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COMPARISON OF THE INVERSION ABILITY IN EXTRAPOLATING FOREST CANOPY HEIGHT BY INTEGRATION OF LIDAR DATA AND DIFFERENT OPTICAL REMOTE SENSING PRODUCTS

机译：利用LIDAR数据与不同光遥感产品集成外推森林冠层高度的反转能力的比较

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Forest canopy height is an important variable to the modeling of energy over regional and global scales. This paper first examined the relationship between field-surveyed canopy height and LiDAR-derived canopy height, regression between them had an RMSE and R~2 value of 0.94 m and 0.64. To extrapolate the LiDAR height to a continuous area, we compared the ability of four sources of optical remote sensing data (MODIS BRFs, MODIS NBAR, MISR and SPOT data) in predicting the LiDAR measured canopy height. Multivariate linear regression and single variable nonlinear regression models were developed, and the best model accurately predicted the LiDAR height using MODIS BRFs data (RMSE = 1.2 m, R~2 = 0.67). This model was applied to the whole study area and finally the canopy height map of the study area was generated.

机译：森林冠层高度是区域和全球范围内能源建模的重要变量。本文首先检查了现场测量的冠层高度和激光雷达衍生的冠层高度之间的关系，它们之间的回归具有RMSE和R〜2值0.94 m和0.64。为了将激光雷达高度推断到连续区域，我们将四种光学遥感数据（MODIS BRFS，MODIS NAR，MISR和SPOR和SPAR数据）的能力进行了比较预测LIDAR测量的冠层高度。开发了多变量线性回归和单变非线性回归模型，最佳模型准确地预测了使用MODIS BRFS数据（RMSE = 1.2M，R〜2 = 0.67）的激光雷达高度。该模型应用于整个研究区域，最后产生了研究区域的冠层高度图。

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《IEEE International Geoscience and Remote Sensing Symposium》|2012年||共4页
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作者
Han Ma; Jinling Song; Jindi Wang; Hua Yang;
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中图分类 P3-53;
关键词
Forest canopy height; LiDAR; MODIS; MISR; SPOT;

机译：森林冠层高度;lidar;modis;misr;点;
入库时间 2022-08-21 08:52:06

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1. Model-Based Estimation of Forest Canopy Height and Biomass in the Canadian Boreal Forest Using Radar, LiDAR, and Optical Remote Sensing [J] . Benson Michael L., Pierce Leland, Bergen Kathleen, IEEE Transactions on Geoscience and Remote Sensing . 2021,第6期

机译：雷达，激光雷达和光学遥感加拿大北方森林森林冠层高度与生物量的模型估算
2. Retrieval of forest canopy attributes based on a geometric-optical model using airborne LiDAR and optical remote-sensing data [J] . CHUNXIANG CAO, YUNFEI BAO, MIN XU, International journal of remote sensing . 2012,第3期

机译：使用机载LiDAR和光学遥感数据的基于几何光学模型的森林冠层属性检索
3. Statistical fusion of lidar, InSAR, and optical remote sensing data for forest stand height characterization: A regional-scale method based on LVIS, SRTM, Landsat ETM+, and ancillary data sets [J] . Kellndorfer J. M., Walker W. S., LaPoint E., Journal of Geophysical Research. Biogeosciences . 2011,第G2期

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4. COMPARISON OF THE INVERSION ABILITY IN EXTRAPOLATING FOREST CANOPY HEIGHT BY INTEGRATION OF LIDAR DATA AND DIFFERENT OPTICAL REMOTE SENSING PRODUCTS [C] . Han Ma, Jinling Song, Jindi Wang, IEEE International Geoscience and Remote Sensing Symposium . 2012

机译：利用LIDAR数据与不同光遥感产品集成外推森林冠层高度的反转能力的比较
5. Remote detection of forest structure in the White Mountains of New Hampshire: An integration of waveform lidar and hyperspectral remote sensing data. [D] . Anderson, Jeanne Elizabeth. 2006

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6. Assessing and Correcting Topographic Effects on Forest Canopy Height Retrieval Using Airborne LiDAR Data [O] . Zhugeng Duan, Dan Zhao, Yuan Zeng, 2015

机译：使用机载LiDAR数据评估和校正地形对森林冠层高度反演的影响
7. Statistical fusion of lidar, InSAR, and optical remote sensing data for forest stand height characterization: A regional-scale method based on LVIS, SRTM, Landsat ETM+, and ancillary data sets [O] . J. M. Kellndorfer, W. S. Walker, E. LaPoint, 2010

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8. Correlation Between Aircraft MSS and LIDAR Remotely Sensed Data on a Forested Wetland in South Carolina [R] . Jensen, J. R. , Hodgson, M. E. , Mackey, H. E. , 1987

机译：南卡罗来纳州森林湿地飞机mss与LIDaR遥感数据的相关性

COMPARISON OF THE INVERSION ABILITY IN EXTRAPOLATING FOREST CANOPY HEIGHT BY INTEGRATION OF LIDAR DATA AND DIFFERENT OPTICAL REMOTE SENSING PRODUCTS

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