关键词: 实时动态定位, 单历元整周模糊度确定, MAXCOM法, DC算法, MAXCOM-DC组合算法

Abstract: A single-epoch satellite classification and screening strategy is given to address the issue of reduced efficiency of traditional RTK single-epoch integer ambiguity resolution of main and auxiliary correlation method (MAXCOM) using the increased number of observation satellites. All satellites in a single-epoch data are classified as reference-satellite, main-satellites, and auxiliary-satellites. The MAXCOM algorithm is used to determine the ambiguity of the main-satellites and the DC algorithm is used to determine the ambiguity of the auxiliary-satellites. A new algorithm of RTK single-epoch integer ambiguity fast resolution, called MAXCOM-DC combination algorithm is proposed. Through a dynamic positioning experiment and result analysis using a set of BDS-3 measured data with 900 consecutive observation epochs, it is shown that the MAXCOM-DC combination algorithm can avoid the impact of auxiliary-satellites on the search efficiency of the main-satellites integer ambiguity in the application of the MAXCOM algorithm. When the number of main-satellites is set to 6, the efficiency of single-epoch integer ambiguity fast resolution is increased by an average of 98.5%, and the success rate of single-epoch ambiguity resolution is 99.9%. The proposed algorithm provides a new algorithm for single-epoch RTK fast positioning in high-sampling data.

Key words: RTK positioning, single-epoch integer ambiguity resolution, MAXCOM algorithm, DC algorithm, MAXCOM-DC algorithm