Add to ORKGA computational approach for the evaluation of the electro-mechanical response of levitation based vibration energy harvesters is presented in this paper. The key aspects of the design of levitation based energy harvesters, such as the existence of the resonance phenomenon, the influence of damping in the system response, the magnetic force nonlinearity and the calculation of the magnetic flux derivative for multi-magnet configurations are addressed. The evolution in time of the electromechanical variables is investigated through a hybrid numericalanalytical approach. The evaluation of the levitational force and the magnetic flux derivative is done through a nonlinear model based on the finite element method. A performance assessment is don...
This paper presents a magnetically levitated electromagnetic vibration energy harvester based on mag...
Present work deals with design and analysis of an electromagnetic energy harvesting system by improv...
This paper focuses on the modelling and analysis of electromechanical coupling in a magnetic levitat...
This paper presents a computational approach for the evaluation of the electro-mechanical response o...
International audienceIn this paper, we propose a nonlinear multimodal vibration energy harvesting m...
This paper investigates the design and analysis of a novel energy harvesting device that uses magnet...
This paper presents a geometrically exact formulation for modeling electromagnetic vibration energy ...
International audienceThe nonlinear dynamics of a two-degree-of-freedom (2-DOFs) vibrating energy ha...
This is the author accepted manuscript. The final version is available from IOP Publishing via the D...
International audienceA multiphysics model of a hybrid piezoelectric–electromagnetic vibration energ...
Herein, the authors publish the complex design of a numerical coupled model of a vibration-based har...
This dissertation reports the investigation conducted on the static and dynamic behavior of the pass...
International audienceWe propose a multi-modal vibration energy harvesting approach based on arrays ...
Continuous advancements in electronics manufacturing have resulted in the widespread use of low-powe...
An energy harvesting device combined with a giant magnetoimpedance (GMI) sensor is presented to anal...
This paper presents a magnetically levitated electromagnetic vibration energy harvester based on mag...
Present work deals with design and analysis of an electromagnetic energy harvesting system by improv...
This paper focuses on the modelling and analysis of electromechanical coupling in a magnetic levitat...
This paper presents a computational approach for the evaluation of the electro-mechanical response o...
International audienceIn this paper, we propose a nonlinear multimodal vibration energy harvesting m...
This paper investigates the design and analysis of a novel energy harvesting device that uses magnet...
This paper presents a geometrically exact formulation for modeling electromagnetic vibration energy ...
International audienceThe nonlinear dynamics of a two-degree-of-freedom (2-DOFs) vibrating energy ha...
This is the author accepted manuscript. The final version is available from IOP Publishing via the D...
International audienceA multiphysics model of a hybrid piezoelectric–electromagnetic vibration energ...
Herein, the authors publish the complex design of a numerical coupled model of a vibration-based har...
This dissertation reports the investigation conducted on the static and dynamic behavior of the pass...
International audienceWe propose a multi-modal vibration energy harvesting approach based on arrays ...
Continuous advancements in electronics manufacturing have resulted in the widespread use of low-powe...
An energy harvesting device combined with a giant magnetoimpedance (GMI) sensor is presented to anal...
This paper presents a magnetically levitated electromagnetic vibration energy harvester based on mag...
Present work deals with design and analysis of an electromagnetic energy harvesting system by improv...
This paper focuses on the modelling and analysis of electromechanical coupling in a magnetic levitat...