Such chaotic behaviour may limit the predictability of nonlinear dynamical systems.»
Not exact matches
«A dynamical system
such as the climate system, governed by nonlinear deterministic equations (see Nonlinearity), may exhibit erratic or
chaotic behaviour in the sense that very small changes in the initial state of the system in time lead to large and apparently unpredictable changes in its temporal evolution.
However since
such chaos - based variability can not be explicitly modeled, one can not be certain that recent warming is natural -
chaotic however much it might resemble climate
behaviour in past times.
My interests, more specifically, are related to: * The consequence of scaling
behaviour in non-linear coupled systems (both
chaotic and non-
chaotic) * The consequence of external forcings on
such systems * The limitations of numerical methods used to analyse these systems, particularly with regard to initial conditions
Chaotic behaviour controls: in
such families there are random shifts in
behaviour controls through the entire spectrum from laissez - faire to rigid.
Typically, these were patients with longstanding interpersonal difficulties whose clinical presentation changed greatly during the follow up period and who showed key psychological characteristics
such as mood instability, self mutilation, or
chaotic eating
behaviour over time.