Hyperspectral Band Selection From Statistical Wavelet Models

High spectral resolution brings hyperspectral images with large amounts of information, which makes these images more useful in many applications than images obtained from traditional multispectral scanners with low spectral resolution. However, the high data dimensionality of hyperspectral images i...

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Bibliographic Details
Published in:IEEE transactions on geoscience and remote sensing 2017-04, Vol.55 (4), p.2111-2123
Main Authors: Siwei Feng, Itoh, Yuki, Parente, Mario, Duarte, Marco F.
Format: Article
Language:English
Subjects:
Band selection
Banded structure
Classification
Coefficients
Computation
Feature extraction
hidden Markov model
Hidden Markov models
Hyperspectral imaging
Markov chains
Mathematical models
Multispectral scanners
Ranking
Reduction
Redundancy
Resolution
Spectral resolution
Statistical analysis
Storage
Vectors
wavelet
Wavelet transforms
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Summary:High spectral resolution brings hyperspectral images with large amounts of information, which makes these images more useful in many applications than images obtained from traditional multispectral scanners with low spectral resolution. However, the high data dimensionality of hyperspectral images increases the burden on data computation, storage, and transmission; fortunately, the high redundancy in the spectral domain allows for significant dimensionality reduction. Band selection provides a simple dimensionality reduction scheme by discarding bands that are highly redundant, thereby preserving the structure of the data set. This paper proposes a new criterion for pointwise-ranking-based band selection that uses a nonhomogeneous hidden Markov chain (NHMC) model for redundant wavelet coefficients of each hyperspectral signature. The model provides a binary multiscale label that encodes semantic features that are useful to discriminate spectral types. A band ranking score considers the average correlation among the average NHMC labels for each band. We also test richer discrete-valued label vectors that provide a more finely grained quantization of spectral fluctuations. In addition, since band selection methods based on band ranking often ignore correlations in selected bands, we study the effect of redundancy elimination, applied on the selected features, on the performance of an example classification problem. Our experimental results also include an optional redundancy elimination step and test their effect on classification performance that is based on the selected bands. The experimental results also include a comparison with several relevant supervised band selection techniques.
ISSN:0196-2892
1558-0644
DOI:10.1109/TGRS.2016.2636850