A canopy reflectance model based on an analytical solution to the multiple scattering equation
- 1 December 1987
- journal article
- research article
- Published by Elsevier in Remote Sensing of Environment
- Vol. 23 (3), 453-477
- https://doi.org/10.1016/0034-4257(87)90101-5
Abstract
No abstract availableThis publication has 19 references indexed in Scilit:
- Coupled atmosphere/canopy model for remote sensing of plant reflectance featuresApplied Optics, 1985
- Inversion of vegetation canopy reflectance models for estimating agronomic variables. V. Estimation of leaf area index and average leaf angle using measured canopy reflectancesRemote Sensing of Environment, 1984
- Inversion of vegetation canopy reflectance models for estimating agronomic variables. IV. Total inversion of the SAIL modelRemote Sensing of Environment, 1984
- Inversion of vegetation canopy reflectance models for estimating agronomic variables. III. Estimation using only canopy reflectance data as illustrated by the suits modelRemote Sensing of Environment, 1984
- Inversion of vegetation canopy reflectance models for estimating agronomic variables. II. Use of angle transforms and error analysis as illustrated by suits' modelRemote Sensing of Environment, 1984
- Inversion of vegetation canopy reflectance models for estimating agronomic variables. I. Problem definition and initial results using the suits modelRemote Sensing of Environment, 1983
- Dynamics of directional reflectance factor distributions for vegetation canopiesApplied Optics, 1983
- Land Surface Processes and Climate—Surface Albedos and Energy BalancePublished by Elsevier ,1983
- Plant-Canopy Irradiance Specified by the Duntley EquationsJournal of the Optical Society of America, 1970
- A Comparison of Several Current Optimization Methods, and the use of Transformations in Constrained ProblemsThe Computer Journal, 1966