Add to ORKGIn the field of 60 GHz high data rate wireless and Body Area Networks communications a fast computation and accurate analytical model for creeping waves is described in this paper. The scattering of a plane wave by a perfectly conducting cylinder (PEC) is presented. It is shown that at 60 GHz higher creeping waves modes can be neglected. The model is then compared with experimental results.info:eu-repo/semantics/publishe
For mobile intervehicle communication links the use of microwaves has some advantages, for example t...
The 60-GHz band is attractive for Body Area Networks (BANs) application for its high atmospheric att...
International audienceMillington effect for on-body propagation enhancement is presented in the 60-G...
The propagation of 60 GHz electromagnetic waves around a human body is studied. The body is treated ...
Abstract—A creeping wave model of the propagation of electromagnetic waves around human torso at 60 ...
On-body communication technology development requires a better knowledge of antenna radiation and wa...
The smart environments and the connected human seems to be the future of wireless communications. Th...
Creeping wave theory is re-visited for BAN (Body Area Network) channel modeling. The formulation tak...
In the field of 60 GHz high data rate wireless and Body Area Networks communications, fast computati...
In this paper methodology to exploit creeping wave for body area network BAN communication reliabili...
Abstract — This paper presents a novel technique to enable over-body propagation at 60 GHz. A flexib...
International audienceThe first analytical model of Body Area Network channels is presented. The for...
International audienceThis paper presents a new human influence model for 60 GHz close-to-user commu...
Design of high quality, high speed wireless networks to connect mobile users requires large bandwidt...
New radio interface technologies such as massive arrays will render basic assumptions for statistica...
For mobile intervehicle communication links the use of microwaves has some advantages, for example t...
The 60-GHz band is attractive for Body Area Networks (BANs) application for its high atmospheric att...
International audienceMillington effect for on-body propagation enhancement is presented in the 60-G...
The propagation of 60 GHz electromagnetic waves around a human body is studied. The body is treated ...
Abstract—A creeping wave model of the propagation of electromagnetic waves around human torso at 60 ...
On-body communication technology development requires a better knowledge of antenna radiation and wa...
The smart environments and the connected human seems to be the future of wireless communications. Th...
Creeping wave theory is re-visited for BAN (Body Area Network) channel modeling. The formulation tak...
In the field of 60 GHz high data rate wireless and Body Area Networks communications, fast computati...
In this paper methodology to exploit creeping wave for body area network BAN communication reliabili...
Abstract — This paper presents a novel technique to enable over-body propagation at 60 GHz. A flexib...
International audienceThe first analytical model of Body Area Network channels is presented. The for...
International audienceThis paper presents a new human influence model for 60 GHz close-to-user commu...
Design of high quality, high speed wireless networks to connect mobile users requires large bandwidt...
New radio interface technologies such as massive arrays will render basic assumptions for statistica...
For mobile intervehicle communication links the use of microwaves has some advantages, for example t...
The 60-GHz band is attractive for Body Area Networks (BANs) application for its high atmospheric att...
International audienceMillington effect for on-body propagation enhancement is presented in the 60-G...