Title :
Detection and Visualization of Defects in 3D Unstructured Models of Nematic Liquid Crystals
Author :
Mehta, K. ; Jankun-Kelly, T.J.
Author_Institution :
Mississippi State Univ., MS
Abstract :
A method for the semi-automatic detection and visualization of defects in models of nematic liquid crystals (NLCs) is introduced; this method is suitable for unstructured models, a previously unsolved problem. The detected defects - also known as disclinations - are regions were the alignment of the liquid crystal rapidly changes over space; these defects play a large role in the physical behavior of the NLC substrate. Defect detection is based upon a measure of total angular change of crystal orientation (the director) over a node neighborhood via the use of a nearest neighbor path. Visualizations based upon the detection algorithm clearly identify complete defect regions as opposed to incomplete visual descriptions provided by cutting-plane and isosurface approaches. The introduced techniques are currently in use by scientists studying the dynamics of defect change
Keywords :
data visualisation; feature extraction; mesh generation; nematic liquid crystals; physics computing; 3D unstructured model; nematic liquid crystals; scientific visualization; semi-automatic defect detection; Biosensors; Detection algorithms; Feature extraction; Isosurfaces; Liquid crystals; Nearest neighbor searches; Organic materials; Physics; Solids; Visualization; defects; disclination; feature extraction; nematic liquid crystal; scientific visualization; unstructured grid;
Journal_Title :
Visualization and Computer Graphics, IEEE Transactions on
DOI :
10.1109/TVCG.2006.133
