Sparsity divergence index based on locally linear embedding for hyperspectral anomaly detection

Lili Zhang; Chunhui Zhao

doi:10.1117/1.JRS.10.025026

28 June 2016 Sparsity divergence index based on locally linear embedding for hyperspectral anomaly detection

Lili Zhang, Chunhui Zhao

Author Affiliations +

Journal of Applied Remote Sensing, Vol. 10, Issue 2, 025026 (June 2016). https://doi.org/10.1117/1.JRS.10.025026

Abstract

Hyperspectral imagery (HSI) has high spectral and spatial resolutions, which are essential for anomaly detection (AD). Many anomaly detectors assume that the spectrum signature of HSI pixels can be modeled with a Gaussian distribution, which is actually not accurate and often leads to many false alarms. Therefore, a sparsity model without any distribution hypothesis is usually employed. Dimensionality reduction (DR) as a preprocessing step for HSI is important. Principal component analysis as a conventional DR method is a linear projection and cannot exploit the nonlinear properties in hyperspectral data, whereas locally linear embedding (LLE) as a local, nonlinear manifold learning algorithm works well for DR of HSI. A modified algorithm of sparsity divergence index based on locally linear embedding (SDI-LLE) is thus proposed. First, kernel collaborative representation detection is adopted to calculate the sparse dictionary matrix of local reconstruction weights in LLE. Then, SDI is obtained both in the spectral and spatial domains, where spatial SDI is computed after DR by LLE. Finally, joint SDI, combining spectral SDI and spatial SDI, is computed, and the optimal SDI is performed for AD. Experimental results demonstrate that the proposed algorithm significantly improves the performance, when compared with its counterparts.

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Lili Zhang and Chunhui Zhao "Sparsity divergence index based on locally linear embedding for hyperspectral anomaly detection," Journal of Applied Remote Sensing 10(2), 025026 (28 June 2016). https://doi.org/10.1117/1.JRS.10.025026

Published: 28 June 2016

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