Standardization of Safety Separation for Multi-Category Unmanned Aerial Vehicles in Low-Altitude Airspace Operations

Standardization of Safety Separation for Multi-Category Unmanned Aerial Vehicles in Low-Altitude Airspace Operations

Aiming at the problems of the imprecise safety distance standards for low-altitude UAVs within complex low-altitude environments and the difficulty of managing heterogeneous vehicles, a UAV safety interval calibration method based on random heading is proposed. Firstly, a UAV clustering model based...

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Bibliographic Details
Main Authors: Hua Xie, Xiaohui Ji, Jianan Yin, Yongwen Zhu, Yuhang Wu, Shuang Dai
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Applied Sciences
Subjects:
air traffic management
buckling
low altitude airspace
security interval
unmanned aerial vehicle
Online Access:https://www.mdpi.com/2076-3417/15/13/7501
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Summary:Aiming at the problems of the imprecise safety distance standards for low-altitude UAVs within complex low-altitude environments and the difficulty of managing heterogeneous vehicles, a UAV safety interval calibration method based on random heading is proposed. Firstly, a UAV clustering model based on K-Means++ was established for the performance characteristics of UAVs, using evaluation indexes such as contour coefficient, sum of squares of errors, Davidson–Bourdain index, etc. Then, combining this with the characteristics of UAVs with random heading, a UAV safety interval calibration model based on random heading was constructed, and the conflict probability and airspace utilization rate were determined and metered for UAV safety interval calibration. The experimental results showed that the profile coefficient, sum of squares of errors, and Davidson–Berding index of the iteratively optimized UAV clustering were optimized by 53.9%, 55.6%, and 46.6%, respectively, compared with the initial clustering results, and that the safe intervals calibrated in the experimental environment of a single category of UAVs were also applicable to the fusion airspace environment after validation. The research results can provide a theoretical basis and methodological support for the safety interval calibration of UAVs in low-altitude fusion operations.
ISSN:2076-3417

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