2020
DOI: 10.1109/tgrs.2019.2947198
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Improved Supervised Learning-Based Approach for Leaf and Wood Classification From LiDAR Point Clouds of Forests

Abstract: Accurately classifying 3-D point clouds into woody and leafy components has been an interest for applications in forestry and ecology including the better understanding of radiation transfer between canopy and atmosphere. The past decade has seen an increase in the methods attempting to classify leaves and wood in point clouds based on radiometric or geometric features. However, classification purely based on radiometric features is sensor-specific, and the method by which the local neighborhood of a point is … Show more

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Cited by 98 publications
(62 citation statements)
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“…The point density is another factor that can affect the classification results in similar researches [9,10,15]. However, the results of this study verified that the classification results obtained using the FWCNN model are insensitive to the point density variation of tested TLS datasets.…”
Section: Point Densitysupporting
confidence: 54%
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“…The point density is another factor that can affect the classification results in similar researches [9,10,15]. However, the results of this study verified that the classification results obtained using the FWCNN model are insensitive to the point density variation of tested TLS datasets.…”
Section: Point Densitysupporting
confidence: 54%
“…where P 0 means the relative observed agreement among N samples in error matrices with r rows, which is equal to the ratio of the sum of the correct identification samples of all samples belonging to the same type; the P c is the hypothetical probability of chance agreement; X i+ and X +i are the row probabilities and the column probabilities, respectively. To assess the contribution of combining the LRI and geometrical information in distinguishing TLS data, we used the LeWoS model [32] and LWCLF model [15], which are only based on geometrical features, to classify the TLS datasets, and evaluated their classification accuracy for foliage and woody components. Additionally, we compared the FWCNN-based results with those obtained using the Random Forest (RF) algorithm [48], Gaussian Mixed Model (GMM) [30], and Support Vector Machine (SVM) algorithm [49] in terms of classification accuracy and running efficiency.…”
Section: Accuracy Assessmentmentioning
confidence: 99%
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