Add to ORKGWearable electronics are continually being developed for a multitude of applications like remote health monitoring, personal activity tracking, and gaming. To design efficient wireless communication between multiple on-body devices, propagation models of the human body must be considered. Due to the creeping wave effect of radio waves near a curved surface, the human body itself acts as a channel capable of supporting and affecting wireless signals. The around-head creeping wave propagation behavior of three different frequencies has been investigated. Since these continuous frequency signals are affected by the movements of the human body, their altered signatures are also classifiable as effects of distinct daily activities like eating, d...
In this paper methodology to exploit creeping wave for body area network BAN communication reliabili...
Wireless wearable medical devices located on the opposite side of the body communicate through creep...
In this work, finite-difference time-domain was used for the investigation of dynamic wireless body ...
Monitoring human body activities has long been of interests because of their important applications ...
Wireless Body Area Networks (WBANs) have the potential to provide long-term remote health monitoring...
Interest in on-body communication channels is growing as the use of wireless devices increases in me...
Wireless body area network (WBAN) technology shows potential for improving human quality of life by ...
The propagation of 60 GHz electromagnetic waves around a human body is studied. The body is treated ...
A novel dynamic channel model for on-body wireless communication during walking is proposed. The dev...
International audienceThe first analytical model of Body Area Network channels is presented. The for...
Abstract—A creeping wave model of the propagation of electromagnetic waves around human torso at 60 ...
Body worn wireless sensors for monitoring health information is a promising new application. In deve...
On-body communication technology development requires a better knowledge of antenna radiation and wa...
A new trend in developing wireless sensors consists in using wearable wireless sensors to monitor hu...
Miniaturized wireless sensors are designed to run on limited power resources, requiring minimization...
In this paper methodology to exploit creeping wave for body area network BAN communication reliabili...
Wireless wearable medical devices located on the opposite side of the body communicate through creep...
In this work, finite-difference time-domain was used for the investigation of dynamic wireless body ...
Monitoring human body activities has long been of interests because of their important applications ...
Wireless Body Area Networks (WBANs) have the potential to provide long-term remote health monitoring...
Interest in on-body communication channels is growing as the use of wireless devices increases in me...
Wireless body area network (WBAN) technology shows potential for improving human quality of life by ...
The propagation of 60 GHz electromagnetic waves around a human body is studied. The body is treated ...
A novel dynamic channel model for on-body wireless communication during walking is proposed. The dev...
International audienceThe first analytical model of Body Area Network channels is presented. The for...
Abstract—A creeping wave model of the propagation of electromagnetic waves around human torso at 60 ...
Body worn wireless sensors for monitoring health information is a promising new application. In deve...
On-body communication technology development requires a better knowledge of antenna radiation and wa...
A new trend in developing wireless sensors consists in using wearable wireless sensors to monitor hu...
Miniaturized wireless sensors are designed to run on limited power resources, requiring minimization...
In this paper methodology to exploit creeping wave for body area network BAN communication reliabili...
Wireless wearable medical devices located on the opposite side of the body communicate through creep...
In this work, finite-difference time-domain was used for the investigation of dynamic wireless body ...