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International Journal of Remote Sensing Volume 30, 2009 - Issue 1
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Original Articles

Prediction of forest canopy light interception using three‐dimensional airborne LiDAR data

H. Lee Department of Electrical and Computer Engineering, University of Florida, Gainesville, Florida 32611, USA
,
K. C. Slatton Department of Electrical and Computer Engineering, University of Florida, Gainesville, Florida 32611, USA; Department of Civil and Coastal Engineering, University of Florida, Gainesville, Florida 32611, USACorrespondence[email protected]
,
B. E. Roth School of Forest Resources and Conservation, University of Florida, Gainesville, Florida 32611, USA
&
W. P. Cropper School of Forest Resources and Conservation, University of Florida, Gainesville, Florida 32611, USA
Pages 189-207 | Received 02 Mar 2007, Accepted 17 Aug 2007, Published online: 02 Dec 2008

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Juncheng Shi, Cheng Wang, Jinliang Wang, Xiaohuan Xi, Xuebo Yang & Xue Ding. (2022) Study on the LAI and FPAR inversion of maize from airborne LiDAR and hyperspectral data. International Journal of Remote Sensing 43:13, pages 4793-4809.
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Juncheng Shi, Cheng Wang, Xiaohuan Xi, Xuebo Yang, Jinliang Wang & Xue Ding. (2020) Retrieving fPAR of maize canopy using artificial neural networks with airborne LiDAR and hyperspectral data. Remote Sensing Letters 11:11, pages 1002-1011.
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William C. Wright, Benjamin E. Wilkinson & Wendell P. Cropper$suffix/text()$suffix/text(). (2017) Estimating GPS Signal Loss in a Natural Deciduous Forest Using Sky Photography. Papers in Applied Geography 3:2, pages 119-128.
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Gurveek Singh Maan, Chander Kumar Singh, Mritunjay Kumar Singh & Balaji Nagarajan. (2015) Tree species biomass and carbon stock measurement using ground based-LiDAR. Geocarto International 30:3, pages 293-310.
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Articles from other publishers (30)

Haiming Qin, Weiqi Zhou & Wenhui Zhao. (2022) Airborne small-footprint full-waveform LiDAR data for urban land cover classification. Frontiers in Environmental Science 10.
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Vladimír Kubelka, Philippe Dandurand, Philippe Babin, Philippe Giguère & François Pomerleau. (2020) Radio propagation models for differential GNSS based on dense point clouds. Journal of Field Robotics 37:8, pages 1347-1362.
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Kuo Zeng, Guang Zheng, Lixia Ma, Weimin Ju & Yong Pang. (2019) Modelling Three-Dimensional Spatiotemporal Distributions of Forest Photosynthetically Active Radiation Using UAV-Based Lidar Data. Remote Sensing 11:23, pages 2806.
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Geoffrey G. Parker, David R. Fitzjarrald & Irene Cibelle Gonçalves Sampaio. (2019) Consequences of environmental heterogeneity for the photosynthetic light environment of a tropical forest. Agricultural and Forest Meteorology 278, pages 107661.
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Jeffrey J. Richardson, Christian E. Torgersen & L. Monika Moskal. (2019) Lidar-based approaches for estimating solar insolation in heavily forested streams. Hydrology and Earth System Sciences 23:7, pages 2813-2822.
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Haiming Qin, Cheng Wang, Kaiguang Zhao & Xiaohuan Xi. (2018) Estimation of the fraction of absorbed photosynthetically active radiation (fPAR) in maize canopies using LiDAR data and hyperspectral imagery. PLOS ONE 13:5, pages e0197510.
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Alex Olpenda, Krzysztof Stereńczak & Krzysztof Będkowski. (2018) Modeling Solar Radiation in the Forest Using Remote Sensing Data: A Review of Approaches and Opportunities. Remote Sensing 10:5, pages 694.
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William Wright, Benjamin Wilkinson & Wendell CropperJr.Jr.. (2018) Development of a GPS Forest Signal Absorption Coefficient Index. Forests 9:5, pages 226.
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J. W. Atkins, R. T. Fahey, B. S. Hardiman & C. M. Gough. (2018) Forest Canopy Structural Complexity and Light Absorption Relationships at the Subcontinental Scale. Journal of Geophysical Research: Biogeosciences 123:4, pages 1387-1405.
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Haiming Qin, Cheng Wang, Feifei Pan, Yi Lin, Xiaohuan Xi & Shezhou Luo. (2017) Estimation of FPAR and FPAR profile for maize canopies using airborne LiDAR. Ecological Indicators 83, pages 53-61.
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Blaise Tymen, Grégoire Vincent, Elodie A. Courtois, Julien Heurtebize, Jean Dauzat, Isabelle Marechaux & Jérôme Chave. (2017) Quantifying micro-environmental variation in tropical rainforest understory at landscape scale by combining airborne LiDAR scanning and a sensor network. Annals of Forest Science 74:2.
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Piotr Tompalski, Nicholas C. Coops, Joanne C. White, Michael A. Wulder & Anna Yuill. (2017) Characterizing streams and riparian areas with airborne laser scanning data. Remote Sensing of Environment 192, pages 73-86.
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William C. Wright, Benjamin E. Wilkinson & Wendell P. CropperJrJr. (2017) Estimating signal loss in pine forests using hemispherical sky oriented photos. Ecological Informatics 38, pages 82-88.
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Heezin Lee, Michael J. Starek, S. Bruce Blundell, Michael Schwind, Christopher Gard & Harry Puffenberger. (2016) Estimation of 2-D Clutter Maps in Complex Under-Canopy Environments From Airborne Discrete-Return Lidar. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 9:12, pages 5819-5829.
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Haruki Oshio & Takashi Asawa. (2016) Estimating the Solar Transmittance of Urban Trees Using Airborne LiDAR and Radiative Transfer Simulation. IEEE Transactions on Geoscience and Remote Sensing 54:9, pages 5483-5492.
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Shezhou Luo, Cheng Wang, Xiaohuan Xi, Hongcheng Zeng, Dong Li, Shaobo Xia & Pinghua Wang. (2015) Fusion of Airborne Discrete-Return LiDAR and Hyperspectral Data for Land Cover Classification. Remote Sensing 8:1, pages 3.
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A. A. Harpold, J. A. Marshall, S. W. Lyon, T. B. Barnhart, B. A. Fisher, M. Donovan, K. M. Brubaker, C. J. Crosby, N. F. Glenn, C. L. Glennie, P. B. Kirchner, N. Lam, K. D. Mankoff, J. L. McCreight, N. P. Molotch, K. N. Musselman, J. Pelletier, T. Russo, H. Sangireddy, Y. Sjöberg, T. Swetnam & N. West. (2015) Laser vision: lidar as a transformative tool to advance critical zone science. Hydrology and Earth System Sciences 19:6, pages 2881-2897.
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Shezhou Luo, Cheng Wang, Feifei Pan, Xiaohuan Xi, Guicai Li, Sheng Nie & Shaobo Xia. (2015) Estimation of wetland vegetation height and leaf area index using airborne laser scanning data. Ecological Indicators 48, pages 550-559.
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Collin A. Bode, Michael P. Limm, Mary E. Power & Jacques C. Finlay. (2014) Subcanopy Solar Radiation model: Predicting solar radiation across a heavily vegetated landscape using LiDAR and GIS solar radiation models. Remote Sensing of Environment 154, pages 387-397.
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Shouzhang Peng, Chuanyan Zhao & Zhonglin Xu. (2014) Modeling spatiotemporal patterns of understory light intensity using airborne laser scanner (LiDAR). ISPRS Journal of Photogrammetry and Remote Sensing 97, pages 195-203.
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Shezhou Luo, Cheng Wang, Xiaohuan Xi & Feifei Pan. (2014) Estimating FPAR of maize canopy using airborne discrete-return LiDAR data. Optics Express 22:5, pages 5106.
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C. A. Gonzalez-Benecke, Salvador A. Gezan, Lisa J. Samuelson, Wendell P. CropperJr.Jr., Daniel J. Leduc & Timothy A. Martin. (2014) Estimating Pinus palustris tree diameter and stem volume from tree height, crown area and stand-level parameters. Journal of Forestry Research 25:1, pages 43-52.
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Akira Kato, Hiroaki Ishii, Tsutomu Enoki, Akira Osawa, Tatsuaki Kobayashi, Kiyoshi Umeki, Takeshi Sasaki & Keigo Matsue. (2014) Application of Laser Remote Sensing to Forest Ecological Research. Journal of the Japanese Forest Society 96:3, pages 168-181.
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Sanna HärkönenTimo TokolaPetteri PackalénLauri KorhonenAnnikki Mäkelä. (2013) Predicting forest growth based on airborne light detection and ranging data, climate data, and a simplified process-based model. Canadian Journal of Forest Research 43:4, pages 364-375.
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Scott C. Stark, Veronika Leitold, Jin L. Wu, Maria O. Hunter, Carolina V. de Castilho, Flávia R. C. Costa, Sean M. McMahon, Geoffrey G. Parker, Mônica Takako Shimabukuro, Michael A. Lefsky, Michael Keller, Luciana F. Alves, Juliana Schietti, Yosio Edemir Shimabukuro, Diego O. Brandão, Tara K. Woodcock, Niro Higuchi, Plinio B. de Camargo, Raimundo C. de Oliveira & Scott R. Saleska. (2012) Amazon forest carbon dynamics predicted by profiles of canopy leaf area and light environment. Ecology Letters 15:12, pages 1406-1414.
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A. Varhola, G. W. Frazer, P. Teti & N. C. Coops. (2012) Estimation of forest structure metrics relevant to hydrologic modelling using coordinate transformation of airborne laser scanning data. Hydrology and Earth System Sciences 16:10, pages 3749-3766.
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Pang-Wei Liu, Heezin Lee, Jasmeet Judge, William C. Wright & K. Clint Slatton. (2011) Prediction of L-band signal attenuation in forests using 3D vegetation structure from airborne LiDAR. ISPRS Journal of Photogrammetry and Remote Sensing 66:5, pages 642-651.
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Andrew Thomas Hudak, Jeffrey Scott Evans & Alistair Matthew Stuart Smith. (2009) LiDAR Utility for Natural Resource Managers. Remote Sensing 1:4, pages 934-951.
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E. Louise Loudermilk, J. Kevin Hiers, Joseph J. O'Brien, Robert J. Mitchell, Abhinav Singhania, Juan C. Fernandez, Wendell P. Cropper & K. Clint Slatton. (2009) Ground-based LIDAR: a novel approach to quantify fine-scale fuelbed characteristics. International Journal of Wildland Fire 18:6, pages 676.
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W. C. Wright, P. W. Liu, K.C. Slatton, R. L. Shrestha, W.E. Carter & H. Lee. (2008) Predicting L-band Microwave Attenuation through Forest Canopy using Directional Structuring Elements and Airborne Lidar. Predicting L-band Microwave Attenuation through Forest Canopy using Directional Structuring Elements and Airborne Lidar.

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