天顶
激光跟踪器
方位角
加权
先验与后验
计量学
计算机科学
光学
激光雷达
观测误差
激光器
算法
遥感
模拟
物理
数学
统计
声学
地理
认识论
哲学
出处
期刊:Journal of Surveying Engineering-asce
[American Society of Civil Engineers]
日期:2023-06-27
卷期号:149 (4)
被引量:1
标识
DOI:10.1061/jsued2.sueng-1433
摘要
Methods for modeling the uncertainty in laser tracker angle measurements vary within the metrology industry, leading to confusion and questionable stochastic modeling for survey network adjustments and error propagation analysis. Interpreting the published laser tracker manufacturer performance specifications to determine an a priori sigma value for weighting azimuth and zenith angle measurements can be confusing and has led to differing implementations. Furthermore, this paper proposes a unique way to model survey network a priori laser tracker angular uncertainties based on laser tracker manufacturers’ published maximum permissible error (MPE) values referenced to current standards for weighting survey network measurements. This paper’s proposed model takes into account the disparate effects that pointing errors, target centering errors, and leveling errors have on azimuth and zenith angular uncertainties for measurements with steep sightings and at near ranges.
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