Add to ORKGWe studied the possibility of wireless powering, the intra-abdominal implants using an anatomically adaptive around-the-body loop antenna. The analysis includes the wireless link characterization and modelling using an anatomical and a simplified homogenous body model. We categorically analyze the power transfer link for four body sizes ranging from 21 to 36 inches of radial dimensions with an implant depth of 48.5 to 101 mm with promising received power level. In this assessment, the transducer power gain of the wireless power transfer link varied from −2.65 to −10.84 dB
This paper describes the development and evaluation of an on-body flexible antenna designed for an i...
Abstract This paper describes the development and evaluation of an on-body flexible antenna designe...
Implantable medical devices comprise a large and growing market, providing both short- and long-term...
Abstract This paper presents a study on the power distribution within the tissues for abdominal mon...
Abstract This paper presents the results of an in-body propagation study for abdominal implant comm...
This paper presents a multiband conformal antenna for implantable as well as ingestible devices. The...
The design of effective transcutaneous systems demands the consideration of inevitable variations in...
Wireless medical implant powering is an emerging sector for future healthcare applications. It enhan...
The major challenge in developing a wireless brain implant is to establish a stable and efficient tr...
International audienceThe wireless power transfer (WPT) efficiency to implanted bioelectronic device...
Power delivery for biomedical implants is a major consideration in their design for both measurement...
The development of safe implants is one of the key priorities of biomedical engineering. Healthcare ...
We propose the integration of the resonant coil for wireless power transfer (WPT) and the implantabl...
International audienceWe introduce a novel RF to DC wireless power transmission implantable rectenna...
Implantable bioelectronic devices are becoming useful and prospective solutions for various diseases...
This paper describes the development and evaluation of an on-body flexible antenna designed for an i...
Abstract This paper describes the development and evaluation of an on-body flexible antenna designe...
Implantable medical devices comprise a large and growing market, providing both short- and long-term...
Abstract This paper presents a study on the power distribution within the tissues for abdominal mon...
Abstract This paper presents the results of an in-body propagation study for abdominal implant comm...
This paper presents a multiband conformal antenna for implantable as well as ingestible devices. The...
The design of effective transcutaneous systems demands the consideration of inevitable variations in...
Wireless medical implant powering is an emerging sector for future healthcare applications. It enhan...
The major challenge in developing a wireless brain implant is to establish a stable and efficient tr...
International audienceThe wireless power transfer (WPT) efficiency to implanted bioelectronic device...
Power delivery for biomedical implants is a major consideration in their design for both measurement...
The development of safe implants is one of the key priorities of biomedical engineering. Healthcare ...
We propose the integration of the resonant coil for wireless power transfer (WPT) and the implantabl...
International audienceWe introduce a novel RF to DC wireless power transmission implantable rectenna...
Implantable bioelectronic devices are becoming useful and prospective solutions for various diseases...
This paper describes the development and evaluation of an on-body flexible antenna designed for an i...
Abstract This paper describes the development and evaluation of an on-body flexible antenna designe...
Implantable medical devices comprise a large and growing market, providing both short- and long-term...