Estimating biomass of individual pine trees using airborne lidar
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[1] T. J. Dean,et al. Estimating individual tree leaf area in loblolly pine plantations using LiDAR-derived measurements of height and crown dimensions , 2005 .
[2] I. Burke,et al. Estimating stand structure using discrete-return lidar: an example from low density, fire prone ponderosa pine forests , 2005 .
[3] E. Næsset,et al. Laser scanning of forest resources: the nordic experience , 2004 .
[4] Randolph H. Wynne,et al. Fusion of Small-Footprint Lidar and Multispectral Data to Estimate Plot- Level Volume and Biomass in Deciduous and Pine Forests in Virginia, USA , 2004, Forest Science.
[5] S. Popescu,et al. Seeing the Trees in the Forest: Using Lidar and Multispectral Data Fusion with Local Filtering and Variable Window Size for Estimating Tree Height , 2004 .
[6] S. Popescu,et al. Measuring individual tree crown diameter with lidar and assessing its influence on estimating forest volume and biomass , 2003 .
[7] J. Holmgren,et al. Estimation of Tree Height and Stem Volume on Plots Using Airborne Laser Scanning , 2003, Forest Science.
[8] S. Roberts,et al. Influence of Fusing Lidar and Multispectral Imagery on Remotely Sensed Estimates of Stand Density and Mean Tree Height in a Managed Loblolly Pine Plantation , 2003, Forest Science.
[9] R. Birdsey,et al. National-Scale Biomass Estimators for United States Tree Species , 2003, Forest Science.
[10] Randolph H. Wynne,et al. Estimating plot-level tree heights with lidar : local filtering with a canopy-height based variable window size , 2002 .
[11] E. Næsset,et al. Estimating tree heights and number of stems in young forest stands using airborne laser scanner data , 2001 .
[12] F. J. Pierce,et al. Contemporary Statistical Models for the Plant and Soil Sciences , 2001 .
[13] Gregory S. Biging,et al. Modeling conifer tree crown radius and estimating canopy cover , 2000 .
[14] J. Blair,et al. The Laser Vegetation Imaging Sensor: a medium-altitude, digitisation-only, airborne laser altimeter for mapping vegetation and topography , 1999 .
[15] J. Means. Use of Large-Footprint Scanning Airborne Lidar To Estimate Forest Stand Characteristics in the Western Cascades of Oregon , 1999 .
[16] W. Cohen,et al. Lidar remote sensing of forest canopy structure and related biophysical parameters at H.J. Andrews Experimental Forest, Oregon, USA , 1998, IGARSS '98. Sensing and Managing the Environment. 1998 IEEE International Geoscience and Remote Sensing. Symposium Proceedings. (Cat. No.98CH36174).
[17] S. Magnussen,et al. Derivations of stand heights from airborne laser scanner data with canopy-based quantile estimators , 1998 .
[18] L. Pedroni. Forest ecosystems, forest management and the global carbon cycle , 1997 .
[19] R. Birdsey,et al. Biomass Estimation for Temperate Broadleaf Forests of the United States Using Inventory Data , 1997, Forest Science.
[20] E. Næsset. Estimating timber volume of forest stands using airborne laser scanner data , 1997 .
[21] David J. Harding,et al. Analysis of laser altimeter waveforms for forested ecosystems of Central Florida , 1997, Defense, Security, and Sensing.
[22] R. G. Oderwald,et al. Separating the ground and airborne laser sampling phases to estimate tropical forest basal area, volume, and biomass , 1997 .
[23] E. Næsset. Determination of mean tree height of forest stands using airborne laser scanner data , 1997 .
[24] David J. Harding,et al. Laser altimetry waveform measurement of vegetation canopy structure , 1994, Proceedings of IGARSS '94 - 1994 IEEE International Geoscience and Remote Sensing Symposium.
[25] R. Birdsey,et al. Impacts of alternative forest management policies on carbon sequestration on U. S. timberlands , 1993 .
[26] John S. Kush,et al. Crown and basal area relationships of open-grown southern pines for modeling competition and growth , 1992 .
[27] Harold E. Burkhart,et al. An Evaluation of Sampling Methods and Model Forms for Estimating Height-Diameter Relationships in Loblolly Pine Plantations , 1992, Forest Science.
[28] W. Krabill,et al. Using airborne lasers to estimate forest canopy and stand characteristics. , 1988 .
[29] Ross Nelson,et al. Estimating forest biomass and volume using airborne laser data , 1988 .
[30] Harold E. Burkhart,et al. Relationships between tree crown, stem, and stand characteristics in unthinned loblolly pine plantations , 1987 .
[31] W. Krabill,et al. Gross-merchantable timber volume estimation using an airborne lidar system , 1986 .
[32] R. Nelson,et al. Determining forest canopy characteristics using airborne laser data , 1984 .
[33] Åsa Persson,et al. Detecting and measuring individual trees using an airborne laser scanner , 2002 .
[34] E. Næsset,et al. Estimating tree height and tree crown properties using airborne scanning laser in a boreal nature reserve , 2002 .
[35] W. Cohen,et al. Surface lidar remote sensing of basal area and biomass in deciduous forests of eastern Maryland, USA , 1999 .
[36] Steen Magnussen,et al. Recovering Tree Heights from Airborne Laser Scanner Data , 1999, Forest Science.
[37] R. Birdsey,et al. Carbon pools and flux in U.S. forest products , 1996 .
[38] E. Green. Models of stand basal area distributions, individual tree basal area growth, and height-diameter relationships for loblolly pine , 1981 .
[39] ARTICLE IN PRESS , 2022 .