The Internet of Bodies (IoBs) is an imminent extension to the vast Internet of Things domain, where interconnected devices (eg, worn, implanted, embedded, swallowed, etc.) are located …
One of the main objectives of research into intrabody communication (IBC) is the characterization of the human body as a transmission medium for electrical signals …
Modeling of intrabody communication (IBC) entails the understanding of the interaction between electromagnetic fields and living tissues. At the same time, an accurate model can …
Electromagnetic simulation-based channel modeling is presently considered as a promising option for wireless body area network (WBAN) channel modeling. The benefits of simulation …
Galvanic coupling in intrabody communication (IBC) is a technique that couples low-power and low-frequency voltages and currents into the human body, which acts as a transmission …
Significance: The need for increasingly energy-efficient and miniaturized bio-devices for ubiquitous health monitoring has paved the way for considerable advances in the …
Objective: The objective of this paper is to model and experimentally validate the path loss benefits of magnetic human body communication (mHBC) using small form-factor-accurate …
Electromagnetic (EM) body models based on the scalar diffraction theory allow for predicting the impact of subject motions on the radio propagation channel without requiring a time …
In this letter, an analytically tractable model based on diffraction theory is proposed to describe the perturbations of the electromagnetic propagation of radio signals caused by the …