Title :
Pattern formation in oscillatory media: Beyond reaction-diffusion model
Author_Institution :
Cellular Sensory & Wave Comput. Lab., MTA SZTAKI, Budapest, Hungary
Abstract :
Reaction-diffusion models of active media provide a quite general framework for describing pattern formation phenomena in very different systems. Here, we extend this model and show that in oscillatory systems more complex oscillatory wave patterns might emerge based on different locally coupled interactions. Autonomous, two-layer Cellular Neural/Nonlinear Network models are used and spatial interactions are encoded in coupling rules. The properties of emerging oscillatory patterns can be determined in advance from the analysis of the coupling rules and cell dynamics.
Keywords :
neural nets; pattern formation; reaction-diffusion systems; cell dynamics; cellular neural networks; coupling rules; oscillatory media; pattern formation; reaction-diffusion model; Biological system modeling; Cellular networks; Cellular neural networks; Coupling circuits; Differential equations; Frequency; Nanobioscience; Pattern analysis; Pattern formation; Spirals; cellular neural networks; oscillation; pattern formation; reaction-diffusion PDE;
Conference_Titel :
Cellular Nanoscale Networks and Their Applications (CNNA), 2010 12th International Workshop on
Conference_Location :
Berkeley, CA
Print_ISBN :
978-1-4244-6679-5
DOI :
10.1109/CNNA.2010.5430312
