Title :
Ensemble methods for automatic masking of clouds in AVIRIS imagery
Author :
Bachmann, Charles M. ; Clothiaux, Eugene E. ; Moore, John W. ; Andreano, Keith J. ; Luong, Dong Q.
Author_Institution :
Airborne Radar Branch, Naval Res. Lab., Washington, DC, USA
Abstract :
Describes the first-phase of an investigation into techniques for automatic cloud masking in remote sensing data. BCM Projection Pursuit networks are explored as a method of unsupervised feature extraction from AVIRIS images. Search vectors in this method discover directions in the data in which the projected data is skew or multimodal, by minimizing a projection index which depends on higher moments of the projected data distribution. Ensemble methods are used to fuse information from extracted BCM features and to smooth the mapping of these features to classification of image pixels. Ensemble hierarchies contain multiple levels of networks, combining BCM at the lowest levels with backward propagation (BP) algorithms, based on cross-entropy minimization, at higher levels in the ensembles. Predicted cloud masks are compared against cloud masks derived from human interpretation; ensembles achieve better overall classification accuracy than single BP networks
Keywords :
atmospheric techniques; backpropagation; clouds; feature extraction; image recognition; neural nets; remote sensing; AVIRIS imagery; BCM projection pursuit networks; automatic cloud masking; backward propagation algorithms; cross-entropy minimization; ensemble methods; multimodal data; projection index; remote sensing data; skew data; unsupervised feature extraction; Airborne radar; Clouds; Data mining; Feature extraction; Histograms; Meteorological radar; Neural networks; Pixel; Radar imaging; Remote sensing;
Conference_Titel :
Neural Networks for Signal Processing [1994] IV. Proceedings of the 1994 IEEE Workshop
Conference_Location :
Ermioni
Print_ISBN :
0-7803-2026-3
DOI :
10.1109/NNSP.1994.366021
