This paper presents the Growth-Flow method for animating the effect of wind on the motion and growth of virtual plant branches and leaves. The method incorporates changes to the growth rate when a plant is exposed to winds with speeds higher than a threshold. In particular, growth rate is reduced in branch elongation, increased in the branch radius, reduced in leaf length, and increased in leaf thickness. In addition, when a plant is exposed to wind for long time periods, the branch growth angle is changed to align more closely with the wind vector. The Growth-Flow method incorporates all these effects on growth and motion due to wind in one algorithm
We present a novel method for combining developmental tree models with turbulent wind fields. The tr...
International audienceThis review surveys the large variety of mechanical interactions between wind ...
Iris R. Wang*, Justin W. L. Wan and Gladimir V. G. Baranoski A mathematical model is presented to si...
Vegetation is present all around us and we are accustomed to see trees and other plants everyday. It...
In this paper, we propose a simple method to animate vegetation in images. The proposed method enabl...
International audiencePlants exhibit plasticity in response to various external conditions, characte...
Real-time simulation of natural phenomena is an area of interest for many groups, including computer...
Real-time animation of vegetation (a field of plants), e.g., grass, shrubs, and trees, has many appl...
This paper deals with visual models of plants. A new method for fast determination of growth direct...
International audiencePlant motion due to wind affects plant growth, a phenomenon called thigmomorph...
In this paper, we propose a 2D approach for real-time animation of vegetation in 3D scenes, especial...
In this paper, we propose a particle-based simulation method to create the animations of swaying and...
In this paper, we propose a particle-based simulation method to create the animations of swaying and...
The wind-induced motion of the foliage in a tree is an important phenomenon both for biological issu...
Physical perturbation of a plant canopy brought about by wind is a ubiquitous phenomenon and yet its...
We present a novel method for combining developmental tree models with turbulent wind fields. The tr...
International audienceThis review surveys the large variety of mechanical interactions between wind ...
Iris R. Wang*, Justin W. L. Wan and Gladimir V. G. Baranoski A mathematical model is presented to si...
Vegetation is present all around us and we are accustomed to see trees and other plants everyday. It...
In this paper, we propose a simple method to animate vegetation in images. The proposed method enabl...
International audiencePlants exhibit plasticity in response to various external conditions, characte...
Real-time simulation of natural phenomena is an area of interest for many groups, including computer...
Real-time animation of vegetation (a field of plants), e.g., grass, shrubs, and trees, has many appl...
This paper deals with visual models of plants. A new method for fast determination of growth direct...
International audiencePlant motion due to wind affects plant growth, a phenomenon called thigmomorph...
In this paper, we propose a 2D approach for real-time animation of vegetation in 3D scenes, especial...
In this paper, we propose a particle-based simulation method to create the animations of swaying and...
In this paper, we propose a particle-based simulation method to create the animations of swaying and...
The wind-induced motion of the foliage in a tree is an important phenomenon both for biological issu...
Physical perturbation of a plant canopy brought about by wind is a ubiquitous phenomenon and yet its...
We present a novel method for combining developmental tree models with turbulent wind fields. The tr...
International audienceThis review surveys the large variety of mechanical interactions between wind ...
Iris R. Wang*, Justin W. L. Wan and Gladimir V. G. Baranoski A mathematical model is presented to si...