1998
DOI: 10.1080/014311698215342
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Wetland classification using optical and radar data and neural network classification

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Cited by 75 publications
(26 citation statements)
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“…The Tasseled Cap transformation also has been used by others to improve wetland mapping [81,94]. We found that using radar backscatter was more useful than using the polarimetric decompositions; in particular, our findings further confirm those of others documenting the importance of co-and cross-polarization radar backscatter (HH and HV, respectively) in classifying land cover [95][96][97].…”
Section: Cowardin Wetland Classification (Level 2)supporting
confidence: 81%
“…The Tasseled Cap transformation also has been used by others to improve wetland mapping [81,94]. We found that using radar backscatter was more useful than using the polarimetric decompositions; in particular, our findings further confirm those of others documenting the importance of co-and cross-polarization radar backscatter (HH and HV, respectively) in classifying land cover [95][96][97].…”
Section: Cowardin Wetland Classification (Level 2)supporting
confidence: 81%
“…There are many studies on wetland mapping over China also, and remote sensing has been used in monitoring changes in the Poyang Lake, Honghe wetlands and Zhalong River wetlands [13][14][15]. Classification algorithms such as conventional decision tree, maximum likelihood, support vector machines (SVM), and artificial neural networks (ANN) have been employed in wetland classification [16][17][18][19][20][21]. With the improved spatial resolution of remotely sensed imagery, the object-oriented strategy has also been proposed [22][23][24].…”
Section: Introductionmentioning
confidence: 99%
“…Whereas several researchers have evaluated the use of optical or SAR data alone for mapping wetlands, until more recently few had evaluated SAR and optical fusion for wetland mapping [6,[8][9][10][11][12][13][14] and most ignored the coarser-resolution thermal bands.…”
Section: Introductionmentioning
confidence: 99%