Title :
FSPE: Visualization of Hyperspectral Imagery Using Faithful Stochastic Proximity Embedding
Author :
Najim, Safa A. ; Ik Soo Lim ; Wittek, Peter ; Jones, Mark W.
Author_Institution :
Sch. of Comput. Sci., Bangor Univ., Bangor, UK
Abstract :
Hyperspectral image visualization reduces color bands to three, but prevailing linear methods fail to address data characteristics, and nonlinear embeddings are computationally demanding. Qualitative evaluation of embedding is also lacking. We propose faithful stochastic proximity embedding (FSPE), which is a scalable and nonlinear dimensionality reduction method. FSPE considers the nonlinear characteristics of spectral signatures, yet it avoids the costly computation of geodesic distances that are often required by other nonlinear methods. Furthermore, we employ a pixelwise metric that measures the quality of hyperspectral image visualization at each pixel. FSPE outperforms the state-of-art methods by at least 12% on average and up to 25% in the qualitative measure. An implementation on graphics processing units is two orders of magnitude faster than the baseline. Our method opens the path to high-fidelity and real-time analysis of hyperspectral images.
Keywords :
data visualisation; geodesy; geophysical image processing; graphics processing units; hyperspectral imaging; image colour analysis; stochastic processes; terrain mapping; color bands; faithful stochastic proximity embedding; geodesic distances; graphics processing units; high-fidelity; hyperspectral image visualization; nonlinear characteristics; nonlinear dimensionality reduction method; nonlinear embeddings; pixelwise metric; qualitative evaluation; qualitative measure; real-time analysis; spectral signatures; Correlation; Hyperspectral imaging; Image color analysis; Measurement; Principal component analysis; Visualization; Dimension reduction methods; hyperspectral imagery sensing; visualization;
Journal_Title :
Geoscience and Remote Sensing Letters, IEEE
DOI :
10.1109/LGRS.2014.2324631
