We present a new control strategy for the vertically excited parametric pendulum, with a view on energy harvesting from rotating motion. Two possible energy sources are considered: a vibrating machine, represented by a sinusoidal excitation; and the sea waves, simulated by a stochastic process. In both cases, rotations can be achieved and maintained only for some forcing conditions. Thus, as stable rotations are required, the pendulum must be controlled. We propose to perform this control by means of a telescopic adjustment of the pendulum length during the motion. The idea is to give the pendulum an aid to reach and maintain rotations, accelerating the motion by modifying conveniently the position of the mass. To a better understanding of ...
The oceans, which cover nearly 70% of the earth’s surface, can be considered as an inexhaustible ene...
In recent years, energy harvesters using pendulum systems have often been applied in ultra-low-frequ...
In this paper, we have investigated the dynamic response, vibration control technique, and upright s...
This paper addresses the application of a simple control technique for reaching a stable rotational ...
In this article, nonlinear dynamics tools are employed to quantify the ability of pendulum harvester...
In this paper, the authors have studied experimentally the control methods of a parametric pendulum ...
A new concept, extracting energy from sea waves by parametric pendulor, has been explored in this pr...
© 2017 Elsevier Ltd The paper investigates the dynamics of a novel wave energy converter based on th...
Abstract: Inverted pendulum is a classical example and a famous tool for testing the effectiveness o...
The present article addresses the quantification of damping in a parametric pendulum, with a view on...
AbstractThis paper studies the rotational motion of a parametrically excited pendulum, dynamics of w...
A method to extract energy from an excitation which is stochastic in nature is presented. The experi...
The vertical axis pendulum is a type of point absorber device which can absorb wave energy from a wi...
This paper presents a numerical study of an autoparametric system composed of two elements: a pendul...
In this paper, a control law to stabilize the amplitude or rotational speed of a variable length pen...
The oceans, which cover nearly 70% of the earth’s surface, can be considered as an inexhaustible ene...
In recent years, energy harvesters using pendulum systems have often been applied in ultra-low-frequ...
In this paper, we have investigated the dynamic response, vibration control technique, and upright s...
This paper addresses the application of a simple control technique for reaching a stable rotational ...
In this article, nonlinear dynamics tools are employed to quantify the ability of pendulum harvester...
In this paper, the authors have studied experimentally the control methods of a parametric pendulum ...
A new concept, extracting energy from sea waves by parametric pendulor, has been explored in this pr...
© 2017 Elsevier Ltd The paper investigates the dynamics of a novel wave energy converter based on th...
Abstract: Inverted pendulum is a classical example and a famous tool for testing the effectiveness o...
The present article addresses the quantification of damping in a parametric pendulum, with a view on...
AbstractThis paper studies the rotational motion of a parametrically excited pendulum, dynamics of w...
A method to extract energy from an excitation which is stochastic in nature is presented. The experi...
The vertical axis pendulum is a type of point absorber device which can absorb wave energy from a wi...
This paper presents a numerical study of an autoparametric system composed of two elements: a pendul...
In this paper, a control law to stabilize the amplitude or rotational speed of a variable length pen...
The oceans, which cover nearly 70% of the earth’s surface, can be considered as an inexhaustible ene...
In recent years, energy harvesters using pendulum systems have often been applied in ultra-low-frequ...
In this paper, we have investigated the dynamic response, vibration control technique, and upright s...