一种基于探测器下行信号融合处理的无线电干涉测量方法

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doi:10.15982/j.issn.2095-7777.2019.03.004

北京航天飞行控制中心, 北京 100094;航天飞行动力学技术国防科技重点实验室, 北京 100094

基金项目:国家自然科学基金（11403001，11603001）；十三五预研课题（160441413008-4）

A Novel Method of Radio Interferometry Based on Fusion Processing of Explorer Downlink Signal

Beijing Aerospace Flight Control Center, Beijing 100094, China;Key Laboratory of Aerospace Flight Dynamics Technology, Beijing 100094, China

摘要:针对深空探测器常用下行信号体制，结合无线电干涉测量特点，提出了一种基于探测器DOR信标信号和数传信号融合处理的干涉测量方法。该方法首先通过相关处理得到DOR信号和数传信号的差分相位，利用DOR信号进行带宽综合得到时延估计，并构建时延模型；然后，利用时延模型得到DOR信号与数传信号在数传载波处的相位差，并以此对数传信号差分相位进行补偿；最后，利用DOR信号差分相位和补偿后的数传信号差分相位进行带宽综合，实现高精度干涉测量。深空探测网数据处理结果表明融合处理后时延估计随机误差明显降低；但受介质时延误差影响，融合处理对系统时延精度的改善幅度有所减小。该方法仅通过改进干涉测量数据处理方法即实现了时延估计随机误差的改善，不仅提高了信号使用效率，而且增强了航天测控系统的鲁棒性，在应急测控背景下具有特殊意义。
- 深空探测/
- 干涉测量/
- DOR信号/
- 数传信号/
- 融合处理
Abstract:In view of the commonly used downlink signal of deep space explorer and the characteristics of radio interferometry,a novel interferometry method is proposed to process DOR signal and data-transmission signal simultaneously for frequency synchronization. Firstly, the difference phase of the two kinds of signal is obtained by correlation. While, the time delay is estimated by utilizing DOR signal's difference phase and is modeled during the processing. Then the phase difference between DOR and data-transmission signal at data signal carrier is acquired by using the constructed time delay model, compensating the difference phase of data-transmission signal. Finally,the difference phase of DOR signal and the compensated difference phase are processed for frequency synchronization and time delay estimation. The processing results of measured data in China deep space TT&C network show that the time delay accuracy is improved significantly by fusion process, while the improvement is decreased lightly with the influence of medium delay error. The proposed method improves the accuracy of time delay estimation just by fusion process, which not only promotes the signal use efficiency, but also enhances the robust of the TT&C system,having special significance in emergency situation.
- deep space exploration/
- radio interferometry/
- DOR signal/
- data-transmission signal/
- fusion process

[1]	THURMAN S W. Information content of a single pass of phasedelay data from a short baseline connected element interferometer, TDA Progress Report 42-101[R].[S.l]:TDA,1990.
[2]	THURMAN S W. Galileo Earth approach navigation using connected-element interferometer phase-delay tracking,TDA Progress Report 42-100[R].[S.l]:TDA,1990.
[3]	LIU Q H,KIKUCHI F,MATSUMOTO K. Error analysis of samebeam differential VLBI technique using two SELENE satellite[J]. Advances in Space Research,2007,40(1):51-57.
[4]	GOOSSENS S,MATSUMOTO K,ROWLANDS D D,et al. Orbit determination of the SELENE satellites using multi-satellite data types and evaluation of SELENE gravity field models[J]. Journal of Geodesy,2011,85(8):487-504.
[5]	NANDI S,EDWARDS C D,WU S C. TDRSS orbit determination using short-baseline difference carrier phase[C]//NASA Goddard Flight Mechanics Estimation Theory Symposium. USA:NASA, 1992.
[6]	KAWASE S,SAWADA F. Interferometric tracking for close geosynchronous satellites[C]//Proceedings of the 12th International Symposium on ‘Space Flight Dynamics’ . Germany:[s.n.],1997.
[7]	黄勇,胡小工,张秀忠,等. VLBI应用于GEO导航卫星的测定轨[J]. 科学通报,2011,56(24):1974-1981. HUANG Y,HU X G,ZHANG X Z,et al. Improvement of orbit determination satellites with VLBI tracking[J]. Chinese Science Bulletin,2011,56(24):1974-1981.
[8]	弓剑军,马浪明,姚当,等. 基于VGOS的GEO卫星观测试验[J]. 时间频率学报,2018,41(4):354-361. GONG J J,MA L M,YAO D,et al. Geostationary satellite observation experiment based on VGOS[J]. Journal of Time and Frequency, 2018,41(4):354-361.
[9]	刘庆会. 火星探测VLBI测定轨技术[J]. 深空探测学报,2018,5(5):435-441. LIU Q H. VLBI Orbit determination technology for Mars exploration[J]. Journal of Deep Space Exploration,2018,5(5):435-441.
[10]	朱新颖,李春来,张洪波. 深空探测VLBI技术综述及我国的现状和发展[J]. 宇航学报,2010,31(8):1893-1899. ZHU X Y,LI C L,ZHANG H B. A survey of VLBI technique for deep space exploration and trend in china current situation and development[J].Journal of Astronautics,2010,31(8):1893-1899.
[11]	朱猛,平劲松,李文潇,等. 深空探测对我国地面测控站升级的需求[J]. 北京师范大学学报(自然科学版),2016,52(5):537-541. ZHU M,PING J S,LI W X,et al. Updating ground TT & C stations for deep space exploration in China[J]. Journal of Beijing Normal University(Natural Science),2016,52(5):537-541.
[12]	KARDASHEV N S,KOVALEV Y Y,KELLERMANN K I. Radio astron:an Earth-space radio interferometer with a 350,000 km Baseline[J]. The Radio Science Bulletin,2012,343:1-16.
[13]	KROGER P M,BORDER J S. The Mars observaton differential oneway range demonstration,TDA Progress Report 42-117[R]. California:Jet Propulsion Laboratory,1994.
[14]	唐云秋,孔德庆. 基于深空探测器下行信号的太阳风观测及通信链路的影响综述[J]. 天文研究与技术-国家天文台台刊,2015, (3):355-363. TANG Y Q,KONG D Q. A review of observations of solar winds and solar impact on deep-space telecommunications using downlink signals[J]. Space Probes Astronomical Research & Technology-Publications of National Astronomical Observatories of China,2015(3):355-363.

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一种基于探测器下行信号融合处理的无线电干涉测量方法

doi:10.15982/j.issn.2095-7777.2019.03.004

A Novel Method of Radio Interferometry Based on Fusion Processing of Explorer Downlink Signal

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一种基于探测器下行信号融合处理的无线电干涉测量方法

doi:10.15982/j.issn.2095-7777.2019.03.004

北京航天飞行控制中心, 北京 100094;航天飞行动力学技术国防科技重点实验室, 北京 100094

English Abstract

A Novel Method of Radio Interferometry Based on Fusion Processing of Explorer Downlink Signal

Beijing Aerospace Flight Control Center, Beijing 100094, China;Key Laboratory of Aerospace Flight Dynamics Technology, Beijing 100094, China

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一种基于探测器下行信号融合处理的无线电干涉测量方法

doi:10.15982/j.issn.2095-7777.2019.03.004

A Novel Method of Radio Interferometry Based on Fusion Processing of Explorer Downlink Signal

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一种基于探测器下行信号融合处理的无线电干涉测量方法

doi:10.15982/j.issn.2095-7777.2019.03.004

北京航天飞行控制中心, 北京 100094;航天飞行动力学技术国防科技重点实验室, 北京 100094

English Abstract

A Novel Method of Radio Interferometry Based on Fusion Processing of Explorer Downlink Signal

Beijing Aerospace Flight Control Center, Beijing 100094, China;Key Laboratory of Aerospace Flight Dynamics Technology, Beijing 100094, China

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