OBJECT-BASED RANDOM FOREST CLASSIFICATION OF LAND COVER FROM REMOTELY SENSED IMAGERY FOR INDUSTRIAL AND MINING RECLAMATION

OBJECT-BASED RANDOM FOREST CLASSIFICATION OF LAND COVER FROM REMOTELY SENSED IMAGERY FOR INDUSTRIAL AND MINING RECLAMATION

The RF method based on grid-search parameter optimization could achieve a classification accuracy of 88.16 % in the classification of images with multiple feature variables. This classification accuracy was higher than that of SVM and ANN under the same feature variables. In terms of effi...

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Main Authors: Y. Chen, M. Luo, L. Xu, X. Zhou, J. Ren, J. Zhou
Format: Article
Language:English
Published: Copernicus Publications 2018-04-01
Series:The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences
Online Access:https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLII-3/199/2018/isprs-archives-XLII-3-199-2018.pdf
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spelling doaj-beade4786c1d4f94be9a3ff4b773de842020-11-25T01:39:11ZengCopernicus PublicationsThe International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences1682-17502194-90342018-04-01XLII-319920610.5194/isprs-archives-XLII-3-199-2018OBJECT-BASED RANDOM FOREST CLASSIFICATION OF LAND COVER FROM REMOTELY SENSED IMAGERY FOR INDUSTRIAL AND MINING RECLAMATIONY. Chen0Y. Chen1M. Luo2L. Xu3X. Zhou4J. Ren5J. Zhou6Land Consolidation and Rehabilitation Center, Ministry of Land and Resource, China, People's Republic ofChina University of Geosciences (Beijing), School of Land Science and Technology, China, People's Republic ofLand Consolidation and Rehabilitation Center, Ministry of Land and Resource, China, People's Republic ofChina University of Geosciences (Beijing), School of Land Science and Technology, China, People's Republic ofLand Consolidation and Rehabilitation Center, Ministry of Land and Resource, China, People's Republic ofLand Consolidation and Rehabilitation Center, Ministry of Land and Resource, China, People's Republic ofLand Consolidation and Rehabilitation Center, Ministry of Land and Resource, China, People's Republic ofThe RF method based on grid-search parameter optimization could achieve a classification accuracy of 88.16 % in the classification of images with multiple feature variables. This classification accuracy was higher than that of SVM and ANN under the same feature variables. In terms of efficiency, the RF classification method performs better than SVM and ANN, it is more capable of handling multidimensional feature variables. The RF method combined with object-based analysis approach could highlight the classification accuracy further. The multiresolution segmentation approach on the basis of ESP scale parameter optimization was used for obtaining six scales to execute image segmentation, when the segmentation scale was 49, the classification accuracy reached the highest value of 89.58 %. The classification accuracy of object-based RF classification was 1.42 % higher than that of pixel-based classification (88.16 %), and the classification accuracy was further improved. Therefore, the RF classification method combined with object-based analysis approach could achieve relatively high accuracy in the classification and extraction of land use information for industrial and mining reclamation areas. Moreover, the interpretation of remotely sensed imagery using the proposed method could provide technical support and theoretical reference for remotely sensed monitoring land reclamation.https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLII-3/199/2018/isprs-archives-XLII-3-199-2018.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Y. Chen
Y. Chen
M. Luo
L. Xu
X. Zhou
J. Ren
J. Zhou
spellingShingle Y. Chen
Y. Chen
M. Luo
L. Xu
X. Zhou
J. Ren
J. Zhou
OBJECT-BASED RANDOM FOREST CLASSIFICATION OF LAND COVER FROM REMOTELY SENSED IMAGERY FOR INDUSTRIAL AND MINING RECLAMATION
The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences
author_facet Y. Chen
Y. Chen
M. Luo
L. Xu
X. Zhou
J. Ren
J. Zhou
author_sort Y. Chen
title OBJECT-BASED RANDOM FOREST CLASSIFICATION OF LAND COVER FROM REMOTELY SENSED IMAGERY FOR INDUSTRIAL AND MINING RECLAMATION
title_short OBJECT-BASED RANDOM FOREST CLASSIFICATION OF LAND COVER FROM REMOTELY SENSED IMAGERY FOR INDUSTRIAL AND MINING RECLAMATION
title_full OBJECT-BASED RANDOM FOREST CLASSIFICATION OF LAND COVER FROM REMOTELY SENSED IMAGERY FOR INDUSTRIAL AND MINING RECLAMATION
title_fullStr OBJECT-BASED RANDOM FOREST CLASSIFICATION OF LAND COVER FROM REMOTELY SENSED IMAGERY FOR INDUSTRIAL AND MINING RECLAMATION
title_full_unstemmed OBJECT-BASED RANDOM FOREST CLASSIFICATION OF LAND COVER FROM REMOTELY SENSED IMAGERY FOR INDUSTRIAL AND MINING RECLAMATION
title_sort object-based random forest classification of land cover from remotely sensed imagery for industrial and mining reclamation
publisher Copernicus Publications
series The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences
issn 1682-1750
2194-9034
publishDate 2018-04-01
description The RF method based on grid-search parameter optimization could achieve a classification accuracy of 88.16 % in the classification of images with multiple feature variables. This classification accuracy was higher than that of SVM and ANN under the same feature variables. In terms of efficiency, the RF classification method performs better than SVM and ANN, it is more capable of handling multidimensional feature variables. The RF method combined with object-based analysis approach could highlight the classification accuracy further. The multiresolution segmentation approach on the basis of ESP scale parameter optimization was used for obtaining six scales to execute image segmentation, when the segmentation scale was 49, the classification accuracy reached the highest value of 89.58 %. The classification accuracy of object-based RF classification was 1.42 % higher than that of pixel-based classification (88.16 %), and the classification accuracy was further improved. Therefore, the RF classification method combined with object-based analysis approach could achieve relatively high accuracy in the classification and extraction of land use information for industrial and mining reclamation areas. Moreover, the interpretation of remotely sensed imagery using the proposed method could provide technical support and theoretical reference for remotely sensed monitoring land reclamation.
url https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XLII-3/199/2018/isprs-archives-XLII-3-199-2018.pdf
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AT ychen objectbasedrandomforestclassificationoflandcoverfromremotelysensedimageryforindustrialandminingreclamation
AT mluo objectbasedrandomforestclassificationoflandcoverfromremotelysensedimageryforindustrialandminingreclamation
AT lxu objectbasedrandomforestclassificationoflandcoverfromremotelysensedimageryforindustrialandminingreclamation
AT xzhou objectbasedrandomforestclassificationoflandcoverfromremotelysensedimageryforindustrialandminingreclamation
AT jren objectbasedrandomforestclassificationoflandcoverfromremotelysensedimageryforindustrialandminingreclamation
AT jzhou objectbasedrandomforestclassificationoflandcoverfromremotelysensedimageryforindustrialandminingreclamation
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