• Aucun résultat trouvé

Calibration of topological development in the procedure of parametric identification: application to the stochastic GreenLab model for Pinus Sylvestris var. Mongolica

N/A
N/A
Protected

Academic year: 2021

Partager "Calibration of topological development in the procedure of parametric identification: application to the stochastic GreenLab model for Pinus Sylvestris var. Mongolica"

Copied!
10
0
0

Texte intégral

Loading

Figure

Fig. 2 shows the mean and variance of number of  the GUs of trunk and branches of different order
Table 1 The description and values of the main parameters used in GL2 model for Mongolian Scots pine  trees
Fig. 4 Fitting results of single internodes length  and diameter of trunk and different order  branches of a 6-year-old Mongolian Scots pine  tree

Références

Documents relatifs

- Alternatively, the CF7575 sealing glass may be replaced with another Pb- and (or) Bi-based composites of smaller grain particles. b) Properties of NBT ceramics can be

Four main modeling approaches can be found in current models: (i) models involving empirically determined allocation coefficients; (ii) models based on growth rules,

In the resulting theoretical account of stochasticity, still a “regularity” in the sense of physics can be found (by means of the average over an hypothetical ensemble) while an

It explores the ratio of the fresh weight of leaf and internode with experimental data, estimates the model parameters by model inversion, constructs the simplified

In this first promising numerical attempt, two GreenLab parameters were considered in order to maximize wood production: the sink strength for cambial growth and a coefficient

This preliminary study shows that a functional-structural growth model based on a simplified description of tree structure can mimic the morphological

In this paper, we show how to couple soil water dynamic to the GreenLab model as it is applied to Mongolian Scots pine. The resulting model considers 3D architecture, plant biomass

In this paper, we show how to couple soil water dynamic to the GreenLab model as it is applied to Mongolian Scots pine. The resulting model considers 3D architecture, plant biomass