Wireless Underground Sensor Networks (WUSNs) present a variety of new research
challenges. Recently, a magneto-inductive (MI) waveguide technique has been proposed to …

The use of magnetic induction (MI) based transmissions in challenging environments has
been investigated in various works. Recently, a system model has been proposed, which …

We focus on sensor networks that are deployed in challenging environments, wherein
sensors do not always have connected paths to a base station, and propose a new data …

Magnetic induction (MI) has been proven to be an efficient wireless communication
technique for overcoming the transmission challenges in some very harsh propagation …

The tremendous potential of sensing and communication technologies has been explored
and implemented for different remote event monitoring applications over the past two …

Wireless underground sensor networks (WUSNs) are an emerging and promising research
area. The aim of WUSNs is to establish an efficient wireless communication in the …

Sudden death is the most common disease of heart diseases and usually caused by cardiac
arrest. The electrocardiograph (ECG) system is the most direct way to observe and monitor …

In underground sensor networks, electronic magnetic waves undergo severe fading due to
the challenging environment. Magnetic-induction (MI) communication is a promising …

The possibility of employing sensor nodes that wireless communicate under the ground,
through concrete, or under-the-debris (disaster scenario) has been recently highlighted at …

The cellular network of magnetic Induction (MI) communication holds promise in long-
distance underground environments. In the traditional MI communication, there is no fast …