| Nome: | Descrição: | Tamanho: | Formato: | |
|---|---|---|---|---|
| 4.74 MB | Adobe PDF |
Orientador(es)
Resumo(s)
We study curious dynamical patterns appearing in networks of one ring of cells coupled to a ‘buffer’ cell. Depending on how the cells in the ring are coupled to the ‘buffer’ cell, the full network may have a nontrivial group of symmetries or a nontrivial group of ‘interior’ symmetries. This group is Z3 in the unidirectional case and D3 in the bidirectional case. We simulate the coupled cell systems associated with the networks and obtain steady states, rotating waves, quasiperiodic behavior, and chaos. The different patterns seem to arise through a sequence of Hopf, period-doubling, and period-halving bifurcations. The behavior of the systems with exact symmetry are similar to the ones with ‘interior’ symmetry. The network architecture appears to explain some features, whereas the properties of the Chen oscillator, used to model cells’ internal dynamics, may explain others. We use XPPAUT and MATLAB to numerically compute the relevant states.
Descrição
Palavras-chave
Chaos Quasiperiodic states Coupled cell network Hopf bifurcation Period-doubling bifurcation Period-halving bifurcation
Contexto Educativo
Citação
Editora
SAGE Publications