A SVMS-based hyperspectral data classification algorithm in a similarity space

In this paper, a multi-steps algorithm based on support vectors machines (SVMs) in similarity space is proposed. The SVMs is used as a recent classification method and separation boundary estimation technique for high dimensional data. It benefits of limited number of data for training of supervised...

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Bibliographic Details
Published in2009 First Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing pp. 1 - 4
Main Authors Hosseini, R.S., Homayouni, S.
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.08.2009
Subjects
Classification algorithms
Data engineering
Educational institutions
Hyperspectral data
Hyperspectral imaging
Hyperspectral sensors
Remote sensing
Similarity Space
Spatial resolution
Supervised Classification
Support vector machine classification
Support vector machines
Training data
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ISBN9781424446865
1424446864
ISSN2158-6268
DOI10.1109/WHISPERS.2009.5288980

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Summary:In this paper, a multi-steps algorithm based on support vectors machines (SVMs) in similarity space is proposed. The SVMs is used as a recent classification method and separation boundary estimation technique for high dimensional data. It benefits of limited number of data for training of supervised classification, which is a key challenge in hyperspectral data analysis. SVMs based classifier is applied in a similarity space. This space can be seen as a new feature space with relatively low dimension. In other words, a similarity projection is used to reduce the number of spectral bands in a sagacious manner. In deed, the hyperspectral data is projected to the similarity space of a specific class-of-interest using the spectral similarity measures such as spectral angle, distance, etc. This algorithm was applied to two sets of remotely sensed data; first is a Hyperion imagery set contains 242 bands with 30 m of spatial resolution. The second is a CASI (compact airborne spectrographic imager) imagery set having 9 spectral bands at 4 m of spatial resolution. Both of image sets cover the natural land areas. The trusty ground truth data are available for these images. So, the evaluation study is done to assess the accuracy of classification and role of different parameter setting and similarity measures. The results demonstrate the efficiency and the reliability of this algorithm.
ISBN:9781424446865
1424446864
ISSN:2158-6268
DOI:10.1109/WHISPERS.2009.5288980