| 1. | Improving the precision of gps by use of pseudolite technique
伪卫星技术提高定位精度的研究 |
| 2. | Anti - jamming of smart antenna in pseudolite augmentation system
智能天线在伪卫星增强系统中的抗干扰作用 |
| 3. | Study on trajectory sensor based on pseudolite used in tcf
基于伪卫星定位的弹道修正引信用弹道参数测量系统研究 |
| 4. | At last , it discussed the pseudolite - inverted positioning system as supplement
最后补充探讨了伪卫星逆定位系统。 |
| 5. | Study on pseudolite - augmented quot; bei dou quot; double - star positioning system and algorithm
伪卫星增强的北斗双星定位系统及其算法的研究 |
| 6. | As the solution to the near - far problem in pseudolite application , the tdma signal structure project has been researched
针对伪卫星信号应用中遇到的远近效应问题,研究了时分信号结构方案来解决。 |
| 7. | The theory and method of the region passive pseudolites positioning based on geostationary satellite positioning system are systematically discussed
本文系统地讨论了基于双星的伪卫星无源区域定位系统的定位理论以及方法。 |
| 8. | Therefore in the paper , the impacts of various locations and geometries of pseudo - satellites on the accuracy of the augmented system are comprehensively investigated based on gdop
本文从主要从gdop的角度研究了不同伪卫星位置及布局对系统定位精度的影响。 |
| 9. | It is also proved in theory that the lowest gdop using the matrix theory . in practice , we can use gdop as a reference to locate the pseudo satellites , can also use gdop to analyze its performance
在实际应用中,我们可以用这个gdop表达式及其性质作为布设伪卫星的依据,也可以用它来分析现有定位系统的定位精度。 |
| 10. | Pesudolite station hardware is designed and some advices are supplied to the improvement of receivers . the most import performance to evaluate a position and navigation system is precision
设计了伪卫星的硬件电路示意图,对各部分提出了性能要求和设计建议,并对现有双星定位系统接收机用于组合系统时做了功能和硬件上的调整。 |
