting-Yu, Ye Zi, Zhang Wen-Zi, Yu Fei-Hong. The extension effect of point spread function in wavefront coding system due to off-axis illumination. Acta Physica Sinica, 2008, 57(1): 200-205. doi: 10.7498/aps.57.200
[15]	Xiao Fang-Hong, Yan Gui-Rong, Han Yu-Hang. A symbolic dynamics approach for the complexity analysis of chaotic pseudo-random sequences. Acta Physica Sinica, 2004, 53(9): 2876-2881. doi: 10.7498/aps.53.2876
[16]	Liu Shi-Kuo, Chen Hua, Fu Zun-Tao, Liu Shi-Da. LamDe＇ function and invariants of multi-order exact solutions among nonline ar evolution equations. Acta Physica Sinica, 2003, 52(8): 1842-1847. doi: 10.7498/aps.52.1842
[17]	ZHANG JIA-SHU, XIAO XIAN-CI. NONLINEAR ADAPTIVE PREDICTIVE TARGETING CONTROL OF THE CONTINUOUS CHAOTIC SYSTEMS. Acta Physica Sinica, 2001, 50(11): 2092-2096. doi: 10.7498/aps.50.2092
[18]	WU WEI-GEN, GU TIAN-XIANG. NONLINEAR FEEDBACK FOLLOWING CONTROL OF CHAOTIC SYSTEMS. Acta Physica Sinica, 2000, 49(10): 1922-1925. doi: 10.7498/aps.49.1922
[19]	YUAN JIAN, XIONG SHI-JI, CAI JIAN-HUA. CHARACTERISTICS OF ELECTRON WAVE FUNCTIONS IN ONE-DIMENSIONAL INCOMMENSURATE SYSTEMS. Acta Physica Sinica, 1988, 37(5): 814-816. doi: 10.7498/aps.37.814
[20]	LIU YOU-CHANG. THE ENERGY OF DOUBLE-STAR SYSTEM AND ITS DISTRIBUTION. Acta Physica Sinica, 1979, 28(2): 152-159. doi: 10.7498/aps.28.152

Catalog

Vol. 66, Issue 13 - 2017-07-05

Metrics

Abstract views: 5639
PDF Downloads: 128
Cited By: 0

姓名
邮箱
手机号码
标题
留言内容
验证码

Search

Article

留言板