Although the use of volumetric conduction to power wireless implants has been experimentally validated in recent years, a theoretical framework to determine the power and efficiency obtained by minimally invasive implants has not been established yet. This thesis aims to develop and validate these models. Firstly, an analytical model is presented to determine the maximum power an implant can locally obtain using volume conduction. It was expanded to model the complete transmission link by using a multiport network and was fitted using parameters obtained from human MRI images. Finally, the provided model is rearranged to model communications based on volume conduction. The results demonstrate that powers of mW can be obtained using submilli...
Biomedical implants are designed to last inside the human body for more than a decade. Critical to t...
The elimination of integrated batteries in biomedical implants holds great promise for improving hea...
Projecte realitzat en el marc d’un programa de mobilitat amb la Northeastern University[ANGLES`] New...
The use of networks of wireless active implantable medical devices (AIMDs) could revolutionize the ...
The use of networks of wireless active implantable medical devices (AIMDs) could revolutionize the w...
Comunicació presentada a: International Conference on NeuroRehabilitation (ICNR) celebrat del 13 al ...
Galvanic coupling, or more precisely volume conduction, has been recently studied by different resea...
Comunicació presentada a: BioCAS 2018, celebrada a Cleveland, Ohio, Estats Units d'Amèrica, del 17 a...
Two significant problems are present which impede the widespread utilization of many implantable dev...
Implantable electronic devices have been evolving at an astonishing pace, due to the development of ...
In this study, a wireless power transfer system for miniaturized biomedical implants has been optimi...
Life-threatening medical conditions such as stroke, spinal injuries and traumatic brain injury affec...
Power delivery for biomedical implants is a major consideration in their design for both measurement...
Implantable electronic devices have been evolving at an astonishing pace, due to the development of ...
The development of safe implants is one of the key priorities of biomedical engineering. Healthcare ...
Biomedical implants are designed to last inside the human body for more than a decade. Critical to t...
The elimination of integrated batteries in biomedical implants holds great promise for improving hea...
Projecte realitzat en el marc d’un programa de mobilitat amb la Northeastern University[ANGLES`] New...
The use of networks of wireless active implantable medical devices (AIMDs) could revolutionize the ...
The use of networks of wireless active implantable medical devices (AIMDs) could revolutionize the w...
Comunicació presentada a: International Conference on NeuroRehabilitation (ICNR) celebrat del 13 al ...
Galvanic coupling, or more precisely volume conduction, has been recently studied by different resea...
Comunicació presentada a: BioCAS 2018, celebrada a Cleveland, Ohio, Estats Units d'Amèrica, del 17 a...
Two significant problems are present which impede the widespread utilization of many implantable dev...
Implantable electronic devices have been evolving at an astonishing pace, due to the development of ...
In this study, a wireless power transfer system for miniaturized biomedical implants has been optimi...
Life-threatening medical conditions such as stroke, spinal injuries and traumatic brain injury affec...
Power delivery for biomedical implants is a major consideration in their design for both measurement...
Implantable electronic devices have been evolving at an astonishing pace, due to the development of ...
The development of safe implants is one of the key priorities of biomedical engineering. Healthcare ...
Biomedical implants are designed to last inside the human body for more than a decade. Critical to t...
The elimination of integrated batteries in biomedical implants holds great promise for improving hea...
Projecte realitzat en el marc d’un programa de mobilitat amb la Northeastern University[ANGLES`] New...