Energy harvesting is a promising approach to power novel instrumented implants that have passive sensory functions or actuators for therapeutic measures. We recently proposed a new piezoelectric concept for energy harvesting in total hip replacements. The mechanical implant safety and the feasibility of power generation were numerically demonstrated. However, the power output for the chosen piezoelectric element was low. Therefore, we investigated in the present study different geometry variants for an increased power output for in vivo applications. Using the same finite element model, we focused on new, customised piezoelectric element geometries to optimally exploit the available space for integration of the energy harvesting system, whi...
International audienceThe main purpose of this paper is to demonstrate the capability to optimize th...
Piezoelectric energy harvesting systems are used to convert vicinity vibrations into useful electric...
International audienceCurrent version of implatable cardioverter defibrillators (ICDs) and pacemaker...
Instrumented implants can improve the clinical outcome of total hip replacements (THRs). To overcome...
International audienceThe goal of our paper is to quantify the electrical energy that can be harvest...
In line with the United Nations' Sustainable Development Goal 3, promoting good health and well-bein...
International audienceEnergy harvesting inside human body is crucial for powering implantable long-t...
Energy harvesting from the human body is considered as an effective solution for powering biomedical...
Piezoelectric energy harvesting has been around for almost a decade to generate power from the ambie...
AbstractThis paper describes an improved micro-power electric generator where energy harvested from ...
The energy generation inside the human body represents a crucial aspect for powering implantable mea...
The knee replacement is the second most common orthopedic surgical intervention in the United States...
Implantable medical devices usually require a battery to operate and this can represent a severe res...
International audienceThe main purpose of this paper is to demonstrate the capability to optimize th...
Piezoelectric energy harvesting systems are used to convert vicinity vibrations into useful electric...
International audienceCurrent version of implatable cardioverter defibrillators (ICDs) and pacemaker...
Instrumented implants can improve the clinical outcome of total hip replacements (THRs). To overcome...
International audienceThe goal of our paper is to quantify the electrical energy that can be harvest...
In line with the United Nations' Sustainable Development Goal 3, promoting good health and well-bein...
International audienceEnergy harvesting inside human body is crucial for powering implantable long-t...
Energy harvesting from the human body is considered as an effective solution for powering biomedical...
Piezoelectric energy harvesting has been around for almost a decade to generate power from the ambie...
AbstractThis paper describes an improved micro-power electric generator where energy harvested from ...
The energy generation inside the human body represents a crucial aspect for powering implantable mea...
The knee replacement is the second most common orthopedic surgical intervention in the United States...
Implantable medical devices usually require a battery to operate and this can represent a severe res...
International audienceThe main purpose of this paper is to demonstrate the capability to optimize th...
Piezoelectric energy harvesting systems are used to convert vicinity vibrations into useful electric...
International audienceCurrent version of implatable cardioverter defibrillators (ICDs) and pacemaker...