A reflectance spectra-based approach to mapping salt fields using PCA-fused Landsat TM data |
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Authors: | Ying Zhang Ping-Xiang Hu Jay Gao |
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Affiliation: | 1. College of Geographic Science, Nanjing Normal University, Nanjing 210097, China;2. Hexi Branch, Jinling High School, Nanjing 210012, China;3. School of Environment, University of Auckland, Private Bag 92019, Auckland, New Zealand |
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Abstract: | In this paper a method based on in situ measured reflectance spectra was developed for accurately mapping salt fields in the Taibei Salt Farm in Lianyungang City of East China. After radiometric correction and geometric rectification, six multispectral ETM+ bands were fused with the panchromatic band via principal components analysis (PCA). The fused data were used to map salt fields in the farm. Salt fields were mapped 91.95% correctly in comparison with ground statistics from raw multispectral bands. This accuracy level rose to 96.4% with the use of the panchromatic band (15 m resolution). However, PCA-fused data produced the highest accuracy of 98.8%. At the zone level, coarse resolution data resulted in an accuracy of 98.93% for crystallization ponds, but only 82.68% for condensation ponds. Use of the panchromatic band alone improved the accuracy for condensation ponds but decreased the accuracy for crystallization and evaporation ponds. Results derived from PCA-fused data are highly consistent with the ground statistics at a discrepancy between 0.35% for evaporation zone and 1.80% for condensation zone. It is concluded that a fine spectral resolution is important to separation of ponds of a varying salt content while a fine spatial resolution is important to their mapped area. Ponds of a lower salt content can be mapped more accurately from fused data than from raw spectral bands. |
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Keywords: | Reflectance spectra Principal component analysis Data fusion Salt fields Image classification |
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