论文信息 - Multispectral data classification based on spectral indices and cascaded fuzzy C-mean classifiers

Multispectral data classification based on spectral indices and cascaded fuzzy C-mean classifiers

Land Use and Land Cover (LULC) are characterized by a large variety of spectrally distinct LULC classes. The diagnostic and evaluation of the spectral separability measure yields the potential for automated identification and mapping of these classes. This study proposes a new cascaded fuzzy C-mean classification method for a rough classification of (LULC) classes. The method is based on the use of spectral indices as innovative features to provide a coarse classification of remotely sensed data. The robustness and accuracy of the defined classification schema is performed based on the computation of confusion matrices and Kappa coefficient. The Kappa statistic ranges from 0.90 to 0.98 for the set of the evaluated images which infer the good accuracy of the new rough classification scheme.

[1] Kim L. Boyer,et al. A system to detect houses and residential street networks in multispectral satellite images , 2005, Comput. Vis. Image Underst..

[2] S. Bacha,et al. Strategy for the dynamic study of desertification , 1996 .

[3] Kim L. Boyer,et al. Linearized vegetation indices based on a formal statistical framework , 2004, IEEE Transactions on Geoscience and Remote Sensing.

[4] Stephen V. Stehman,et al. Selecting and interpreting measures of thematic classification accuracy , 1997 .

[5] Eric C. Brown de Colstoun,et al. Improving global scale land cover classifications with multi-directional POLDER data and a decision tree classifier , 2006 .

[6] L.L.F. Janssen,et al. Accuracy assessment of satellite derived land - cover data : a review , 1994 .

[7] A. Huete. A soil-adjusted vegetation index (SAVI) , 1988 .

[8] K. McGwire,et al. Hyperspectral mixture modeling for quantifying sparse vegetation cover in arid environments. , 2000 .

[9] Alan T. Murray,et al. Estimating impervious surface distribution by spectral mixture analysis , 2003 .

[10] Chein-I Chang,et al. Spectral derivative feature coding for hyperspectral signature analysis , 2006, SPIE Optics + Photonics.

[11] Changshan Wu,et al. Normalized spectral mixture analysis for monitoring urban composition using ETM+ imagery , 2004 .

[12] J. R. Landis,et al. The measurement of observer agreement for categorical data. , 1977, Biometrics.