北斗/GPS组合定位方法

吴甜甜; 张云; 刘永明; 袁国良

doi:10.11834/jrs.20143264

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专辑

北斗/GPS组合定位方法
BeiDou /GPS combination positioning methodology
2014年18卷第5期页码：1087-1097
纸质出版日期： 2014 ，
DOI： 10.11834/jrs.20143264

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[1]吴甜甜,张云,刘永明,袁国良.北斗/GPS组合定位方法[J].遥感学报,2014,18(05):1087-1097.

WU Tiantian, ZHANG Yun, LIU Yongming, et al. BeiDou /GPS combination positioning methodology[J]. Journal of Remote Sensing, 2014,18(5):1087-1097.
[1]吴甜甜,张云,刘永明,袁国良.北斗/GPS组合定位方法[J].遥感学报,2014,18(05):1087-1097. DOI： 10.11834/jrs.20143264.

WU Tiantian, ZHANG Yun, LIU Yongming, et al. BeiDou /GPS combination positioning methodology[J]. Journal of Remote Sensing, 2014,18(5):1087-1097. DOI： 10.11834/jrs.20143264.

摘要

随着北斗卫星导航系统的逐渐完善

有关北斗系统定位的研究越来越深入

为了对比分析北斗系统和全球定位导航系统（GPS）定位的差异性

充分利用北斗地球静止轨道卫星（GEO）和倾斜地球同步轨道卫星（IGSO）高轨道卫星的特殊性

本文提出一种新的组合选星方法

选取卫星数较少且Position Dilution of Precision（PDOP）最小的北斗/GPS组合

分别对比分析北斗系统、GPS系统及其组合系统在楼顶开放环境和楼间恶劣环境下的定位效果。实验结果表明:北斗比GPS有更加稳定的定位效果

依据本文组合选星方法

利用少量卫星即可获得较好的定位精度。

Abstract

With the development of the BeiDou system

the features of mixed constellation have become more obvious with GEO and IGSO satellite orbits

the number of high elevation satellites has obviously increased

and the number of visible satellites has increased among high buildings. Therefore

we propose a new method wherein fewer satellites can also have better positioning a ccuracy with GEO /IGSO satellites. This method is also applicable to urban environment. To prove the effectiveness of this new method

we perform tests under open and urban environments. We also use two modes to verify the new method. The first mode u ses combinations from all BeiDou satellites with several GPS satellites

and the second mode uses combinations from several B eiDou and several GPS satellites. We select fewer satellites of BeiDou and GPS whose position dilution of precision is the smallest and then compare the positioning results with the BeiDou

GPS

and BeiDou /GPS systems under the two environments. Experimental results under the two environments show that the BeiDou system has better positioning performance than the GPS system. Under open environment

both modes of the new method can use fewer satellites to perform better positioning performance than the BeiDou /GPS system. The performance with the second mode is better than that with the first mode. Under urban environment

the features of the GEO and IGSO satellites of the BeiDou system can be maximized. Compared with the GPS system

the BeiDou system has more visible satellites because of the particularity of GEO and IGSO satellite orbits

as well as better positioning p erformance.In the first mode

the positioning error of our method is always less than that of the BeiDou or GPS system and is frequently less than that of the BeiDou /GPS system. In the second mode

the new method has less positioning error and fewer s atellites than the BeiDou /GPS system. Therefore

under urban environment

using fewer satellites can also have better positioning performance with the new method. This study proposes a new method to select fewer satellites. Two modes are used to verify the new method under open and urban environments. The BeiDou system displays better performance than the GPS system under both environments. Considering the full use of GEO and IGSO satellites in the two modes

we can conclude from the experiments that fewer satellites can also have better positioning performance. This research is necessary and effective particularly under urban environment.