Add to ORKGThe overall objective of this research was to develop a hardware implemented model that would incorporate realistic and dynamic descriptions of canopy architecture in physiologically based models of plant growth and functioning, with an emphasis on radiative transfer while accommodating other environmental constraints. The general approach has five parts: a realistic mathematical treatment of canopy architecture, a methodology for combining this general canopy architectural description with a general radiative transfer model, the inclusion of physiological and environmental aspects of plant growth, inclusion of plant phenology, and integration
The role of the mathematical model is to relate the individual processes to environmental conditions...
A dynamic 3D maize canopy architecture model is proposed for radiative transfer computation required...
A 3-dimensional model of sunflower plant is built, which allows simulating the plant-environment rel...
Radiative transfers modelling is restrained mainly by the difficulty of characterizing the canopy st...
An effort was made to begin defining the scientific and technical requirements for the design and co...
Light microclimate determines many aspects of plant growth. Introducing the light-vegetation interac...
Software modules have been developed to predict the radiative environment of plant stands consisting...
Sunflower plant leaf area is very variable, even without any abiotic stress. We propose a structural...
The use of higher plants in a closed ecological life support system for long duration space missions...
Addressing the impact of vegetation architecture on the treatment of shortwave radiation in land su...
International audienceLight microclimate determines many aspects of plant growth. Introducing the li...
Modelling plant structure and growth has undergone major changes in the last decades along two major...
We present a new model for plant growth simulation, taking into account the eco-physiological proces...
The SOLGEM model is a numerical engineering model which solves the flow and energy balance equations...
ARCHIMED software has been used to estimate the radiative environment of plant stands constituted by...
The role of the mathematical model is to relate the individual processes to environmental conditions...
A dynamic 3D maize canopy architecture model is proposed for radiative transfer computation required...
A 3-dimensional model of sunflower plant is built, which allows simulating the plant-environment rel...
Radiative transfers modelling is restrained mainly by the difficulty of characterizing the canopy st...
An effort was made to begin defining the scientific and technical requirements for the design and co...
Light microclimate determines many aspects of plant growth. Introducing the light-vegetation interac...
Software modules have been developed to predict the radiative environment of plant stands consisting...
Sunflower plant leaf area is very variable, even without any abiotic stress. We propose a structural...
The use of higher plants in a closed ecological life support system for long duration space missions...
Addressing the impact of vegetation architecture on the treatment of shortwave radiation in land su...
International audienceLight microclimate determines many aspects of plant growth. Introducing the li...
Modelling plant structure and growth has undergone major changes in the last decades along two major...
We present a new model for plant growth simulation, taking into account the eco-physiological proces...
The SOLGEM model is a numerical engineering model which solves the flow and energy balance equations...
ARCHIMED software has been used to estimate the radiative environment of plant stands constituted by...
The role of the mathematical model is to relate the individual processes to environmental conditions...
A dynamic 3D maize canopy architecture model is proposed for radiative transfer computation required...
A 3-dimensional model of sunflower plant is built, which allows simulating the plant-environment rel...