抄録
In this paper, we propose a new chaotic itinerant model of mode transition dynamics in human circulatory systems. An essential emphasis of the model is on autonomous mode transition dynamics based on chaotic itinerancy of large-scale nonlinear systems. The mode transition of the proposed model can be controlled by an external input as well. It is shown that the model possesses some important properties observed in the circulatory systems, such as mode transition and its controlability.Chaotic itinerancyglobally coupled mapWindkessel model
In this paper, we propose a new chaotic itinerant model of mode transition dynamics in human circulatory systems. An essential emphasis of the model is on autonomous mode transition dynamics based on chaotic itinerancy of large-scale nonlinear systems. The mode transition of the proposed model can be controlled by an external input as well. It is shown that the model possesses some important properties observed in the circulatory systems, such as mode transition and its controlability.
