Remote Sensing, Vol. 15, Pages 1679: Hyperspectral Anomaly Detection Based on Regularized Background Abundance Tensor Decomposition

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Remote Sensing, Vol. 15, Pages 1679: Hyperspectral Anomaly Detection Based on Regularized Background Abundance Tensor Decomposition

Remote Sensing doi: 10.3390/rs15061679

Authors: Wenting Shang Mohamad Jouni Zebin Wu Yang Xu Mauro Dalla Mura Zhihui Wei

The low spatial resolution of hyperspectral images means that existing mixed pixels rely heavily on spectral information, making it difficult to differentiate between the target of interest and the background. The endmember extraction method is powerful in enhancing spatial structure information for hyperspectral anomaly detection, whereas most approaches are based on matrix representation, which inevitably destroys the spatial or spectral information. In this paper, we treated the hyperspectral image as a third-order tensor and proposed a novel anomaly detection method based on a low-rank linear mixing model of the scene background. The obtained abundance maps possessed more distinctive features than the raw data, which was beneficial for identifying anomalies in the background. Specifically, the low-rank tensor background was approximated as the mode-3 product of an abundance tensor and endmember matrix. Due to the distinctive features of the background’s abundance maps, we characterized them by tensor regularization and imposed low rankness through CP decomposition, smoothness, and sparsity. In addition, we utilized the ℓ1,1,2-norm to characterize the tube-wise sparsity of the anomaly, since it accounted for a small portion of the scene. The experimental results obtained using five real datasets demonstrated the outstanding performance of our proposed method.

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