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Chapter 12:
Small-Target Detection of Hyperspectral Images after Noise Reduction
This chapter describes small-target detection of hyperspectral images using remote sensing product-deriving techniques. The work reported in this chapter is the further development of the work described in Chapter 11 for the purpose of assessing and validating the effectiveness of SNR-increasing techniques. The goal of the assessment is to examine how a hyperspectral datacube after denoising (or after increasing the SNR using the techniques in Chapter 11) can help improve the accuracy of the derived products or increase the confidence of the remote sensing applications. Target detection is a hyperspectral image application that is used in this chapter as another example to assess the hybrid spectral–spatial noise reduction (HSSNR) technique. Target detection from hyperspectral imagery has been an active research area since the 1990s. Hyperspectral target-detection algorithms can be basically classified into two categories: spectral-only and spectral–spatial. The spectralonly algorithms use the known spectral signatures of the targets; this category of algorithms includes the spectral matched filter, spectral angle mapper (SAM), and linear mixture models. The spatial–spectral algorithms apply when there is no known target spectral signature. They locate pixels that display different spatial and/or spectral characteristics from their surroundings. The spatial–spectral algorithms can be further divided into local- and global-anomaly detectors.
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