In this paper, we numerically investigated the in vivo wireless communication channel for human male torso at 915 MHz. Results show that in vivo channel is different than the classical communication channel and location dependency is very critical for link budget calculations. A statistical path loss model based on angle, depth and body region is introduced for near and far field regions. Furthermore, multipath characteristics are investigated using a power delay profile as well
Physical-layer characterization is important for design of in-to-out body communication for wireless...
Reliable wireless communication inside the human body is crucial for the design of implantable body ...
In vivo wireless medical devices have a critical role in healthcare technologies due to their contin...
In this paper, we numerically investigated the in vivo wireless communication channel for human male...
WOS: 000409521700007PubMed ID: 27810839In vivo wireless body area networks and their associated tech...
We review EM modeling of the human body, which is essential for in vivo wireless communication chann...
In this paper, preliminary study on path loss characterization of in-vivo communication channel at 2...
This article presents mathematical channel modeling for in-vivo communication in terms of the change...
The wireless communication channel around/in the human body is a difficult propagation environment. ...
In vivo wireless medical devices have a critical role in healthcare technologies due to their contin...
Reliable wireless communication inside the human body is crucial for the design of implantable body ...
Abstract — In this paper we perform signal strength and channel impulse response simulations using a...
This paper presents an impact on an in-vivo channel with respect to the position of ex-vivo antenna ...
This paper presents a numerical study of the wireless channel characteristics of liver implants in a...
In this paper, we present the experimental analysis of in vivo wireless channel response on Ultra-Wi...
Physical-layer characterization is important for design of in-to-out body communication for wireless...
Reliable wireless communication inside the human body is crucial for the design of implantable body ...
In vivo wireless medical devices have a critical role in healthcare technologies due to their contin...
In this paper, we numerically investigated the in vivo wireless communication channel for human male...
WOS: 000409521700007PubMed ID: 27810839In vivo wireless body area networks and their associated tech...
We review EM modeling of the human body, which is essential for in vivo wireless communication chann...
In this paper, preliminary study on path loss characterization of in-vivo communication channel at 2...
This article presents mathematical channel modeling for in-vivo communication in terms of the change...
The wireless communication channel around/in the human body is a difficult propagation environment. ...
In vivo wireless medical devices have a critical role in healthcare technologies due to their contin...
Reliable wireless communication inside the human body is crucial for the design of implantable body ...
Abstract — In this paper we perform signal strength and channel impulse response simulations using a...
This paper presents an impact on an in-vivo channel with respect to the position of ex-vivo antenna ...
This paper presents a numerical study of the wireless channel characteristics of liver implants in a...
In this paper, we present the experimental analysis of in vivo wireless channel response on Ultra-Wi...
Physical-layer characterization is important for design of in-to-out body communication for wireless...
Reliable wireless communication inside the human body is crucial for the design of implantable body ...
In vivo wireless medical devices have a critical role in healthcare technologies due to their contin...