Feature assessment in object-based forest classification using airborne LiDAR data and high spatial resolution satellite imagery

- Zhang, Zhenyu, Liu, Xiaoye, Wright, Wendy

Title
Feature assessment in object-based forest classification using airborne LiDAR data and high spatial resolution satellite imagery
Creator
Zhang, Zhenyu; Liu, Xiaoye; Wright, Wendy
Date
2014
Type
Text; Conference paper
Identifier
http://researchonline.federation.edu.au/vital/access/HandleResolver/1959.17/161104
Identifier
vital:12344
Identifier
https://doi.org/10.1109/EORSA.2014.6927920
Abstract
The last decade has witnessed an increase in interest in the application of airborne LiDAR data and high spatial resolution satellite imagery for forest structure modelling, tree species identification and classification. The integration of LiDAR data and WorldView-2 satellite imagery produced different combinations of input data layers for image segmentations and a large number of variables derived from these data layers for object-based classifications. Assessment of different features (including the input data layers and subsequently derived variables) for object-based forest classification is important. In this study, five image segmentation schemes were explored to test the effectiveness of the different input data layers, in particular, the new WorldView-2 multispectral bands to object-based forest classification. Object-based variables derived from these data layers were assessed to rank their importance before inputting into decision trees for forest classifications. It demonstrated that, using methods developed in this study, the integration of airborne LiDAR and eight WorldView-2 bands can significantly improve the accuracy of forest classification in our study area. The variable importance was ranked, indicating how important a variable contributes to the classification in a particular decision tree. The results showed that using LiDAR data alone or four conventional bands only, the overall accuracies achieved were 61.39% and 61.42% respectively, but the overall accuracy increased to 82.35% when all eight bands and the LiDAR data were used.
Publisher
IEEE
Relation
2014 3rd International Workshop on Earth Observation and Remote Sensing Applications (EORSA) p. 393-397
Rights
© 2014 IEEE.
Rights
This metadata is freely available under a CCO license
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