hide
Free keywords:
-
Abstract:
Critical transitions in multistable systems have been discussed as models for a variety of phenomena ranging from the extinctions of species to socioeconomic changes and climate transitions between ice ages and warm ages. From bifurcation theory we can expect certain critical transitions to be preceded by a decreased recovery from external perturbations. The consequences of this critical slowing down have been observed as an increase in variance and autocorrelation prior to the transition. However, especially in the presence of noise, it is not clear whether these changes in observation variables are statistically relevant such that they could be used as indicators for critical transitions. In this contribution we investigate the redictability of critical transitions in conceptual models. We study the quadratic integrate-and-fire model and the van der Pol model under the influence of external
noise. We focus especially on the statistical analysis of the success of predictions and the overall predictability of
the system. The performance of different indicator variables turns out to be dependent on the specific model under
study and the conditions of accessing it. Furthermore, we study the influence of the magnitude of transitions on
the predictive performance.
