Frontiers in Sustainable Food Systems (Mar 2024)

A fast hyperspectral change detection algorithm for agricultural crops based on low-rank matrix and morphological feature extraction

  • Jin Wang,
  • Lifu Zhang,
  • Ruoxi Song,
  • Changping Huang,
  • Donghui Zhang,
  • Senhao Liu,
  • Yanwen Liu

DOI
https://doi.org/10.3389/fsufs.2024.1363726
Journal volume & issue
Vol. 8

Abstract

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Crop change detection study is the foundation of agricultural sustainability. The inherent high spectral resolution of hyperspectral images, combined with multi-temporal datasets, facilitates the detection of subtle changes. To enhance the accuracy and applicability of hyperspectral change detection in agricultural scenes, this paper introduces a fast hyperspectral change detection approach for agricultural crops based on low-rank matrix and morphological feature extraction (FLRaMF). The goal is to improve detection precision and computational efficiency of the change detection process. The method initially employs rapid low-rank matrix extraction to separate changing and non-changing pixels in the spectral domain. Subsequently, spatial information is introduced using attribute profiles, restricting spectral anomalies through hyperspectral morphology, which ultimately improves the detection results. This study utilized four hyperspectral change detection datasets in agricultural crop scenarios, optimizing and analyzing parameters. Experimental results and analysis indicate that the FLRaMF method can achieve higher detection accuracy with reduced computation cost in unsupervised, default parameter scenarios when performing agricultural crop change detection tasks.

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