We give a complete description of the behaviour of the sequence of displacements η n (z) = Φ n (x)−Φ n−1 (x) mod 1, z = exp(2πix), along a trajectory {ϕ n (z)}, where ϕ is an orientation preserving circle homeomorphism and Φ : R → R its lift. If the rotation number ̺(ϕ) = p q is rational then η n (z) is asymptotically periodic with semi-period q. This convergence to a periodic sequence is uniform in z if we admit that some points are iterated backward instead of taking only forward iterations for all z. If ̺(ϕ) / ∈ Q then the values of η n (z) are dense in a set which depends on the map γ (semi-)conjugating ϕ with the rotation by ̺(ϕ) and which is the support of the displacements distribution. We provide an effective formula for the displacement distribution if ϕ is C 1 -diffeomorphism and show approximation of the displacement distribution by sample displacements measured along a trajectory of any other circle homeomorphism which is sufficiently close to the initial homeomorphism ϕ. Finally, we prove that even for the irrational rotation number ̺ the displacement sequence exhibits some regularity properties.
We analyze properties of the firing map, which iterations give information about consecutive spikes, for periodically driven linear integrate-and-fire models. By considering locally integrable (thus in general not continuous) input functions, we generalize some results of other authors. In particular we prove theorems concerning continuous dependence of the firing map on the input in suitable function spaces. Using mathematical study of the displacement sequence of an orientation preserving circle homeomorphism, we provide also a complete description of the regularity properties of the sequence of interspike-intervals and behaviour of the interspike-interval distribution. Our results allow to explain some facts concerning this distribution observed numerically by other authors. These theoretical findings are illustrated by carefully chosen computational examples.
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