Two decades of functional–structural plant modelling: now addressing fundamental questions in systems biology and predictive ecology
Background Functional–structural plant models (FSPMs) explore and integrate relationships
between a plant's structure and processes that underlie its growth and development. In the …
between a plant's structure and processes that underlie its growth and development. In the …
Functional–structural plant models mission in advancing crop science: opportunities and prospects
Functional–structural plant models (FSPMs) have been evolving for over 2 decades and
their future development, to some extent, depends on the value of potential applications in …
their future development, to some extent, depends on the value of potential applications in …
Towards the maximization of energy performance of an energy-saving Chinese solar greenhouse: A systematic analysis of common greenhouse shapes
Y Zhang, M Henke, Y Li, D Xu, A Liu, X Liu, T Li - Solar Energy, 2022 - Elsevier
Determining the optimal shape for greenhouses that is suitable for cold northern regions is
essential for non-seasonal fruit production. In the present study, a structural model was …
essential for non-seasonal fruit production. In the present study, a structural model was …
[HTML][HTML] A 3D functional plant modelling framework for agricultural digital twins
Digital twins are a core industry 4.0 technology enabling the virtual replication of real-world
objects, mimicking behaviours and states throughout their lifespan. While digital twins have …
objects, mimicking behaviours and states throughout their lifespan. While digital twins have …
High resolution 3D simulation of light climate and thermal performance of a solar greenhouse model under tomato canopy structure
Y Zhang, M Henke, Y Li, X Yue, D Xu, X Liu, T Li - Renewable energy, 2020 - Elsevier
The crop canopy structure has a significant impact on greenhouse microclimate, in return,
the intercepted solar radiation and thermal properties of the plant canopy under greenhouse …
the intercepted solar radiation and thermal properties of the plant canopy under greenhouse …
Two decades of research with the GreenLab model in agronomy
Background With up to 200 published contributions, the GreenLab mathematical model of
plant growth, developed since 2000 under Sino-French co-operation for agronomic …
plant growth, developed since 2000 under Sino-French co-operation for agronomic …
Helios: A scalable 3D plant and environmental biophysical modeling framework
BN Bailey - Frontiers in Plant Science, 2019 - frontiersin.org
This article presents an overview of Helios, a new three-dimensional (3D) plant and
environmental modeling framework. Helios is a model coupling framework designed to …
environmental modeling framework. Helios is a model coupling framework designed to …
A three-dimensional canopy photosynthesis model in rice with a complete description of the canopy architecture, leaf physiology, and mechanical properties
In current rice breeding programs, morphological parameters such as plant height, leaf
length and width, leaf angle, panicle architecture, and tiller number during the grain filling …
length and width, leaf angle, panicle architecture, and tiller number during the grain filling …
Estimating canopy leaf physiology of tomato plants grown in a solar greenhouse: Evidence from simulations of light and thermal microclimate using a Functional …
In order to determine the effects of leaf temperature, gas exchange, and photosynthesis on
plant growth and productivity under greenhouse conditions, predictions at a high spatial and …
plant growth and productivity under greenhouse conditions, predictions at a high spatial and …
Three-dimensional simulation of light spectrum and intensity within an LED growth chamber
An increased knowledge of different light spectrum on plant structure and physiology is
required for improving horticulture production and energy efficiency. This implies a high …
required for improving horticulture production and energy efficiency. This implies a high …