Reliable wireless communication inside the human body is crucial for the design of implantable body sensor networks (IBSN). The tissues in human body are heterogeneous and have dierent conductivity and permitivity, which make the modeling of the wireless channel challenging. The design of upper layers of the network stack requires the physical layer characteristics including the channel model. Currently, there is no unique channel model available for implant communication inside body. Various measurement campaigns of channel characteristics are underway. The channel model characteristics depends on the hardware components used such as antenna and matching circuit as well as the operating frequency, which are not taken into account by the ex...
In this paper, we numerically investigated the in vivo wireless communication channel for human male...
A body area network (BAN) is a network of bodyworn or implanted electronic devices, including wirele...
This paper presents a numerical study of the wireless channel characteristics of liver implants in a...
Reliable wireless communication inside the human body is crucial for the design of implantable body ...
The wireless communication channel around/in the human body is a difficult propagation environment. ...
Propagation of radio-frequency (RF) signals inside human body is demanding to analyze as it is a hig...
In vivo wireless body area networks (WBANs) and their associated technologies are shaping the future...
Wireless implantable body area network (WiBAN) is useful in health monitoring systems especially for...
With the advancement of implantable technology in the sensory world, new possibilities to improve th...
Through an integration of wireless communication and sensing technologies, the concept of a body sen...
Applications of body sensor networks (BSN) in health-care are growing rapidly. The number of implant...
Our research institute focuses on wireless autonomous transducer systems. Body-area-networks have a ...
Ultra wideband (UWB) radio technology for wireless implants has gained significant attention. UWB en...
Our research institute focuses on wireless autonomous transducer systems. Body-area-networks have a ...
Body-Centric Wireless Communication (BCWC) is a central point in the development of fourth generatio...
In this paper, we numerically investigated the in vivo wireless communication channel for human male...
A body area network (BAN) is a network of bodyworn or implanted electronic devices, including wirele...
This paper presents a numerical study of the wireless channel characteristics of liver implants in a...
Reliable wireless communication inside the human body is crucial for the design of implantable body ...
The wireless communication channel around/in the human body is a difficult propagation environment. ...
Propagation of radio-frequency (RF) signals inside human body is demanding to analyze as it is a hig...
In vivo wireless body area networks (WBANs) and their associated technologies are shaping the future...
Wireless implantable body area network (WiBAN) is useful in health monitoring systems especially for...
With the advancement of implantable technology in the sensory world, new possibilities to improve th...
Through an integration of wireless communication and sensing technologies, the concept of a body sen...
Applications of body sensor networks (BSN) in health-care are growing rapidly. The number of implant...
Our research institute focuses on wireless autonomous transducer systems. Body-area-networks have a ...
Ultra wideband (UWB) radio technology for wireless implants has gained significant attention. UWB en...
Our research institute focuses on wireless autonomous transducer systems. Body-area-networks have a ...
Body-Centric Wireless Communication (BCWC) is a central point in the development of fourth generatio...
In this paper, we numerically investigated the in vivo wireless communication channel for human male...
A body area network (BAN) is a network of bodyworn or implanted electronic devices, including wirele...
This paper presents a numerical study of the wireless channel characteristics of liver implants in a...