Hybrid Deterministic Sensing Matrix for Compressed Drone SAR Imaging and Efficient Reconstruction of Subsurface Targets

Hybrid Deterministic Sensing Matrix for Compressed Drone SAR Imaging and Efficient Reconstruction of Subsurface Targets

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Drone-based synthetic aperture radar (SAR) systems have increasingly gained attention due to their potential for rapid surveillance in localized areas.This paper presents a novel approach to SAR processing for subsurface target detection from a lightweight drone platform.The limited processing capacity and memory resources of small SAR platforms demand efficient recovery performance for high-resolution imaging.

Compressed sensing (CS) algorithms are widely used to mitigate data storage requirements, yet they often suffer from challenges related to computational burden and detection errors.CS theory exploits signal sparsity and the incoherence of sensing matrices to reconstruct read more target information from reduced data measurements.Although random sensing matrices are commonly employed to ensure the independence of measured data, they incur high computational cost and memory resources.

While deterministic sensing matrices provide fast data recovery, they suffer from increased internal interference, leading to degraded performance in noisy environments.This paper proposes a novel hybrid sensing matrix and recovery algorithm for efficient target detection in small drone-based SAR platforms.After establishing the principles of signal sampling and recovery, SAR imaging simulations are conducted to evaluate the performance of the proposed method with respect to Sneakers for Men - Grey - Canvas Mesh Athletic Running Shoes data compression, processing speed, and recovery accuracy.

For verification, a custom-built drone SAR platform is utilized to recover subsurface targets obscured by high-clutter backgrounds.Experimental results demonstrate the effective recovery of buried target images, highlighting the potential of the proposed method for practical applications in high-clutter environments.