基于流域和区域融合的深度图像混合分割方法用于树种识别

A. Othmani, A. Piboule, L. Voon
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引用次数: 4

摘要

利用陆地光探测和测距(T-LiDAR)扫描仪数据识别树种是估算混合种植森林资源属性的关键。本文提出了一种基于树皮三维几何纹理分析的树种识别新方法。该方法将树干30 cm段的三维点云转换为深度图像,在深度图像上采用分水岭和区域合并混合分割方法来揭示树皮形状特征。最后,在分割深度图像上计算形状和强度特征,并使用随机森林(RF)分类器对五种不同的树种进行分类。我们的方法已经在两个不同地形特征的法国森林中使用两个数据集进行了测试。两个数据集的准确率和精密度都在89%以上。
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Hybrid segmentation of depth images using a watershed and region merging based method for tree species recognition
Tree species recognition from Terrestrial Light Detection and Ranging (T-LiDAR) scanner data is essential for estimating forest inventory attributes in a mixed planting. In this paper, we propose a new method for individual tree species recognition based on the analysis of the 3D geometric texture of tree barks. Our method transforms the 3D point cloud of a 30 cm segment of the tree trunk into a depth image on which a hybrid segmentation method using watershed and region merging techniques is applied in order to reveal bark shape characteristics. Finally, shape and intensity features are calculated on the segmented depth image and used to classify five different tree species using a Random Forest (RF) classifier. Our method has been tested using two datasets acquired in two different French forests with different terrain characteristics. The accuracy and precision rates obtained for both datasets are over 89%.
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