Abstract
The traditional azimuthal intersection method is viable for situations with only two control stations but a simple height averaging is not rigorous because the intersections vary in their distances from the two stations. In order to obtain the high-precision azimuthal intersections, this study presented a multi-parameter adjustment method, together with the Earth curvature correction and the atmospheric refraction correction models. This method is robust with varied distances between the control stations and the targeted intersections, without limitation of station quantity.•Based on the traditional space intersection, a multi-parameter adjustment model is added into the data processing for high-precision 3D positioning.•Both the Earth curvature error correction model and the atmospheric error correction model are included in the multi-parameter adjustment model, so the intersected points are more accurate than traditional intersections.
Highlights
Method ArticleMulti-parameter adjustment for high-precision azimuthal intersection positioning
In order to get the position of a target far away from the observatory, space intersection method is a good choice
Using the classic space azimuthal intersection method, at least two control stations are needed to obtain the 3D coordinates of the target
Summary
Multi-parameter adjustment for high-precision azimuthal intersection positioning. In order to obtain the high-precision azimuthal intersections, this study presented a multi-parameter adjustment method, together with the Earth curvature correction and the atmospheric refraction correction models. This method is robust with varied distances between the control stations and the targeted intersections, without limitation of station quantity. Based on the traditional space intersection, a multi-parameter adjustment model is added into the data processing for high-precision 3D positioning. Method name: high-precision azimuthal intersection positioning Keywords: Space intersection, Parameter adjustment model, Earth curvature error correction, Atmospheric error correction Article history: Received 8 October 2018; Accepted 15 June 2020; Available online 20 June 2020. Earth and Planetary Sciences Surveying and Positioning high-precision azimuthal intersection positioning
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