Estimating tree heights and number of stems in young forest stands using airborne laser scanner data
暂无分享,去创建一个
[1] A. Goldberger. The Interpretation and Estimation of Cobb-Douglas Functions , 1968 .
[2] H. Braastad,et al. Growth model computer program for Pinus sylvestris. , 1980 .
[3] T. Hassard,et al. Applied Linear Regression , 2005 .
[4] Ross Nelson,et al. Estimating forest biomass and volume using airborne laser data , 1988 .
[5] M. Nilsson. Estimation of tree heights and stand volume using an airborne lidar system , 1996 .
[6] Determination of number of stems in coniferous forest stands by means of aerial photo‐interpretation , 1996 .
[7] E. Næsset. Determination of mean tree height of forest stands using airborne laser scanner data , 1997 .
[8] E. Næsset. Estimating timber volume of forest stands using airborne laser scanner data , 1997 .
[9] R. G. Oderwald,et al. Separating the ground and airborne laser sampling phases to estimate tropical forest basal area, volume, and biomass , 1997 .
[10] R. Nelson. Modeling forest canopy heights: The effects of canopy shape , 1997 .
[11] K. Kraus,et al. Determination of terrain models in wooded areas with airborne laser scanner data , 1998 .
[12] S. Magnussen,et al. Derivations of stand heights from airborne laser scanner data with canopy-based quantile estimators , 1998 .
[13] J. Blair,et al. Modeling laser altimeter return waveforms over complex vegetation using high‐resolution elevation data , 1999 .
[14] J. Means. Use of Large-Footprint Scanning Airborne Lidar To Estimate Forest Stand Characteristics in the Western Cascades of Oregon , 1999 .
[15] G. Edwards,et al. Automated estimation of localized forest volume from large-scale aerial photographs and ancillary cartographic information in a boreal forest , 1999 .
[16] E. Næsset. Point accuracy of combined pseudorange and carrier phase differential GPS under forest canopy , 1999 .
[17] Steen Magnussen,et al. Recovering Tree Heights from Airborne Laser Scanner Data , 1999, Forest Science.
[18] W. Cohen,et al. Surface lidar remote sensing of basal area and biomass in deciduous forests of eastern Maryland, USA , 1999 .
[19] W. Cohen,et al. Lidar Remote Sensing of the Canopy Structure and Biophysical Properties of Douglas-Fir Western Hemlock Forests , 1999 .
[20] Emmanuel P. Baltsavias,et al. Airborne laser scanning: existing systems and firms and other resources , 1999 .
[21] Assessing the Effect of Erroneous Placement of Forest Stand Boundaries on the Estimated Area of Individual Stands , 1999 .
[22] Erik Næset. Effects of Delineation Errors in Forest Stand Boundaries on Estimated Area and Timber Volumes , 1999 .
[23] J. Means,et al. Predicting forest stand characteristics with airborne scanning lidar , 2000 .
[24] R. Dubayah,et al. Lidar Remote Sensing for Forestry , 2000, Journal of Forestry.
[25] E. Næsset,et al. Contributions of differential GPS and GLONASS observations to point accuracy under forest canopies , 2000 .
[26] John F. Weishampel,et al. Volumetric lidar return patterns from an old-growth tropical rainforest canopy , 2000 .
[27] E. Næsset. Effects of Differential Single- and Dual-Frequency GPS and GLONASS Observations on Point Accuracy under Forest Canopies , 2001 .