The Internet of Underwater Things (IoUT) is an emerging communication ecosystem
developed for connecting underwater objects in maritime and underwater environments …

Recently, energy scavenging studies have become an important research area not only for
the utilization of ambient energy sources but also for their high potential to replace the …

In this paper, we focus on the use of linear sensor networks (LSNs) to monitor underwater
pipelines. We propose the use of autonomous underwater vehicles (AUVs) to move along …

The oceans, seas, rivers and channels store abundant renewable low velocity flow energy
but without large-scale exploitation. For energy harvesting, the vortex induced vibration (VIV) …

A serious drop in ensuring the water quality in the distribution system is a factor that affects
public health. This could lead to increase in biological and non-biological contents, change …

A novel Kinetic Energy Harvester (KEH) has been developed for powering oceanic
undrogued drifters. It consists on a double pendulum system capable of transforming the …

Harvesting energy from the wind to replace the conventional electrochemical batteries has
gained considerable interest. An axially retractable bracket-shaped piezoelectric vibrator …

In this paper, a bladeless electromagnetic energy harvester based on Tesla turbine is
proposed to harvest fluid's kinetic energy and monitor the stability of flow inside the pipeline …

Piezoelectric vibration energy harvesting has attracted considerable attention because of its
prospects in self-powered electronic applications. There are a many low-velocity waters in …

Pipeline turbines are designed to supply power for smart sensors installed in water
pipelines. They are installed in the water supply pipe network directly and should meet the …