Unmanned Airborne Bistatic Interferometric Synthetic Aperture Radar Data Processing Method Using Bi-Directional Synchronization Chain Signals

Remote. Sens. Pub Date : 2024-02-22 DOI:10.3390/rs16050769
Jinbiao Zhu, Bei Lin, Jie Pan, Yao Cheng, Xiaolan Qiu, Wen Jiang, Yuquan Liu, Mingqian Liu
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Abstract

The bistatic Interferometric Synthetic Aperture Radar (InSAR) system can overcome the physical limitations imposed by the baseline of monostatic dual-antenna InSAR. It provides greater flexibility and can enhance elevation measurement accuracy through a well-designed baseline configuration. Unmanned aerial vehicles (UAVs) equipped with bistatic InSAR, having relatively low cost and high flexibility, are useful for mapping and land resource exploration. However, due to challenges including spatiotemporal synchronization and motion errors, there are limited reports on UAV-borne bistatic InSAR. This paper proposes a comprehensive method for processing data from small UAV-borne bistatic InSAR by integrating two-way synchronization chain signals. The proposed method includes compensation for time and phase synchronization errors, trajectory refinement with synchronized chain and Position and Orientation System (POS) data, high-precision bistatic InSAR imaging, and interferometric processing. Height inversion results based on the proposed method are also provided, which demonstrate the effectiveness of the proposed method in improving the accuracy of interferometric measurement at calibration points from 0.66 m to 0.42 m.
利用双向同步链信号的无人机载双向干涉合成孔径雷达数据处理方法
双静态干涉合成孔径雷达(InSAR)系统可以克服单静态双天线 InSAR 基线所带来的物理限制。它提供了更大的灵活性,并可通过精心设计的基线配置提高海拔测量精度。配备双静态 InSAR 的无人飞行器(UAV)成本相对较低,灵活性高,可用于测绘和土地资源勘探。然而,由于存在时空同步和运动误差等挑战,关于无人机载双稳态 InSAR 的报道十分有限。本文提出了一种综合方法,通过整合双向同步链信号来处理小型无人机载双程 InSAR 的数据。提出的方法包括时间和相位同步误差补偿、利用同步链和定位与定向系统(POS)数据进行轨迹细化、高精度双稳态 InSAR 成像以及干涉测量处理。此外,还提供了基于所提方法的高度反演结果,证明所提方法能有效地将校准点的干涉测量精度从 0.66 米提高到 0.42 米。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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