Vol. 4, No. 1, 70-78, 2005
Bogdan Zagajewski, Anna Kozlowska, Malgorzata Krowczynska, Marcin Sobczak and Magdalena Wrzesien
Abstract The study was carried on in the Tatra National
Park - encompassing subalpine, alpine and subnival belts of the Tatra
Mountains. The results of the ground mapping and different image classification
approaches were compared.
Maximum likelihood classification method is
widely used in many remote sensing applications and can be considered one of
the most popular and reliable techniques. Neural network classification is
based on training during a training phase, and the proper classification. The
training process is based on determining the neural connection weights to make
the output signal from the network as close as possible to the expected result.
One of the goals was to verify the usefulness of neural networks for
classification and to obtain the best results in vegetation recognising using
airborne hyperspectral imagery.
For validation of the DAIS and ROSIS image classifications, a detailed large-scale
vegetation map was prepared, using traditional field mapping.
Citation EARSeL European Association of Remote Sensing Laboratories, Strasbourg, France BIS-Verlag
The paper presents the methods and first results
of vegetation mapping, using field and hyperspectral airborne data in high
mountain ecosystems. The research also aims at a comparison of different remote
sensing methods of vegetation classification and at creating a map of actual
vegetation.
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History
Submitted: 22 July 2004
Revised: 13 December 2004
Accepted: 18 Febuary 2005
Zagajewski B, A Kozlowska, M Krowczynska, M Sobczak & M Wrzesien, 2005. Mapping high mountain vegetation using hyperspectral data. EARSeL eProceedings, 4(1), 70-78
BIS Library and Information System, Carl von Ossietzky University of Oldenburg
ISSN 1729-3782