AbstractThis paper studies a model of energy harvester that consists of an electromechanical pendulum system subjected to nonlinear springs. The output power is analyzed in terms of the intrinsic parameters of the device leading to optimal parameters for energy harvesting. It is found that in an appropriate range of the springs constant, the power attains higher values as compared to the case without springs. The dynamical behavior of the device shows transition to chaos
Abstract: We examine a simple nonlinear harvester system with an impact-ing pendulum. The mechanical...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2014.Cata...
A design of an electret-type vibration energy harvester using non-linear springs is described. The u...
This paper studies a model of energy harvester that consists of an electromechanical pendulum system...
AbstractThis paper studies a model of energy harvester that consists of an electromechanical pendulu...
The introduction of nonlinearities into energy harvesting in order to improve the performance of lin...
This paper studies the vibrational motion of a dynamical system connected to an electromagnetic devi...
A model of energy harvester based on a simple portal frame structure is presented. The system is con...
The spherical pendulum is mathematically well described and different scholars contributed to the to...
Harvesting energy from ambient sources has been a recent topic of interest. A typical linear harvest...
This paper presents a numerical study of an autoparametric system composed of two elements: a pendul...
In this paper, we deal with the research of a proposed mathematical model of energy harvesting, incl...
Abstract In this paper a mathematical model was found, and numerical results obtained for the pendul...
In this paper the benefits of using a nonlinear stiffness in an energy harvesting device comprising ...
Typically ambient vibration generates a relative displacement between the suspended mass and the bas...
Abstract: We examine a simple nonlinear harvester system with an impact-ing pendulum. The mechanical...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2014.Cata...
A design of an electret-type vibration energy harvester using non-linear springs is described. The u...
This paper studies a model of energy harvester that consists of an electromechanical pendulum system...
AbstractThis paper studies a model of energy harvester that consists of an electromechanical pendulu...
The introduction of nonlinearities into energy harvesting in order to improve the performance of lin...
This paper studies the vibrational motion of a dynamical system connected to an electromagnetic devi...
A model of energy harvester based on a simple portal frame structure is presented. The system is con...
The spherical pendulum is mathematically well described and different scholars contributed to the to...
Harvesting energy from ambient sources has been a recent topic of interest. A typical linear harvest...
This paper presents a numerical study of an autoparametric system composed of two elements: a pendul...
In this paper, we deal with the research of a proposed mathematical model of energy harvesting, incl...
Abstract In this paper a mathematical model was found, and numerical results obtained for the pendul...
In this paper the benefits of using a nonlinear stiffness in an energy harvesting device comprising ...
Typically ambient vibration generates a relative displacement between the suspended mass and the bas...
Abstract: We examine a simple nonlinear harvester system with an impact-ing pendulum. The mechanical...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2014.Cata...
A design of an electret-type vibration energy harvester using non-linear springs is described. The u...