中低空卫星GPS接收机在轨环境研究

S. Chung, H. Lee, H. Lee
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引用次数: 1

摘要

本文对中低空卫星GPS接收机的在轨接收环境进行了研究,重点研究了GPS接收机在不同波束方向下的天线特性。此外,我们还提出了一种通过降低几何精度稀释(GDOP)来减小位置计算误差的方法。通过计算机模拟,研究了GPS可见卫星数与GDOP的关系,并证实了为了降低GDOP,必须存在尽可能多的GPS卫星。此外,由于GDOP越小,误差系数越小,GPS接收机的性能越好。另一个仿真结果表明,为了获得较好的接收特性,GPS接收机天线的航向角必须与接收机的高度成比例地改变。天线较宽的接收范围可以避免必须改变卫星本体方向的情况。本文通过计算机仿真分析了大倾角GPS接收机的特性,同时考虑到地球是近球面,GPS卫星是均匀分布的,也可以对任意倾角GPS接收机的特性进行表征。
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A study on the in-orbit environment of a GPS receiver for low/medium altitude satellites
In this paper, the in-orbit receiving environment of a GPS receiver for low/medium altitude satellites is studied and in particular, antenna characteristics of the GPS receiver for various antenna beam directions are examined. In addition, we propose a method to reduce error in calculating the position by reducing the geometric dilution of precision (GDOP). By computer simulations, the relation between the number of visible GPS satellites and GDOP is investigated and the fact that there must exist the most possible GPS satellites in order to reduce GDOP is also confirmed. Besides, since the error factor can be reduced if GDOP becomes smaller can yield the better performance of the GPS receiver. Another simulation result indicates that the heading angle of the GPS receiver antenna must be changed in proportion to the altitude of the receiver in order to obtain better receiving characteristics. The wider receiving range of the antenna can prevent from the situation that the direction of the satellite body must be changed. In this paper, even though we analyze the characteristics for GPS receivers with high inclination angle by computer simulations, we can also characterize the characteristics for GPS receivers with arbitrary inclination angle by considering the earth is a nearly sphere and GPS satellites are uniformly distributed.
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