IGS站在大型线状工程测量控制网基线解算中的选取研究
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摘要
针对大型线状工程测量控制网数据解算时IGS基准站的选取问题,以川西康定至泸定境内某500 kV输变电工程作为研究对象,选取不同空间分布和数量分布的IGS基准站与实测GPS观测数据联合解算,运用试验的方法讨论了使用GAMIT10.7软件处理大型线状工程测量控制网IGS基准站的空间分布和数量分布对基线解算的影响。研究结果表明,在使用GAMIT10.7软件处理大型线状工程测量控制网时必须选取IGS基准站提供参考框架,且只可选择位于北半球的IGS基准站;选取的IGS站空间分布要均匀,数量上选择4~5个即可。
For selecting IGS base stations in data calculation of large linear engineering measurement control network, take a 500 kV power transmission and transformation project from Kangding to Luding in western Sichuan as the studied object, and select the IGS base station with different spatial distribution and quantity distribution and the measured GPS observation data to solve jointly, therefore, the effect of the spatial distribution and quantity distribution of the IGS reference station on baseline solution is discussed experimentally when using GAMIT10.7 software to deal with large linear engineering measurement control network. The results show that when using GAMIT10.7 software to process large linear engineering measurement control network, IGS reference station must be selected to provide reference frame, and only IGS base station located in the northern hemisphere can be selected; the spatial distribution of selected IGS stations should be even and quantitatively select 4 to 5.
For selecting IGS base stations in data calculation of large linear engineering measurement control network, take a 500 kV power transmission and transformation project from Kangding to Luding in western Sichuan as the studied object, and select the IGS base station with different spatial distribution and quantity distribution and the measured GPS observation data to solve jointly, therefore, the effect of the spatial distribution and quantity distribution of the IGS reference station on baseline solution is discussed experimentally when using GAMIT10.7 software to deal with large linear engineering measurement control network. The results show that when using GAMIT10.7 software to process large linear engineering measurement control network, IGS reference station must be selected to provide reference frame, and only IGS base station located in the northern hemisphere can be selected; the spatial distribution of selected IGS stations should be even and quantitatively select 4 to 5.
引文
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[ 3 ] 王晓凯. 高速铁路精密工程测量问题研究[J]. 铁道勘察,2018,44(5):29-31.
[ 4 ] 吕文军. 线状工程测量平面坐标系的建立方法研究与实现[D]. 成都:西南交通大学,2015.
[ 5 ] 陈林. 线状工程测量控制网布设和施测方法简析[J]. 科技促进发展,2010,(增1):182-183.
[ 6 ] 杨登科,安向东,汤勰. GAMIT数据处理中基线解算模式的对比分析[J]. 测绘地理信息,2016,41(2):18-21.
[ 7 ] 陈佳清,易卫兵,刘熙添,等. 基于G-Nut/Anubis的GNSS数据质量检核可视化分析[J]. 测绘地理信息,2018,43(5):50-54.
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