This paper introduces GPS network RTK positioning principle and its linear combination mathematic model.
本文首先介绍了GPS网络rtk的定位原理及其线性组合法的数学模型。
Additionally, The network RTK is mainly used to acquire plane coordinates, and can't provide elevation service in time.
另一方面网络rtk还主要是平面运用,不能实时提供高程服务。
The paper briefly introduced composition and principle of GPS network RTK(VRS) application in China and other part of world.
本文主要介绍了GPS网络RTK的基本组成和原理,以及该技术在国内外的应用。
The paper discusses several network RTK surveying methods, and compares the advantages and disadvantages of various methods.
对几种网络RTK作业方法进行论述,对各种方法的优缺点进行比较。
Different correction terms of moving station and influences on positioning can be generated when different interpolation methods utilized in GPS-network RTK.
在GPS网络rtk中,利用不同的内插算法,生成的流动站误差改正数不同,它们对定位结果的影响也不同。
Compared with the existing methods, the improved method can solve the ambiguities of the medium-long baseline GPS network RTK only using L1-frequency GPS data.
与现有方法相比,新方法可采用单频gps数据实现中长基线GPS网络rtk的整数模糊度快速解算。
This paper introduces the constitution and working theory of VRS-GPS network RTK system, and discusses the technique problems and the application range of building network RTK.
本文介绍VRS - GPS网络rtk系统组成和工作原理,探讨了建设网络rtk有关技术要点和应用范围。
The ionospheric delay error is a major error source which degrades the positioning accuracy in network real time kinematic (RTK) positioning over a long distance.
在长距离GPS实时动态定位(rtk)过程中,电离层延迟误差是影响定位精度的主要误差源。
The ionospheric delay error is a major error source which degrades the positioning accuracy in network real time kinematic (RTK) positioning over a long distance.
在长距离GPS实时动态定位(rtk)过程中,电离层延迟误差是影响定位精度的主要误差源。
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