This paper reports theoretical and numerical results about the reinjection process in type V intermittency. The M function methodology is applied to a simple mathematical model to evaluate the reinjection process through the reinjection probability density function (RPD), the probability density of laminar lengths, and the characteristic relation. We have found that the RPD can be a discontinuous function and it is a sum of exponential functions. The RPD shows two reinjection behaviors. Also, the probability density of laminar lengths has two different behaviors following the RPD function. The dependence of the RPD function and the probability density of laminar lengths with the reinjection mechanisms and the lower boundary of return are co...
We consider a type of intermittent behavior that occurs as the result of the interplay between dynam...
We use the natural invariant density of the map and the Perron–Frobenius operator to analytically ev...
International audienceStationary renewal point processes are defined by the probability distribution...
In this paper, type V intermittency is studied using the M function methodology developed in the las...
A methodology to study the reinjection process in type V intermittency is introduced. The reinjectio...
In this paper, we extend a methodology developed recently to study type-III intermittency considerin...
The M function methodology allows calculating the statistical properties of intermittency in a broa...
We implement a recent methodology to study type-II intermittency considering different values of the...
The classical theory of intermittency developed for return maps assumes uniform density of points re...
In this work we analyze the noise effect on type-I intermittency, for which we develop a methodology...
In previous papers, the type-I intermittent phenomenon with continuous reinjection probability densi...
One of the most important routes to chaos is the chaotic intermittency. However, there are many case...
The classical theory of intermittency developed for return maps assumes uniform density of points re...
Chaotic intermittency is a route to chaos when transitions between laminar and chaotic dynamics occu...
This paper explores the effect of the noise in the reinjection probability densities (RPD) for type-...
We consider a type of intermittent behavior that occurs as the result of the interplay between dynam...
We use the natural invariant density of the map and the Perron–Frobenius operator to analytically ev...
International audienceStationary renewal point processes are defined by the probability distribution...
In this paper, type V intermittency is studied using the M function methodology developed in the las...
A methodology to study the reinjection process in type V intermittency is introduced. The reinjectio...
In this paper, we extend a methodology developed recently to study type-III intermittency considerin...
The M function methodology allows calculating the statistical properties of intermittency in a broa...
We implement a recent methodology to study type-II intermittency considering different values of the...
The classical theory of intermittency developed for return maps assumes uniform density of points re...
In this work we analyze the noise effect on type-I intermittency, for which we develop a methodology...
In previous papers, the type-I intermittent phenomenon with continuous reinjection probability densi...
One of the most important routes to chaos is the chaotic intermittency. However, there are many case...
The classical theory of intermittency developed for return maps assumes uniform density of points re...
Chaotic intermittency is a route to chaos when transitions between laminar and chaotic dynamics occu...
This paper explores the effect of the noise in the reinjection probability densities (RPD) for type-...
We consider a type of intermittent behavior that occurs as the result of the interplay between dynam...
We use the natural invariant density of the map and the Perron–Frobenius operator to analytically ev...
International audienceStationary renewal point processes are defined by the probability distribution...