ICA mixture model based unsupervised classification of hyperspectral imagery

Chintan A. Shah, Manoj K. Arora, Stefan A. Robila, Pramod Kumar Varshney

Research output: Chapter in Book/Report/Conference proceedingConference contribution

32 Scopus citations


Conventional remote sensing classification techniques that model the data in each class with a multivariate Gaussian distribution are inefficient, as this assumption is generally not valid in practice. We present a novel, independent component analysis (ICA) based approach for unsupervised classification of hyperspectral imagery. ICA, employed for a mixture model, estimates the data density in each class and models class distributions with nonGaussian structure, formulating the ICA mixture model (ICAMM). We apply the ICAMM for unsupervised classification of a test image from the AVIRIS sensor. Four feature extraction techniques namely principal component analysis, segmented principal component analysis, orthogonal subspace projection and projection pursuit have been considered as preprocessing steps for reducing the data dimensionality. The results demonstrate that the ICAMM significantly outperforms the K-means algorithm for land cover classification of hyperspectral imagery implemented on reduced data sets. Moreover, datasets extracted using segmented principal component analysis produce the highest classification accuracy.

Original languageEnglish (US)
Title of host publicationProceedings - Applied Imagery Pattern Recognition Workshop
PublisherInstitute of Electrical and Electronics Engineers Inc.
Number of pages7
ISBN (Print)076951863X
StatePublished - 2002
Event31st Applied Imagery Pattern Recognition Workshop, AIPR 2002 - Washington, United States
Duration: Oct 16 2002Oct 18 2002


Other31st Applied Imagery Pattern Recognition Workshop, AIPR 2002
Country/TerritoryUnited States


  • Feature extraction
  • Gaussian distribution
  • Hyperspectral imaging
  • Hyperspectral sensors
  • Image segmentation
  • Image sensors
  • Independent component analysis
  • Principal component analysis
  • Remote sensing
  • Testing

ASJC Scopus subject areas

  • Engineering(all)


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