Row sowing is a basic crop sowing method in China, and thus an accurate Bidirectional Reflectance Distribution Function (BRDF) model of row crops is the foundation for describing the canopy bidirectional reflectance characteristics and estimating crop ecological parameters. Because of the macroscopically geometric difference, the row crop is usually regarded as a transition between continuous and discrete vegetation in previous studies. Were row treated as the unit for calculating the four components in the Geometric Optical model (GO model), the formula would be too complex and difficult to retrieve. This study focuses on the microscopic structure of row crops. Regarding the row crop as a result of leaves clumped at canopy scale, we apply ...
This author designs the random process between photons and crop canopy. A Monte Carlo model has been...
The influence of plant and canopy architecture on canopy bidirectional reflectance and the bidirecti...
The objective of this research is to develop a 3-dimensional radiative transfer model for predicting...
An accurate and operational bidirectional reflectance distribution function (BDRF) canopy model is t...
The canopy bidirectional reflectance function (BRDF) characterizes the radiometric interface among v...
Rice and wheat are mainly planted in a row structure in China. Radiative transfer models have the po...
Row planted crop is the transitional crop type with the discrete structure and continuous structure....
Two Fagus sylvatica L. stands with different Leaf Area Index and similar planophile Leaf Angle Distr...
A computationally efficient reflectance model for row planted canopies is developed in this paper th...
Two Fagus sylvatica L. stands with different Leaf Area Index and similar planophile Leaf Angle Distr...
The general array model (GAR) is extended to calculate bidirectional reflectance (reflectance as a f...
Abstract—The geometric optical (GO) bidirectional reflectance model, combined with a new component s...
International audienceThe influence of plant and canopy architecture on canopy bidirectional reflect...
Inverting radiative transfer (R-T) models against remote sensing observations to retrieve key biogeo...
The Bidirectional Reflectance Distribution Function (BRDF) quantifies the distribution of the spectr...
This author designs the random process between photons and crop canopy. A Monte Carlo model has been...
The influence of plant and canopy architecture on canopy bidirectional reflectance and the bidirecti...
The objective of this research is to develop a 3-dimensional radiative transfer model for predicting...
An accurate and operational bidirectional reflectance distribution function (BDRF) canopy model is t...
The canopy bidirectional reflectance function (BRDF) characterizes the radiometric interface among v...
Rice and wheat are mainly planted in a row structure in China. Radiative transfer models have the po...
Row planted crop is the transitional crop type with the discrete structure and continuous structure....
Two Fagus sylvatica L. stands with different Leaf Area Index and similar planophile Leaf Angle Distr...
A computationally efficient reflectance model for row planted canopies is developed in this paper th...
Two Fagus sylvatica L. stands with different Leaf Area Index and similar planophile Leaf Angle Distr...
The general array model (GAR) is extended to calculate bidirectional reflectance (reflectance as a f...
Abstract—The geometric optical (GO) bidirectional reflectance model, combined with a new component s...
International audienceThe influence of plant and canopy architecture on canopy bidirectional reflect...
Inverting radiative transfer (R-T) models against remote sensing observations to retrieve key biogeo...
The Bidirectional Reflectance Distribution Function (BRDF) quantifies the distribution of the spectr...
This author designs the random process between photons and crop canopy. A Monte Carlo model has been...
The influence of plant and canopy architecture on canopy bidirectional reflectance and the bidirecti...
The objective of this research is to develop a 3-dimensional radiative transfer model for predicting...