Title :
Inferring shape evolution
Author :
Da Fountoura, L. ; Bianchi, Andrea G Campos
Author_Institution :
IFSC-USP-Cybernetic Vision Res. Group, Sao Carlos, Brazil
Abstract :
Dynamic shapes, namely shapes that change with time, represent an important issue in several scientific and technological contexts. The current article presents a model-based mathematic-computational approach for inferring the processes governing some of the most representative types of shape evolution, with special attention given to biological shapes. The considered models include functional mappings, convolution-based evolution and normal wavefront propagation. The methods are illustrated with respect to stationary (global) and non-stationary (local) dynamic evolutions, and the obtained results substantiate the potential of the presented methodology. Although concentrating on 2D shapes, the reported results can be extended to higher dimensional objects
Keywords :
feature extraction; image morphing; 2D shapes; biological shapes; convolution-based evolution; dynamic evolutions; dynamic shapes; functional mappings; higher dimensional objects; image morphing; model-based mathematic-computational approach; model-based methodology; normal wavefront propagation; scientific contexts; shape evolution inferring; technological contexts; Biological system modeling; Biology computing; Computational modeling; Cybernetics; Evolution (biology); Gene expression; Gravity; Mathematical model; Nervous system; Shape;
Conference_Titel :
Computer Graphics and Image Processing, 2001 Proceedings of XIV Brazilian Symposium on
Conference_Location :
Florianopolis
Print_ISBN :
0-7695-1330-1
DOI :
10.1109/SIBGRAPI.2001.963076
