An efficient smoothing algorithm for range external guidance data based on dynamic threshold and adaptive interpolation

An efficient smoothing algorithm for range external guidance data based on dynamic threshold and adaptive interpolation

Abstract To achieve real-time smoothing of external guidance data for photoelectric theodolites and ensure stable image acquisition, this paper proposes a field processing method based on dynamic thresholding and adaptive interpolation. First, to address outliers in the external guidance data, a met...

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Bibliographic Details
Main Authors: Shixue Zhang, Huihui Cai, Houfeng Wang, Shuai Liu, Qiang He
Format: Article
Language:English
Published: Nature Portfolio 2025-04-01
Series:Scientific Reports
Subjects:
Photoelectric theodolite
Range measurement and control
External guidance data
Outlier detection
Dynamic threshold
Adaptive interpolation
Online Access:https://doi.org/10.1038/s41598-025-99382-1
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Summary:Abstract To achieve real-time smoothing of external guidance data for photoelectric theodolites and ensure stable image acquisition, this paper proposes a field processing method based on dynamic thresholding and adaptive interpolation. First, to address outliers in the external guidance data, a method for dynamically calculating sample variance using an influence function is introduced. This approach establishes an adaptive threshold for real-time outlier detection in real time. Second, for the interpolation of external guidance data, the coherence of the interpolation calculations is evaluated, and the “stuck” external guidance data is categorized. Different strategies are applied based on the severity of the stuck condition, enabling real-time smooth interpolation. Experimental results demonstrate that the proposed dynamic threshold-based five-point extrapolation outlier elimination method achieves an average outlier detection rate of over 80% with a very low false alarm rate. The interpolation algorithm effectively handles both stuck and non-stuck external guidance data, producing smooth and coherent processing results. This method has demonstrated significant results in practical application, meeting the requirements of the trajectory measurement system.
ISSN:2045-2322

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