【摘 要】
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Integer ambiguity resolution is one of the difficult and important points in precision relative positioning.As we all known,LAMBDA (Least-squares AMBiguity Decorrelation Adjustment) method can be rega
【机 构】
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College of Geology Engineering and Geomantic, Chang'an University , Xi'an, Shanxi, China,710054
论文部分内容阅读
Integer ambiguity resolution is one of the difficult and important points in precision relative positioning.As we all known,LAMBDA (Least-squares AMBiguity Decorrelation Adjustment) method can be regard as the most rigorous algorithm in ambiguity resolution methods,it is still effective in the ambiguity resolution of triple-frequency GNSS precision positioning.So the algorithms such as LAMBDA,Rounding and Bootstrapping are adopted in this paper to solve the zero-baseline and ultra-short baseline BDS observations respectively,and the results of ambiguities resolution for pseudo-range & carrier phase double difference observations and increments of ENU direction for baselines are obtained,which the C01 satellite is taken as reference satellite in the whole baselines resolution.Through comparing the consequences of ambiguity resolution and the difference for increment of ENU direction between the three methods and TBC(Trimble Business Center) software,results show that performance of the three methods is at the same level,therefore both of them can be used to ambiguity resolution for zero-baseline and ultra-short baseline.
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