GPS-RTK/UWB紧组合精密动态定位性能分析

为克服GPS-RTK定位在复杂环境下由于信号遮挡，可视卫星数量不足等原因无法获取厘米级高精度定位结果的不足，研究将超宽带(UWB)短距离高精度定位系统与实时动态(RTK)进行紧组合来提高复杂环境下动态定位的精度. 依据UWB定位原理，给出了GPS-RTK/UWB紧组合数学模型，详细介绍了数据处理流程. 滑轨动态实验结果表明，观测环境良好时，GPS-RTK/UWB紧组合与GPS相比能进一步提升固定率和动态定位精度；在截止高度角为40°的情况下，模糊度固定率从20.93%显著提升到93.96%，N、E方向定位精度提升至厘米级，U方向定位精度提升至分米级，仍能满足一定的工程需要. 

Performance analysis of high precision kinematic positioning of GPS-RTK/UWB tight combination

To overcome the shortage that GPS-RTK can not obtain centimeter level high precision positioning results due to signal blockage, insufficient satellites number and other reasons under complicated environment, in this paper, the tightly combination of ultra-wide band (UWB) short-range high precision positioning system and RTK are studied to improve the precision of dynamic positioning under complicated environment. According to the principle of UWB, the mathematical model of GPS-RTK/UWB tight combination is presented, and the data processing flow is introduced in detail. The experimental results show that GPS-RTK/UWB tight combination can further improve the ambiguity fixed success rate and dynamic positioning precision compared with only GPS when the observation environment is well. In a complicated environment with a cut-off mask elevation angle of 40 degree, the ambiguity fixed success rate was significantly increased from 20.93% to 93.96%. The positioning precision of N and E directions are improved to centimeter level, and that of U directions is improved to decimeter level, which can still meet certain engineering measurement needs.