航天GPS接收机信号搜索捕获策略

杨春宝; 尤政; 张勇

航天GPS接收机信号搜索捕获策略

1.
清华大学精密仪器与机械学系, 北京 100084
2. 中国科学院?光电研究院, 北京 100080

基金项目: 国家863基金资助项目(863-2-5-1.5)

详细信息

作者简介:
杨春宝(1976-),男,黑龙江青冈人,博士生, yangcb99@mails.tsinghua.edu.cn.

中图分类号: TN 967.1; V 4
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- 文章访问数: 2954
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- 被引次数: 0
出版历程
- 收稿日期: 2004-09-23
- 网络出版日期: 2005-12-31

Strategy of signal search and acquisition in spaceborne GPS receiver

1.
Department of Precision Instruments and Mechanology, Tsinghua University, Beijing 100084, China
2. Academy of Opto-electronics, Chinese Academy of Sciences, Beijing 100080, China

摘要

摘要: 航天GPS接收机的无辅助冷启动时间是一项重要指标,研究近地轨道应用的12通道C/A码导航型接收机减小冷启动时间的方法.分析GPS信号的多普勒频率和伪码相位搜索方法、捕获检测器及其参数选择、多普勒频率搜索步长和伪码搜索速率, 得到多普勒频率搜索步长为500 Hz,伪码搜索速率为475码元/s.研究轨道倾角、轨道高度、GPS天线仰角和轨道偏心率等因素对多普勒频率搜索范围的影响.阐述根据GPS卫星间夹角的统计信息选择合理的卫星分配方法.分析和仿真结果表明,根据GPS卫星间夹角的统计信息选择合理的卫星分配方法,可将冷启动时间减少25%~30%,影响多普勒频率搜索范围的因素按程度依次为:轨道倾角、轨道高度、GPS天线仰角和轨道偏心率,再考虑这些因素时可将冷启动时间减少25%~40%.
- 接收机 /
- 捕获 /
- 全球定位系统 /
- 搜索
Abstract: Unaided cold start time is an important performance of spaceborne global position system(GPS) receiver. Reduction of cold start time was developed for C/A code navigation receiver on low earth orbit(LEO). The search method of frequency and code phase, signal detector and parameters select, doppler bin, and code search speed were analyzed. Doppler bin of 500 Hz and code search speed of 475 chips/s were obtained. The orbital inclination, orbital altitude, elevation of GPS antenna and orbital eccentricity were researched as the influential factors to doppler range. GPS satellite allocation according to statistical information of angle between GPS satellites was discussed. Analysis and simulation shows that the cold start time is reduced by 25%~30% through this GPS satellite allocation method, the influential factors of doppler range are orbital inclination, orbital altitude, elevation of GPS antenna and orbital eccentricity in regular order with an effect, the cold start time is reduced by 25%~40% farther considering these influential factors of doppler range.
- receivers /
- acquisition /
- global position system /
- search

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参考文献(1)

[1] Bauer F H, Hartman K, Lightsey E G. Spaceborne GPS current status and future visions . Proceedings of the 11th International Technical Meeting of the Satellite Division of the Institute of Navigation . Nashville, Tennessee:ION GPS, 1998.1493~1508 [2] Balbach O, Eissfeller B, Hein G W, et al. Tracking GPS above GPS satellite altitude:first results of the GPS experiment on the HEO mission equator-S . Proceedings of the 11th International Technical Meeting of the Satellite Division of the Institute of Navigation . Nashville,Tennessee:ION GPS, 1998.1555~1564 [3] Moreau M C. GPS receiver architecture for autonomous navigation in high earth orbits . Boulder, Colorao:Department of Aerospace Engineering Sciences, University of Colorado, 2001 [4] Kaplan E. Understanding GPS:principles and application [M]. Boston:Artech House,1996 [5] Kent K, Premal M, Chad C, et al. A complete IF software GPS receiver:a tutorial about the detalils . http://www. datafusion.com/gps/baselinereceiver.pdf, 1998-08-07/2004-09-09 [6] Samuli P, Jari S. Improved method for satellite acquisition . ION GPS 2000 . UT:Salit Lake City,2000.1957~1961

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