Add to ORKGInternational audienceThis work deals with the maximization of the mean power in a piezoelectric energy harvesting device. The voltages are acquired by applying different force amplitudes and initial positions for the system. These signals are treated in order to identify and separate chaotic from regular (non chaotic) results, through 0-1 test for chaos. An optimization problem is numerically solved in order to identify an optimal configuration of parameters
Non-linear techniques are used to optimize the harvested energy from piezoelectric and electromagnet...
International audienceWhen the frequency of the source of vibration of a Piezolectric Generator is s...
This paper compares the performances of a vibrationpowered electrical generators using PZT piezoelec...
International audienceThis work deals with the study of a piezoelectric energy harvesting device, ai...
This paper presents a complete optimization of a piezoelectric vibration energy harvesting system, i...
WOS: 000412159000007This chapter focuses on the nonlinear problems in the piezoelectric harvester sy...
International audienceThis paper is a review and synthetic overlook of existing energy harvesting ci...
This paper describes optimum values of an electrical circuit for energy harvesting using a beam and ...
Harvesting ambient vibration energy is an attractive method to supply power for wireless sensors or ...
Energy harvesting is a very promising technology to provide low levels of power for small autonomous...
Submitted on behalf of EDA Publishing Association (http://irevues.inist.fr/handle/2042/5920). ISBN 2...
Power harvesting systems generate electric power from mechanical vibration using electromechanical t...
The electrical supply of portable electronic devices is a crucial problem, which may be solved by h...
Many of energy harvesting devices use piezoelectric elements to convert mechanical vibrations into u...
This paper develops an equivalent linear model for piezomagnetoelastic energy harvesters under broad...
Non-linear techniques are used to optimize the harvested energy from piezoelectric and electromagnet...
International audienceWhen the frequency of the source of vibration of a Piezolectric Generator is s...
This paper compares the performances of a vibrationpowered electrical generators using PZT piezoelec...
International audienceThis work deals with the study of a piezoelectric energy harvesting device, ai...
This paper presents a complete optimization of a piezoelectric vibration energy harvesting system, i...
WOS: 000412159000007This chapter focuses on the nonlinear problems in the piezoelectric harvester sy...
International audienceThis paper is a review and synthetic overlook of existing energy harvesting ci...
This paper describes optimum values of an electrical circuit for energy harvesting using a beam and ...
Harvesting ambient vibration energy is an attractive method to supply power for wireless sensors or ...
Energy harvesting is a very promising technology to provide low levels of power for small autonomous...
Submitted on behalf of EDA Publishing Association (http://irevues.inist.fr/handle/2042/5920). ISBN 2...
Power harvesting systems generate electric power from mechanical vibration using electromechanical t...
The electrical supply of portable electronic devices is a crucial problem, which may be solved by h...
Many of energy harvesting devices use piezoelectric elements to convert mechanical vibrations into u...
This paper develops an equivalent linear model for piezomagnetoelastic energy harvesters under broad...
Non-linear techniques are used to optimize the harvested energy from piezoelectric and electromagnet...
International audienceWhen the frequency of the source of vibration of a Piezolectric Generator is s...
This paper compares the performances of a vibrationpowered electrical generators using PZT piezoelec...