Network RTK

Experimentation and Research on Network RTK Technology in Urban Control Survey

网络RTK技术在城市控制测量中的试验与研究

Relations between interpolation method and linear combination method for GPS Network RTK

GPS网络RTK线性组合法与内插法关系的讨论

Key Algorithm and Technique of VRS Network RTK and Precision Analysis

VRS网络RTK关键算法与技术及精度分析

Model of GNSS network RTK algorithm and test analysis

GNSS网络RTK算法模型及测试分析

Strategy and Experimental Results of Augmentation Reference Station Network RTK Positioning

增强参考站网络RTK算法模型及其实验研究

The application of Winsock in the data transmission of network RTK

Winsock在网络RTK数据传输中的应用

Application of Network RTK Technology in Surveying Boundary Point

网络RTK技术在勘测定界界址点测量中的应用

Design and C + + implementation of high accuracy mobile location system based on network RTK

基于网络RTK高精度移动定位系统的设计与C++实现

The Technology of Network RTK in Guangzhou Continuously Operating Reference Stations

广州市连续运行卫星定位服务系统中的网络RTK技术

Example Analysis of Applying Network RTK Technology to City / Town Cadastral Survey

网络RTK技术在城镇地籍测量中的应用实例分析

Simulating experimental calculation of linear combination in GPS Network RTK

GPS网络RTK线性组合法模拟实验计算

Discussion of transmiting Network RTK Data Using XML Technology

XML技术在网络RTK数据传输中的探讨

On application experience of traditional RTK and network RTK

浅谈传统RTK与网络RTK的应用体会

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。

Three Steps Method to Determine Double Difference Ambiguities Resolution of Network RTK Reference Station

三步法确定网络RTK基准站双差模糊度

Simple Method of Realizing Network RTK / RTD Receiver

实现网络RTK/RTD接收机的简易方法

Application of GPS Network RTK to photo-control point measurement

网络RTK技术在像控测量中的应用研究

Evaluation and correction of ionospheric delay with network RTK

网络RTK的电离层折射估算与改正

Analysis of Troposphere Delay in GPS Network RTK

GPS网络RTK中对流层延迟分析

The Algorithmic Research of GPS / GLONASS Network RTK and Its Program Realization

GPS/GLONASS网络RTK的算法研究与程序实现

Analyses and elimination of orbit bias in network RTK

网络RTK的轨道误差分析与消除

A New Approach for Fast Integer Ambiguity Resolution Suitable for Medium-long Baseline in GPS Network RTK

中长基线GPS网络RTK模糊度快速解算的一种新方法

The preliminary simulation for the fast differential algorithm based on network RTK proves its feasibility to the precise train positioning and navigation in real time .

最后，对网络RTK快速差分算法进行了仿真分析，其结果验证了该算法对实现列车实时精确定位导航的可行性。

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。

GPS Network RTK technology is a long-distance , high-precision real-time positioning technology which developed in recent years , it represents the future direction of development of GPS .

GPS网络RTK技术是近年来发展起来的一种远距离、高精度的实时定位技术，它代表着GPS未来的发展方向。

Because of GPS network RTK operation with a wide range of high positioning accuracy , good stability , etc. , so it has a wide range of applications .

由于GPS网络RTK具有作业范围广，定位精度高，稳定性好等优点，因此其具有广泛的应用领域。

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。

On the base of the principle and ingredients of GPS network RTK system , this article mainly discusses the three algorithms : interpolation method , linear combination method , GPS virtual reference station method .

本文在介绍GPS网络RTK系统的原理和组成部分的基础上，重点讨论了网络RTK系统的三种主要算法：内插法、线性组合法和虚拟参考站法；

On the basis of the combined bias interpolation ( CBI ) method of GNSS network RTK , a modified combined bias interpolation ( MCBI ) method is proposed .

在全球导航卫星系统（GNSS）网络RTK综合误差内插法（CBI）的基础上，提出了一种改进的综合误差内插方法（MCBI）。

GPS Continuous Operational Reference System ( CORS ) based on network RTK technology , as one of the development aspect of GPS applications has become the indispensable infrastructure of urban and rural areas information construction .

基于网络RTK技术建立起来的GPS连续运行参考站系统（CORS），作为GPS应用的发展热点之一，如今已成为城乡信息化建设必不可少的基础设施。