The performance of wireless devices, using electrically small antennae, in the human intestine is investigated using the finite difference time domain method in recommended biomedical device telemetry bands. The radiation field intensity was found to depend on position but more strongly on frequency, with a transmission peak at 650 MHz
This paper describes the finite-difference time-domain (FDTD) analysis of antenna-body interaction e...
peer reviewedWith the extensive use of wireless devices within or at close proximity to the human bo...
We report the experimental in situ characterization of 30-40 MHz and 868 MHz wireless transmission s...
The conventional method of diagnosing disorders of the human gastro-intestinal (GI) tract is by sens...
There is currently considerable work on the development of wireless sensors that can be used in the ...
Abstract -Biotelemetry which provides wireless communication links between internal devices and outs...
Wireless power transmission in human tissue using microwave techniques has great potential for diffe...
In this work, the influence of human body within the estimation of dosimetric values is analyzed. A ...
Miniature wireless implantable bioelectronics provide powerful capabilities for biotelemetry, therap...
Abstract—In this study, we present a novel, miniaturized, biocompatible antenna at the medical impla...
International audienceMiniature wireless implantable bioelectronics provide powerful capabilities fo...
In this paper, we numerically investigated the in vivo wireless communication channel for human male...
The authors are developing a technique for conducting measurements inside the human body by applying...
Emerging wireless in-body devices pave the way to many breakthroughs in healthcare and clinical rese...
AbstractThe wireless transfer of energy through living tissues for the purpose of data communication...
This paper describes the finite-difference time-domain (FDTD) analysis of antenna-body interaction e...
peer reviewedWith the extensive use of wireless devices within or at close proximity to the human bo...
We report the experimental in situ characterization of 30-40 MHz and 868 MHz wireless transmission s...
The conventional method of diagnosing disorders of the human gastro-intestinal (GI) tract is by sens...
There is currently considerable work on the development of wireless sensors that can be used in the ...
Abstract -Biotelemetry which provides wireless communication links between internal devices and outs...
Wireless power transmission in human tissue using microwave techniques has great potential for diffe...
In this work, the influence of human body within the estimation of dosimetric values is analyzed. A ...
Miniature wireless implantable bioelectronics provide powerful capabilities for biotelemetry, therap...
Abstract—In this study, we present a novel, miniaturized, biocompatible antenna at the medical impla...
International audienceMiniature wireless implantable bioelectronics provide powerful capabilities fo...
In this paper, we numerically investigated the in vivo wireless communication channel for human male...
The authors are developing a technique for conducting measurements inside the human body by applying...
Emerging wireless in-body devices pave the way to many breakthroughs in healthcare and clinical rese...
AbstractThe wireless transfer of energy through living tissues for the purpose of data communication...
This paper describes the finite-difference time-domain (FDTD) analysis of antenna-body interaction e...
peer reviewedWith the extensive use of wireless devices within or at close proximity to the human bo...
We report the experimental in situ characterization of 30-40 MHz and 868 MHz wireless transmission s...