Abstract
The identification of tree species is one of the most basic and key indicators in forest resource monitoring with great significance in the actual forest resource survey and it can comprehensively improve the efficiency of forest resource monitoring. The related research has mainly focused on single tree species without considering multiple tree species, and therefore the ability to classify forest tree species in complex stand is not clear, especially in the subtropical monsoon climate region of southern China. This study combined airborne hyperspectral data with simultaneously acquired LiDAR data, to evaluate the capability of feature combinations and k-nearest neighbor (KNN) and support vector machine (SVM) classifiers to identify tree species, in southern China. First, the stratified classification method was used to remove non-forest land. Second, the feature variables were extracted from airborne hyperspectral image and LiDAR data, including independent component analysis (ICA) transformation images, spectral indices, texture features, and canopy height model (CHM). Third, random forest and recursion feature elimination methods were adopted for feature selection. Finally, we selected different feature combinations and used KNN and SVM classifiers to classify tree species. The results showed that the SVM classifier has a higher classification accuracy as compared with KNN classifier, with the highest classification accuracy of 94.68% and a Kappa coefficient of 0.937. Through feature elimination, the classification accuracy and performance of SVM classifier was further improved. Recursive feature elimination method based on SVM is better than random forest. In the spectral indices, the new constructed slope spectral index, SL2, has a certain effect on improving the classification accuracy of tree species. Texture features and CHM height information can effectively distinguish tree species with similar spectral features. The height information plays an important role in improving the classification accuracy of other broad-leaved species. In general, the combination of different features can improve the classification accuracy, and the proposed strategies and methods are effective for the identification of tree species at complex forest type in southern China.
Highlights
IntroductionForest plays an important role in the survival and development of human civilization [1]
As a renewable resource, forest plays an important role in the survival and development of human civilization [1]
According to the Chinese fir can divided in space; whereas the Illicium verum and other broad-leaved species have and Chinese firbe can be divided in space; whereas the Illicium verum and other broad-leaved species obvious mixed phenomena in the first two schemes because the spectrum of the two tree species is have obvious mixed phenomena in the first two schemes because the spectrum of the two tree species similar
Summary
Forest plays an important role in the survival and development of human civilization [1]. A timely understanding of the stock and distribution of forest resources is the basis for the sustainable development of forestry [2]. The accuracy of the estimation of forest on-ground carbon stocks is dependent on the accuracy of tree species identification [5,6]. With the rapid development of remote sensing technology, remote sensing image data plays an important role in forestry species identification [7,8]. Available online: http://www.gaofenglinye.com.cn/lcjj/index_13.aspx (accessed on 30 January 2019).
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.