Abstract
Abstract. In our study we classified grassland vegetation types of an alkali landscape (Eastern Hungary), using different image classification methods for hyperspectral data. Our aim was to test the applicability of hyperspectral data in this complex system using various image classification methods. To reach the highest classification accuracy, we compared the performance of traditional image classifiers, machine learning algorithm, feature extraction (MNF-transformation) and various sizes of training dataset. Hyperspectral images were acquired by an AISA EAGLE II hyperspectral sensor of 128 contiguous bands (400–1000 nm), a spectral sampling of 5 nm bandwidth and a ground pixel size of 1 m. We used twenty vegetation classes which were compiled based on the characteristic dominant species, canopy height, and total vegetation cover. Image classification was applied to the original and MNF (minimum noise fraction) transformed dataset using various training sample sizes between 10 and 30 pixels. In the case of the original bands, both SVM and RF classifiers provided high accuracy for almost all classes irrespectively of the number of the training pixels. We found that SVM and RF produced the best accuracy with the first nine MNF transformed bands. Our results suggest that in complex open landscapes, application of SVM can be a feasible solution, as this method provides higher accuracies compared to RF and MLC. SVM was not sensitive for the size of the training samples, which makes it an adequate tool for cases when the available number of training pixels are limited for some classes.
Highlights
Hyperspectral data is widely applied for monitoring of the environment (Thenkabail, 2011; Adam et al, 2010)
Open alkali landscapes provide an excellent possibility for testing the potential of remote sensing in mapping extended areas with a high spatial complexity (Alexander et al, 2015; Zlinszky et al, 2015)
Our aim was to test the applicability of hyperspectral data in this complex system using various image classification methods
Summary
Hyperspectral data is widely applied for monitoring of the environment (Thenkabail, 2011; Adam et al, 2010). Alkali habitats of the Pannonian Biogeographical region are one of the most extended semi-natural open landscapes of the European Union. Given their complexity, open alkali landscapes provide an excellent possibility for testing the potential of remote sensing in mapping extended areas with a high spatial complexity (Alexander et al, 2015; Zlinszky et al, 2015). Alkali landscapes are characterized by a fine-scale mosaic of different vegetation types. Alkali landscapes are characterised by a fine-scale mosaic of various vegetation types with similar characteristics
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