北斗三号B1C信号标称失真对测距性能的影响

doi:10.11959/j.issn.1000-436x.2019032

Journal on Communications ›› 2019, Vol. 40 ›› Issue (2): 145-153.doi: 10.11959/j.issn.1000-436x.2019032

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Influence of nominal distortion of Beidou-3 B1C signal on ranging performance

Xue WANG^1,^2,³,Yao GUO^1,^2,³(),Yongnan RAO^1,²,Xiaochun LU^1,^2,⁴,Li KANG^1,^2,³

¹ National Time Service Center,Chinese Academy of Sciences,Xi'an 710600,China
² Key Laboratory of Precision Navigation,Positioning and Timing Technology,Chinese Academy of Sciences,Xi'an,710600,China
³ School of Electronic and Communication Engineering,University of Chinese Academy of Sciences,Beijing,101408,China
⁴ School of Astronomy,University of Chinese Academy of Sciences,Beijing,101408,China

Revised:2019-01-08 Online:2019-02-01 Published:2019-03-04
Supported by:
The National Science and Technology Major Project of China(.GFZF0306ZXWX004HT01)

Abstract

Abstract:

The B1C signal is selected as a civil navigation signal for the BDS-3 system,which adopts a complex constant envelope modulation in the B1 frequency band.Therefore,it is easy to generate nominal distortion during signal generation.Such nominal distortion of each satellite produces inconsistent ranging deviation and directly degrades the system positioning performance.A complete ranging deviation estimation method was proposed for B1C signals in this paper.Firstly,the S-Curve Bias (SCB) was used to quantitatively analyze the B1C signal ranging deviation,and the standard correlation curve estimation method was proposed to realize the accurate estimation of the code phase deviation at the peak of the correlation curve.Secondly,a algorithm was designed to solve the problem of QMBOC signal mislocking at the platform during receiver tracking.Finally,the actual ranging bias and nature ranging bias of each satellite of Beidou-3 under different correlation intervals and front-end bandwidth of the user receiver were analyzed based on the satellite downlink signals collected from the 40-meter high-gain antenna at the National Time Service Center,and the recommended user receiver parameter range was given.The strategy proposed in this paper can be extended to other MBOC signal ranging error estimation,and the test results can be thought of as a reference to the development of BeiDou-3 receiver.

Key words: Beidou-3, nominal deformation, QMBOC modulation, ranging bias

CLC Number:

TN967.1

Xue WANG,Yao GUO,Yongnan RAO,Xiaochun LU,Li KANG. Influence of nominal distortion of Beidou-3 B1C signal on ranging performance[J]. Journal on Communications, 2019, 40(2): 145-153.

Figures/Tables 16

信号		信号分量	调制方式	相位关系	功率比
BIC	$S_{{B1C}_{d}}$		BOC(1,1)	0°	$\frac{1}{4}$
	$S_{{B1C}_{p}}$	$窄带分量 S_{B1Cpa}$	BOC(1,1)	90°	$\frac{29}{44}$
		$窄带分量 S_{B1Cpb}$	BOC(6,1)	0°	$\frac{1}{11}$

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