James E. Fowler scite author profile

Abstract-Hyperspectral imagery typically provides a wealth of information captured in a wide range of the electromagnetic spectrum for each pixel in the image; however, when used in statistical pattern-classification tasks, the resulting high-dimensional feature spaces often tend to result in ill-conditioned formulations. Popular dimensionality-reduction techniques such as principal component analysis, linear discriminant analysis, and their variants typically assume a Gaussian distribution. The quadratic maximumlikelihood classifier commonly employed for hyperspectral analysis also assumes single-Gaussian class-conditional distributions. Departing from this single-Gaussian assumption, a classification paradigm designed to exploit the rich statistical structure of the data is proposed. The proposed framework employs local Fisher's discriminant analysis to reduce the dimensionality of the data while preserving its multimodal structure, while a subsequent Gaussian mixture model or support vector machine provides effective classification of the reduced-dimension multimodal data. Experimental results on several different multiple-class hyperspectral-classification tasks demonstrate that the proposed approach significantly outperforms several traditional alternatives.Index Terms-Dimensionality reduction, Gaussian-mixturemodel (GMM), hyperspectral data, local discriminant analysis, support vector machine.

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Block Compressed Sensing of Images Using Directional Transforms

Mun

Fowler

2010

198

199

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Compressive-Projection Principal Component Analysis

Fowler

2009

IEEE Trans. on Image Process.

155

152

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Principal component analysis (PCA) is often central to dimensionality reduction and compression in many applications, yet its data-dependent nature as a transform computed via expensive eigendecomposition often hinders its use in severely resource-constrained settings such as satellite-borne sensors. A process is presented that effectively shifts the computational burden of PCA from the resource-constrained encoder to a presumably more capable base-station decoder. The proposed approach, compressive-projection PCA (CPPCA), is driven by projections at the sensor onto lower-dimensional subspaces chosen at random, while the CPPCA decoder, given only these random projections, recovers not only the coefficients associated with the PCA transform, but also an approximation to the PCA transform basis itself. An analysis is presented that extends existing Rayleigh-Ritz theory to the special case of highly eccentric distributions; this analysis in turn motivates a reconstruction process at the CPPCA decoder that consists of a novel eigenvector reconstruction based on a convex-set optimization driven by Ritz vectors within the projected subspaces. As such, CPPCA constitutes a fundamental departure from traditional PCA in that it permits its excellent dimensionality-reduction and compression performance to be realized in an light-encoder/heavy-decoder system architecture. In experimental results, CPPCA outperforms a multiple-vector variant of compressed sensing for the reconstruction of hyperspectral data.

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The redundant discrete wavelet transform and additive noise

Fowler¹

2005

IEEE Signal Process. Lett.

273

145

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Abstract-The behavior under additive noise of the redundant discrete wavelet transform (RDWT), a frame expansion that is essentially an undecimated discrete wavelet transform, is studied. Known prior results in the form of inequalities bound distortion energy in the original signal domain from additive noise in frame-expansion coefficients. In this paper, a precise relationship between RDWT-domain and original-signal-domain distortion for additive white noise in the RDWT domain is derived.Index Terms-redundant wavelet transform, frame expansion, additive noise

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James E. Fowler

Hyperspectral Image Compression Using JPEG2000 and Principal Component Analysis

Locality-Preserving Dimensionality Reduction and Classification for Hyperspectral Image Analysis

Block Compressed Sensing of Images Using Directional Transforms

Compressive-Projection Principal Component Analysis

The redundant discrete wavelet transform and additive noise

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