Plant petioles and stems are hierarchical cellular structures, displaying structural features defined at multiple length scales. One or more of the intermediate hierarchical levels consists of tissues, in which the cellular distribution is quasirandom. The current work focuses on the realistic modeling of plant tissue microstructures. The finite-edge centroidal Voronoi tessellation (FECVT) is here introduced to overcome the drawbacks of the semi-infinite edges of a typical Voronoi model. FECVT can generate a realistic model of a tissue microstructure, which might have finite edges at its border, be defined by a boundary contour of any shape, and include complex heterogeneity and cellular gradients. The centroid-based Voronoi tessellation is...
Fruit tissues are very heterogeneous at the microscale and the cellular architecture determines to a...
International audienceDeformable cell model is developed to study pattern formation and to simulate ...
New tools are required to address the challenge of relating plant hormone levels, hormone responses,...
<p>A cell growth algorithm for virtual leaf tissue generation is presented based on the biomechanics...
A cell growth algorithm for virtual leaf tissue generation is presented based on the biomechanics of...
Plant petioles and stems are hierarchical cellular structures, displaying structuralfeatures defined...
International audienceThe goal of this paper is the reconstruction of topo-logically accurate 3-dime...
The shoot apical meristem (SAM) is a dome-shaped collection of cells at the apex of growing plants f...
Plant petioles and stems are hierarchical cellular structures, displaying geometrical features defin...
Abstract(#br)The accurate reconstruction model of plant microstructure is important for obtaining th...
The need for quantification of cell growth patterns in a multilayer, multi-cellular tissue necessita...
The need for quantification of cell growth patterns in a multilayer, multi-cellular tissue necessita...
The need for quantification of cell growth patterns in a multilayer, multi-cellular tissue necessita...
<div><p>The need for quantification of cell growth patterns in a multilayer, multi-cellular tissue n...
Fruit tissues are very heterogeneous at the microscale and the cellular architecture determines to a...
International audienceDeformable cell model is developed to study pattern formation and to simulate ...
New tools are required to address the challenge of relating plant hormone levels, hormone responses,...
<p>A cell growth algorithm for virtual leaf tissue generation is presented based on the biomechanics...
A cell growth algorithm for virtual leaf tissue generation is presented based on the biomechanics of...
Plant petioles and stems are hierarchical cellular structures, displaying structuralfeatures defined...
International audienceThe goal of this paper is the reconstruction of topo-logically accurate 3-dime...
The shoot apical meristem (SAM) is a dome-shaped collection of cells at the apex of growing plants f...
Plant petioles and stems are hierarchical cellular structures, displaying geometrical features defin...
Abstract(#br)The accurate reconstruction model of plant microstructure is important for obtaining th...
The need for quantification of cell growth patterns in a multilayer, multi-cellular tissue necessita...
The need for quantification of cell growth patterns in a multilayer, multi-cellular tissue necessita...
The need for quantification of cell growth patterns in a multilayer, multi-cellular tissue necessita...
<div><p>The need for quantification of cell growth patterns in a multilayer, multi-cellular tissue n...
Fruit tissues are very heterogeneous at the microscale and the cellular architecture determines to a...
International audienceDeformable cell model is developed to study pattern formation and to simulate ...
New tools are required to address the challenge of relating plant hormone levels, hormone responses,...