\u3cp\u3eThis paper considers the problem of synchronizing a pair of oscillators with Huygens’ coupling to a desired periodic trajectory, by using feed-forward control. Two particular examples are considered: a modified version of the classical Huygens’ system of pendulum clocks coupled through a common bar and a pair of self-sustained mass–spring–damper oscillators mounted on a suspended bar. For both cases, it is demonstrated that if the coupling bar is excited by a suitably designed feed-forward control, then it is possible to indirectly force the oscillators to track a desired periodic trajectory. Additionally, sufficient and necessary conditions for the stability of the desired synchronous solution are derived by using the Poincaré met...
Abstract In 1665, Christiaan Huygens reported the observation of the synchro-nization of two pendulu...
A simplified model of the classical Huygens' experiment on synchronization of pendulum clocks is exa...
This paper introduces a new model for the classical Huygens' experiment on synchronization of two pe...
This paper considers the problem of synchronizing a pair of oscillators with Huygens’ coupling to a ...
In this paper, the occurrence of synchronization in pairs of weakly nonlinear selfsustained oscillat...
Synchronization is one of the most deeply rooted and pervasive behaviours in nature. It extends from...
In this experimental study, phase synchronization is studied in pairs of nonlinear oscillators coupl...
In this experimental study, the synchronized mo-tion observed in pairs of nonlinear oscillators coup...
This paper considers synchronization as a control problem. In particular, a (robust) controller for ...
In this experimental study, the synchronized motion observed in pairs of nonlinear oscillators coupl...
This paper considers synchronization as a control problem. In particular, a (robust) controller for ...
In this paper, the well known Huygens' experiment on synchronization is examined, numerically and ex...
We present an experimental set-up that allows to study both controlled and uncontrolled synchronizat...
We present an experimental set-up that allows to study both controlled and uncontrolled synchronizat...
Abstract In 1665, Christiaan Huygens reported the observation of the synchro-nization of two pendulu...
A simplified model of the classical Huygens' experiment on synchronization of pendulum clocks is exa...
This paper introduces a new model for the classical Huygens' experiment on synchronization of two pe...
This paper considers the problem of synchronizing a pair of oscillators with Huygens’ coupling to a ...
In this paper, the occurrence of synchronization in pairs of weakly nonlinear selfsustained oscillat...
Synchronization is one of the most deeply rooted and pervasive behaviours in nature. It extends from...
In this experimental study, phase synchronization is studied in pairs of nonlinear oscillators coupl...
In this experimental study, the synchronized mo-tion observed in pairs of nonlinear oscillators coup...
This paper considers synchronization as a control problem. In particular, a (robust) controller for ...
In this experimental study, the synchronized motion observed in pairs of nonlinear oscillators coupl...
This paper considers synchronization as a control problem. In particular, a (robust) controller for ...
In this paper, the well known Huygens' experiment on synchronization is examined, numerically and ex...
We present an experimental set-up that allows to study both controlled and uncontrolled synchronizat...
We present an experimental set-up that allows to study both controlled and uncontrolled synchronizat...
Abstract In 1665, Christiaan Huygens reported the observation of the synchro-nization of two pendulu...
A simplified model of the classical Huygens' experiment on synchronization of pendulum clocks is exa...
This paper introduces a new model for the classical Huygens' experiment on synchronization of two pe...