Add to ORKGThis author designs the random process between photons and crop canopy. A Monte Carlo model has been developed to simulate the Bi-directional Reflectance Distribution Function (BRDF) of crop canopy. Comparing Monte Carlo model to MCRM model, this paper analyzes the variations of different LAD and LAI of these two models and gives the reasonable explanation. It can be concluded that although there are some differences in BRDF value, the BRDF change trend with varying LAD and LAI reaches a good agreement. In the end using field measured BRDF data to validate Monte Carlo model, the results show that the simulated BRDF with Monte Carlo model is in good accordance to the field data. Therefore, Monte Carlo model can provide the effective validati...
A computationally efficient reflectance model for row planted canopies is developed in this paper th...
Radiative transfer modeling of the bidirectional reflectance distribution function (BRDF) of leaf ca...
Understanding the physical processes that affect electromagnetic waves within forests is a key to be...
This author designs the random process between photons and crop canopy. A Monte Carlo model has been...
Monte Carlo method is a random statistic method, which has been widely used to simulate the Bidirect...
Row crop is an important cultivation form in China. It is considered to be a transitional canopy str...
An accurate and operational bidirectional reflectance distribution function (BDRF) canopy model is t...
International audienceThe influence of plant and canopy architecture on canopy bidirectional reflect...
The canopy bidirectional reflectance function (BRDF) characterizes the radiometric interface among v...
The influence of plant and canopy architecture on canopy bidirectional reflectance and the bidirecti...
Inverting radiative transfer (R-T) models against remote sensing observations to retrieve key biogeo...
Row sowing is a basic crop sowing method in China, and thus an accurate Bidirectional Reflectance Di...
Two Fagus sylvatica L. stands with different Leaf Area Index and similar planophile Leaf Angle Distr...
International audienceVector radiative transfer (VRT) has been largely used to simulate polarized re...
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...
Radiative transfer modeling of the bidirectional reflectance distribution function (BRDF) of leaf ca...
Understanding the physical processes that affect electromagnetic waves within forests is a key to be...
This author designs the random process between photons and crop canopy. A Monte Carlo model has been...
Monte Carlo method is a random statistic method, which has been widely used to simulate the Bidirect...
Row crop is an important cultivation form in China. It is considered to be a transitional canopy str...
An accurate and operational bidirectional reflectance distribution function (BDRF) canopy model is t...
International audienceThe influence of plant and canopy architecture on canopy bidirectional reflect...
The canopy bidirectional reflectance function (BRDF) characterizes the radiometric interface among v...
The influence of plant and canopy architecture on canopy bidirectional reflectance and the bidirecti...
Inverting radiative transfer (R-T) models against remote sensing observations to retrieve key biogeo...
Row sowing is a basic crop sowing method in China, and thus an accurate Bidirectional Reflectance Di...
Two Fagus sylvatica L. stands with different Leaf Area Index and similar planophile Leaf Angle Distr...
International audienceVector radiative transfer (VRT) has been largely used to simulate polarized re...
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...
Radiative transfer modeling of the bidirectional reflectance distribution function (BRDF) of leaf ca...
Understanding the physical processes that affect electromagnetic waves within forests is a key to be...