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19 January 2001 Hierarchical neural networks for pixel classification
Theo E. Schouten, Zhenkai Liu, Lin Feng, Gu Junjie
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Proceedings Volume 4170, Image and Signal Processing for Remote Sensing VI; (2001) https://doi.org/10.1117/12.413881
Event: Europto Remote Sensing, 2000, Barcelona, Spain
Abstract
Neural networks have been successfully used to classify pixels in remotely sensed images. Especially backpropagation neural networks have been used for this purpose. As is the case with all classification methods, the obtained classification accuracy is dependent on the amount of spectral overlap between classes. In this paper we study the new idea of using hierarchical neural networks to improve the classification accuracy. The basic idea is to use a first level network to classify the easy pixels and then use one or more second level networks for the more difficult pixels. First a rather standard backpropagation neural network is trained using the training pixels of a ground truth set. Two ideas to select the difficult pixels are tested. The first one is to take those pixels for which the value of the winning neuron is below a threshold value. The second one is to select pixels from output classes, which get a high contribution from wrong input classes. Both ideas improve on the percentage correctly classified pixels and on the average percentage correctly classified pixels per class.
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Theo E. Schouten, Zhenkai Liu, Lin Feng, and Gu Junjie "Hierarchical neural networks for pixel classification", Proc. SPIE 4170, Image and Signal Processing for Remote Sensing VI, (19 January 2001); https://doi.org/10.1117/12.413881
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KEYWORDS
Neural networks
Neurons
Image classification
Fuzzy logic
Remote sensing
Spectroscopy
Data modeling
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