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An object-oriented approach for agrivultural land classification using rapideye imagery

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Zeitschriftentitel: The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences
Personen und Körperschaften: Sang, H., Zhai, L., Zhang, J., An, F.
In: The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XL-7/W4, 2015, S. 145-148
Format: E-Article
Sprache: Englisch
veröffentlicht:
Copernicus GmbH
Schlagwörter:
General Earth and Planetary Sciences
General Environmental Science
author_facet Sang, H.
Zhai, L.
Zhang, J.
An, F.
Sang, H.
Zhai, L.
Zhang, J.
An, F.
author Sang, H.
Zhai, L.
Zhang, J.
An, F.
spellingShingle Sang, H.
Zhai, L.
Zhang, J.
An, F.
The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences
An object-oriented approach for agrivultural land classification using rapideye imagery
General Earth and Planetary Sciences
General Environmental Science
author_sort sang, h.
spelling Sang, H. Zhai, L. Zhang, J. An, F. 2194-9034 Copernicus GmbH General Earth and Planetary Sciences General Environmental Science http://dx.doi.org/10.5194/isprsarchives-xl-7-w4-145-2015 <jats:p>Abstract. With the improvement of remote sensing technology, the spatial, structural and texture information of land covers are present clearly in high resolution imagery, which enhances the ability of crop mapping. Since the satellite RapidEye was launched in 2009, high resolution multispectral imagery together with wide red edge band has been utilized in vegetation monitoring. Broad red edge band related vegetation indices improved land use classification and vegetation studies. RapidEye high resolution imagery acquired on May 29 and August 9th of 2012 was used in this study to evaluate the potential of red edge band in agricultural land cover/use mapping using an objected-oriented classification approach. A new object-oriented decision tree classifier was introduced in this study to map agricultural lands in the study area. Besides the five bands of RapidEye image, the vegetation indexes derived from spectral bands and the structural and texture features are utilized as inputs for agricultural land cover/use mapping in the study. The optimization of input features for classification by reducing redundant information improves the mapping precision over 9% for AdaTree. WL, and 5% for SVM, the accuracy is over 90% for both approaches. Time phase characteristic is much important in different agricultural lands, and it improves the classification accuracy 7% for AdaTree.WL and 6% for SVM. </jats:p> An object-oriented approach for agrivultural land classification using rapideye imagery The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences
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series The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences
source_id 49
title An object-oriented approach for agrivultural land classification using rapideye imagery
title_unstemmed An object-oriented approach for agrivultural land classification using rapideye imagery
title_full An object-oriented approach for agrivultural land classification using rapideye imagery
title_fullStr An object-oriented approach for agrivultural land classification using rapideye imagery
title_full_unstemmed An object-oriented approach for agrivultural land classification using rapideye imagery
title_short An object-oriented approach for agrivultural land classification using rapideye imagery
title_sort an object-oriented approach for agrivultural land classification using rapideye imagery
topic General Earth and Planetary Sciences
General Environmental Science
url http://dx.doi.org/10.5194/isprsarchives-xl-7-w4-145-2015
publishDate 2015
physical 145-148
description <jats:p>Abstract. With the improvement of remote sensing technology, the spatial, structural and texture information of land covers are present clearly in high resolution imagery, which enhances the ability of crop mapping. Since the satellite RapidEye was launched in 2009, high resolution multispectral imagery together with wide red edge band has been utilized in vegetation monitoring. Broad red edge band related vegetation indices improved land use classification and vegetation studies. RapidEye high resolution imagery acquired on May 29 and August 9th of 2012 was used in this study to evaluate the potential of red edge band in agricultural land cover/use mapping using an objected-oriented classification approach. A new object-oriented decision tree classifier was introduced in this study to map agricultural lands in the study area. Besides the five bands of RapidEye image, the vegetation indexes derived from spectral bands and the structural and texture features are utilized as inputs for agricultural land cover/use mapping in the study. The optimization of input features for classification by reducing redundant information improves the mapping precision over 9% for AdaTree. WL, and 5% for SVM, the accuracy is over 90% for both approaches. Time phase characteristic is much important in different agricultural lands, and it improves the classification accuracy 7% for AdaTree.WL and 6% for SVM. </jats:p>
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author Sang, H., Zhai, L., Zhang, J., An, F.
author_facet Sang, H., Zhai, L., Zhang, J., An, F., Sang, H., Zhai, L., Zhang, J., An, F.
author_sort sang, h.
container_start_page 145
container_title The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences
container_volume XL-7/W4
description <jats:p>Abstract. With the improvement of remote sensing technology, the spatial, structural and texture information of land covers are present clearly in high resolution imagery, which enhances the ability of crop mapping. Since the satellite RapidEye was launched in 2009, high resolution multispectral imagery together with wide red edge band has been utilized in vegetation monitoring. Broad red edge band related vegetation indices improved land use classification and vegetation studies. RapidEye high resolution imagery acquired on May 29 and August 9th of 2012 was used in this study to evaluate the potential of red edge band in agricultural land cover/use mapping using an objected-oriented classification approach. A new object-oriented decision tree classifier was introduced in this study to map agricultural lands in the study area. Besides the five bands of RapidEye image, the vegetation indexes derived from spectral bands and the structural and texture features are utilized as inputs for agricultural land cover/use mapping in the study. The optimization of input features for classification by reducing redundant information improves the mapping precision over 9% for AdaTree. WL, and 5% for SVM, the accuracy is over 90% for both approaches. Time phase characteristic is much important in different agricultural lands, and it improves the classification accuracy 7% for AdaTree.WL and 6% for SVM. </jats:p>
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series The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences
source_id 49
spelling Sang, H. Zhai, L. Zhang, J. An, F. 2194-9034 Copernicus GmbH General Earth and Planetary Sciences General Environmental Science http://dx.doi.org/10.5194/isprsarchives-xl-7-w4-145-2015 <jats:p>Abstract. With the improvement of remote sensing technology, the spatial, structural and texture information of land covers are present clearly in high resolution imagery, which enhances the ability of crop mapping. Since the satellite RapidEye was launched in 2009, high resolution multispectral imagery together with wide red edge band has been utilized in vegetation monitoring. Broad red edge band related vegetation indices improved land use classification and vegetation studies. RapidEye high resolution imagery acquired on May 29 and August 9th of 2012 was used in this study to evaluate the potential of red edge band in agricultural land cover/use mapping using an objected-oriented classification approach. A new object-oriented decision tree classifier was introduced in this study to map agricultural lands in the study area. Besides the five bands of RapidEye image, the vegetation indexes derived from spectral bands and the structural and texture features are utilized as inputs for agricultural land cover/use mapping in the study. The optimization of input features for classification by reducing redundant information improves the mapping precision over 9% for AdaTree. WL, and 5% for SVM, the accuracy is over 90% for both approaches. Time phase characteristic is much important in different agricultural lands, and it improves the classification accuracy 7% for AdaTree.WL and 6% for SVM. </jats:p> An object-oriented approach for agrivultural land classification using rapideye imagery The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences
spellingShingle Sang, H., Zhai, L., Zhang, J., An, F., The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, An object-oriented approach for agrivultural land classification using rapideye imagery, General Earth and Planetary Sciences, General Environmental Science
title An object-oriented approach for agrivultural land classification using rapideye imagery
title_full An object-oriented approach for agrivultural land classification using rapideye imagery
title_fullStr An object-oriented approach for agrivultural land classification using rapideye imagery
title_full_unstemmed An object-oriented approach for agrivultural land classification using rapideye imagery
title_short An object-oriented approach for agrivultural land classification using rapideye imagery
title_sort an object-oriented approach for agrivultural land classification using rapideye imagery
title_unstemmed An object-oriented approach for agrivultural land classification using rapideye imagery
topic General Earth and Planetary Sciences, General Environmental Science
url http://dx.doi.org/10.5194/isprsarchives-xl-7-w4-145-2015