In this paper, we have investigated the dynamic response, vibration control technique, and upright stability of an inverted pendulum system in an underwater environment in view point of a conceptual future wave energy harvesting system. The pendulum system is subjected to a parametrically excited input (used as a water wave) at its pivot point in the vertical direction for stabilization purposes. For the first time, a mathematical model for investigating the underwater dynamic response of an inverted pendulum system has been developed, considering the effect of hydrodynamic forces (like the drag force and the buoyancy force) acting on the system. The mathematical model of the system has been derived by applying the standard Lagrange equatio...
In this paper, the effects of increasing the number of degrees of freedom through adding submerged b...
In this paper a novel gyroscopic system capable of recharging an autonomous underwater vehicle (AUV)...
The present article addresses the quantification of damping in a parametric pendulum, with a view on...
In this paper, we have investigated the dynamic response, vibration control technique, and upright s...
© 2017 Elsevier Ltd The paper investigates the dynamics of a novel wave energy converter based on th...
A new concept, extracting energy from sea waves by parametric pendulor, has been explored in this pr...
The aims of this study are to model the wave energy harvester device using a single pendulum on a po...
In this article, nonlinear dynamics tools are employed to quantify the ability of pendulum harvester...
Abstract The wave energy sector has faced enormous technological improvements over the last five d...
Parametric resonance is a highly nonlinear phenomenon, difficult to model and foresee, with often de...
We present a new control strategy for the vertically excited parametric pendulum, with a view on ene...
Abstract: We examine a simple nonlinear harvester system with an impact-ing pendulum. The mechanical...
Representative models of the nonlinear behaviour of floating platforms are essential for their succe...
AbstractSea conditions have a significant impact on the efficiency of wave energy converters (WECs)....
Due to the long-term problem of electricity and potable water in most developing and undeveloped cou...
In this paper, the effects of increasing the number of degrees of freedom through adding submerged b...
In this paper a novel gyroscopic system capable of recharging an autonomous underwater vehicle (AUV)...
The present article addresses the quantification of damping in a parametric pendulum, with a view on...
In this paper, we have investigated the dynamic response, vibration control technique, and upright s...
© 2017 Elsevier Ltd The paper investigates the dynamics of a novel wave energy converter based on th...
A new concept, extracting energy from sea waves by parametric pendulor, has been explored in this pr...
The aims of this study are to model the wave energy harvester device using a single pendulum on a po...
In this article, nonlinear dynamics tools are employed to quantify the ability of pendulum harvester...
Abstract The wave energy sector has faced enormous technological improvements over the last five d...
Parametric resonance is a highly nonlinear phenomenon, difficult to model and foresee, with often de...
We present a new control strategy for the vertically excited parametric pendulum, with a view on ene...
Abstract: We examine a simple nonlinear harvester system with an impact-ing pendulum. The mechanical...
Representative models of the nonlinear behaviour of floating platforms are essential for their succe...
AbstractSea conditions have a significant impact on the efficiency of wave energy converters (WECs)....
Due to the long-term problem of electricity and potable water in most developing and undeveloped cou...
In this paper, the effects of increasing the number of degrees of freedom through adding submerged b...
In this paper a novel gyroscopic system capable of recharging an autonomous underwater vehicle (AUV)...
The present article addresses the quantification of damping in a parametric pendulum, with a view on...