A Three-dimensional Variational Approach to Video Segmentation

Authors

Aaron Luttman, University of Montana

Document Type

Presentation Abstract

Presentation Date

3-9-2006

Abstract

In order to engage in photosynthesis, leaves use pores on their surface - called stomata - to absorb CO₂. The opening of these pores results in the evaporation of H₂O, which is a detriment to leaf function. Thus a leaf is faced with the global optimization problem of maximizing CO₂ uptake for a fixed amount of H₂O loss. In solving this problem, stomata in spatially homogeneous patches often synchronize their apertures, even though this does not result in optimal local CO₂ uptake. In order to visualize these patches, a dye is injected into a leaf so that it fluoresces when closing its stomata. Understanding how synchronized patches of stomata results in an optimal CO₂ uptake for the entire leaf requires a thorough analysis of these fluorescence patterns. Using an experimental background model to drive video segmentation, we use a variational level-set approach for extracting the spatially synchronized stomatal patches from video taken of the leaf fluorescence. Methods of two-dimensional pattern analysis can then be used to analyze the dynamics of the stomatal patches.

Additional Details

Thursday, 9 March 2006
4:10 p.m. in Math 109

Recommended Citation

Luttman, Aaron, "A Three-dimensional Variational Approach to Video Segmentation" (2006). Colloquia of the Department of Mathematical Sciences. 218.
https://scholarworks.umt.edu/mathcolloquia/218