original ) (raw )Studying canopy structure through 3-D reconstruction of point clouds from full-waveform terrestrial lidar
David Jupp
2013 IEEE International Geoscience and Remote Sensing Symposium - IGARSS, 2013
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Improved methods for measuring forest landscape structure: LiDAR complements field-based habitat assessment
Kurt Bollmann
Biodiversity and Conservation, 2013
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Accuracy of small footprint airborne LiDAR in its predictions of tropical moist forest stand structure
raphael pelissier , Jean-François Molino
Remote Sensing of Environment, 2012
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Estimation of standing wood volume in forest compartments by exploiting airborne laser scanning information: model-based, design-based, and hybrid perspectives
Gianfranco Scrinzi , Piermaria Corona
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Comparison of 3D Point Clouds Obtained by Terrestrial Laser Scanning and Personal Laser Scanning on Forest Inventory Sample Plots
Christoph Gollob
Data, 2020
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Using Leaf-off LiDAR in Modeling Forest Canopy Structure and Assessing the Effect of Spatial Resolution in Landscape Analyses
Jason Parent
2014
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Assessing the structural differences between tropical forest types using Terrestrial Laser Scanning
Kalkidan Mulatu
Forest Ecology and Management, 2018
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Investigating the capacity of dense point cloud photogrammetry to map low rise buildings
Ferenc Acs
2014
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Deciphering the Precision of Stereo IKONOS Canopy Height Models for US Forests with G-LiHT Airborne LiDAR
Christopher Neigh
Remote Sensing, 2014
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Data collection methods for forest inventory: a comparison between an integrated conventional equipment and terrestrial laser scanning
Ovidiu Badea
Annals of Forest Research, 2018
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Airborne Laser Scanning Outperforms the Alternative 3D Techniques in Capturing Variation in Tree Height and Forest Density in Southern Boreal Forests
Samuli Junttila
Baltic Forestry, 2018
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Quality assurance and quality control procedures of airborne scanning LiDAR for a nation-wide carbon inventory of planted forests
David Loubser
Proceedings of …, 2008
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Inventory of Close-to-Nature Forests Based on the Combination of Airborne LiDAR Data and Aerial Multispectral Images Using a Single-Tree Approach
Tomáš Bucha
Forests
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3D Point clouds for forestry applications
Markus Hollaus
2015
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A multi-sensor lidar, multi-spectral and multi-angular approach for mapping canopy height in boreal forest regions
Bruce Wylie
Remote Sensing of Environment, 2012
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Analysing the potential of UAV point cloud as input in quantitative structure modelling for assessment of woody biomass of single trees
Panagiotis Nyktas
International Journal of Applied Earth Observation and Geoinformation, 2019
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Article Analysis of the Influence of Plot Size and LiDAR Density on Forest Structure Attribute Estimates
Miguel Godino
2014
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3D point cloud data to quantitatively characterize size and shape of shrub crops
Hamid Ashrafi
Horticulture Research, 2019
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Retrieval of forest structural parameters using a ground-based lidar instrument (Echidna ® )
David Jupp
Canadian Journal of Remote Sensing, 2008
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The Utility of Image-Based Point Clouds for Forest Inventory: A Comparison with Airborne Laser Scanning
Murray Woods
Forests, 2013
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Airborne laser scanning and usefulness for hydrological models
Markus Hollaus
Advances in Geosciences, 2005
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Measuring effective leaf area index, foliage profile, and stand height in New England forest stands using a full-waveform ground-based lidar
Wenge Ni-Meister
2011
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Application of LiDAR data to maximise the efficiency of inventory plots in softwood plantations
Christine Stone
New Zealand Journal of Forestry Science, 2015
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Terrestrial laser scanning versus traditional forest inventory: First results from the Polish forests
Piotr Wezyk
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Uav-Based Photogrammetric Point Clouds – Tree Stem Mapping in Open Stands in Comparison to Terrestrial Laser Scanner Point Clouds
Teja Kattenborn
The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 2013
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