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无人机机载激光雷达提取果树单木树冠信息 被引量:30

Extraction of crown information from individual fruit tree by UAV LiDAR
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摘要 定株管理是未来果园精准生产管理的趋势,果树单木树冠信息的提取是定株管理的关键。该研究利用无人机采集的苹果园激光探测与测量数据(Light Detection and Ranging,LiDAR)检测和测量每棵果树的树冠面积和树冠直径,并评价空间分辨率对果树单木树冠检测与提取结果的影响。该方法主要使用反距离权重插值法间接生成冠层高度模型(Canopy Height Model,CHM);使用局部极大值滤波算法和标记控制分水岭分割算法(Marked-Controlled Watered Segmentation,MCWS)对果树进行单木树冠检测与提取。通过与参考数据的比较,评估了该方法的精度,并定量分析了空间分辨率对于单木树冠检测与信息提取结果的敏感性。结果表明,该方法可有效实现果树单木树冠检测与信息提取,代表果树检测精度的F1得分为95.03%,树冠轮廓提取准确率为86.39%,树冠面积的提取数据集和参考数据集的线性拟合结果决定系数和归一化均方根误差分别为0.81和20.56%,树冠直径的提取数据集和参考数据集的线性拟合结果决定系数和归一化均方根误差分别为0.85和14.79%,树冠面积和直径不同程度地被高估。此外,冠层高度模型的空间分辨率接近果树平均树冠直径的1/10时精度最高,可以有效检测果树单木树冠及提取树冠轮廓,从而准确提取果树单木树冠信息。 Plant fixed management is the trend of precise production management in orchards in the future,and the extraction of crown information from an individual fruit tree is the key to fixed plant management.However,due to the relatively low height of apple trees,severe crown crossover,and the spatial resolution of remote sensing data,it is a challenging task to extract crown information from an individual fruit tree using the Unmanned Aerial Vehicle(UAV)LiDAR technology.The research explored the possibility of using the Light Detection and Ranging(LiDAR)data collected by UAV to extract the crown information of an individual apple tree,detecting and measuring the crown area and crown diameter of an individual fruit tree.Besides,the sensitivity of spatial resolution to an individual tree crown detection and information extraction result was analyzed.The specific process included the use of the Inverse Distance Weight(IDW)interpolation to generate the Digital Elevation Model(DEM),the Digital Surface Model(DSM),and the Canopy Height Model(CHM);then,the local maximum filter algorithm and the Marked-Controlled Watered Segmentation(MCWS)were used to detect and extract crown of an individual fruit tree.The accuracy of the method was evaluated by comparing it with the number and position of trees,the outline of the crown,and crown area and diameter obtained by manual visual interpretation.And the sensitivity of spatial resolution(0.1,0.2,0.3,0.4,and 0.5 m)to the detection and information extraction result of an individual tree crown was quantitatively analyzed by changing the resolution of the Canopy Height Model(CHM).The results showed that the method can realize the detection and information extraction of the crown of an individual fruit tree,to accurately extract the crown area and crown diameter.The F1-score representing the detection accuracy of fruit trees was 95.03%,the recall was 93.37%,and the precision was 96.75%;the accuracy rate of an individual crown extracted was 86.39%,the omission error was 11.52%,and the commission error was 5.24%.The linear fitting results of the extracted dataset and the referenced dataset of the crown area showed that the coefficient of determination,the root mean square error,and the normalized root mean square error was 0.81,4.44 m2,and 20.56%,respectively;the linear fitting results of the extracted dataset and the referenced dataset of the crown diameter showed that the coefficient of determination,the root mean square error,and the normalized root mean square error was 0.85,0.62 m,and 14.79%,respectively.Crown area and diameter were overestimated to varying degrees.Besides,the results of crown detection and information extraction of an individual fruit tree were also affected by the spatial resolution of the canopy height model.The increase in spatial resolution led to a decrease in recall and the increase of precision and resulted in an increase of omission error and the decrease of commission error.In this experiment,the optimum resolution of the canopy height model was 0.3 m.Therefore,a rule of thumb was proposed that when the spatial resolution of the canopy height model was close to 1/10 of the average crown diameter of all fruit trees,the accuracy was best.It could effectively detect the crown of an individual fruit tree and extract the outline of the crown,to accurately extract the crown information of an individual fruit tree.
作者 陈日强 李长春 杨贵军 杨浩 徐波 杨小冬 朱耀辉 雷蕾 张成健 董震 Chen Riqiang;Li Changchun;Yang Guijun;Yang Hao;Xu Bo;Yang Xiaodong;Zhu Yaohui;Lei Lei;Zhang Chengjian;Dong Zhen(School of Surveying and Land Information Engineering,Henan Polytechnic University,Jiaozuo 454000,China;Key Laboratory of Quantitative Remote Sensing in Agriculture,Ministry of Agriculture and Rural Affairs,Beijing Research Center for Information Technology in Agriculture,Beijing 100097,China;School of Information Science and Technology,Beijing Forestry University,Beijing 100083,China;College of Surveying and Mapping Science and Technology,Xi’an University of Science and Technology,Xi’an 710054,China;College of Geodesy and Geomatics,Shandong University of Science and Technology,Qingdao 266590,China)
出处 《农业工程学报》 EI CAS CSCD 北大核心 2020年第22期50-59,共10页 Transactions of the Chinese Society of Agricultural Engineering
基金 国家重点研发计划项目(2017YFE0122500) 国家自然科学基金资助项目(41871333)。
关键词 无人机 图像处理 模型 激光雷达 树冠信息 空间分辨率 UAV image processing models light detection and ranging crown information spatial resolution
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