The use of networks of wireless active implantable medical devices (AIMDs) could revolutionize the way that numerous severe illnesses are treated. However, the development of sub-mm AIMDs is hindered by the bulkiness and the transmission range that consolidated wireless power transfer (WPT) methods exhibit. The aim of this work is to numerically study and illustrate the potential of an innovative WPT technique based on volume conduction at high frequencies for powering AIMDs. In this technique, high frequency currents are coupled into the tissues through external electrodes, producing an electric field that can be partially picked-up by thin, flexible, and elongated implants. In the present study, the system formed by the external el...
International audienceThe efficiency of an on-body wireless power transfer system for implant poweri...
Implantable medical devices will play an important role in modern medicine. To reduce the risk of wi...
Two significant problems are present which impede the widespread utilization of many implantable dev...
The use of networks of wireless active implantable medical devices (AIMDs) could revolutionize the w...
Although the use of volumetric conduction to power wireless implants has been experimentally validat...
Galvanic coupling, or more precisely volume conduction, has been recently studied by different resea...
Comunicació presentada a: International Conference on NeuroRehabilitation (ICNR) celebrat del 13 al ...
Computational modeling is increasingly used to design charging systems for implanted medical devices...
Comunicació presentada a: BioCAS 2018, celebrada a Cleveland, Ohio, Estats Units d'Amèrica, del 17 a...
Wireless biomedical devices have attracted the attention of researchers over the last decade for h...
International audienceThe wireless power transfer (WPT) efficiency to implanted bioelectronic device...
Comunicació presentada a: World Congress on Medical Physics and Biomedical Engineering 2018, celebra...
Biomedical implants are designed to last inside the human body for more than a decade. Critical to t...
Implantable electronic devices are constantly evolving at an astonishing pace, supported by the tech...
Abstract—This paper examines short-range wireless power-ing for implantable devices and shows that e...
International audienceThe efficiency of an on-body wireless power transfer system for implant poweri...
Implantable medical devices will play an important role in modern medicine. To reduce the risk of wi...
Two significant problems are present which impede the widespread utilization of many implantable dev...
The use of networks of wireless active implantable medical devices (AIMDs) could revolutionize the w...
Although the use of volumetric conduction to power wireless implants has been experimentally validat...
Galvanic coupling, or more precisely volume conduction, has been recently studied by different resea...
Comunicació presentada a: International Conference on NeuroRehabilitation (ICNR) celebrat del 13 al ...
Computational modeling is increasingly used to design charging systems for implanted medical devices...
Comunicació presentada a: BioCAS 2018, celebrada a Cleveland, Ohio, Estats Units d'Amèrica, del 17 a...
Wireless biomedical devices have attracted the attention of researchers over the last decade for h...
International audienceThe wireless power transfer (WPT) efficiency to implanted bioelectronic device...
Comunicació presentada a: World Congress on Medical Physics and Biomedical Engineering 2018, celebra...
Biomedical implants are designed to last inside the human body for more than a decade. Critical to t...
Implantable electronic devices are constantly evolving at an astonishing pace, supported by the tech...
Abstract—This paper examines short-range wireless power-ing for implantable devices and shows that e...
International audienceThe efficiency of an on-body wireless power transfer system for implant poweri...
Implantable medical devices will play an important role in modern medicine. To reduce the risk of wi...
Two significant problems are present which impede the widespread utilization of many implantable dev...