摘要
分别利用全球气压气温模型GPT和GPT2处理相同的连续观测站数据。对比两组测站位置估值(简称位置)发现,测站气压偏差所导致的先验天顶延迟偏差不能完全被延迟参数所吸收,导致测站垂向位置出现偏差,且偏差的大小与测站纬度及数据处理中所采用的数据权重有关。测站气温偏差对测站位置的影响可忽略不计,但GPS定位结果的内符合精度随着测站气温的升高而降低。
In high-precision GPS analysis,the surface temperature and pressure of GPS sites are used to derive a priori zenith tropospheric delay.By comparing the different estimates of site position obtainedusing the global model of pressure and temperature GPT and GPT2 respectively,we find that the deviation of a priori zenith tropospheric delay due to the site pressure deviation cannot be absorbed completely by the delay parameters.Further,it will cause the deviations of site position estimates,especially for the vertical component;these deviations also depend on site latitude and elevation-dependent data weighting used in the data analysis.The site temperature deviations will not affect the site position estimates clearly.However,statistical analysis based on a large amounts of data show that the accuracy of position estimates decreases with the increase of site temperature.Taking the results of regional network in 2013 as an example,when site temperature increases from 0 ℃to 30 ℃,the repeatability of daily solutions occupied 4ddecreases from about 1mm to about 2mm,and from about3 mm to about 6mm for the horizontal and vertical components,respectively.
出处
《大地测量与地球动力学》
CSCD
北大核心
2016年第4期323-326,330,共5页
Journal of Geodesy and Geodynamics
基金
中国地震局地震行业科研专项(20120806)~~
关键词
测站气温和气压
全球气压气温模型
对流层延迟
测站位置估值
station temperature and pressure
global model of pressure and temperature
tropospheric delay
site position estimate