Micromobility is dominant in urban areas, enhancing the transportation sustainability and
assisting in fulfilling the United Nations Sustainable Development Goals (SDGs). This work …

In this study, we originally investigated the influence of different magnets arranged circularly
on the output performance of an electromagnetic generator. Three cases are studied: an …

This paper aims to present new trends in energy-harvesting solutions pertaining to wearable
sensors and powering Body Area Network nodes. To begin, we will present the capability of …

Using vibration energy harvester (VEH) to achieve self-power supply is an effectively way to
ensure long-term use of electronic devices. In this paper, an electromagnetic VEH using …

This study investigates the use of an alternative energy source in the production of electric
energy to meet the increasing energy requirements, encourage the use of clean energy, and …

As a critical element of the technological infrastructure of body sensor networks (BSNs),
wearable electromagnetic vibration energy harvesters (EMVEHs) are a competitive …

An enhanced bandwidth nonlinear resonant electromagnetic energy harvester has been
designed to harness low frequency energy from basic human motions. The inertial mass of …

Broadband electromagnetic vibration energy harvesters (EMVEHs) can effectively convert
mechanical energy into electricity from human motions with low and random frequencies …

The battery is probably the most commonly used power supply for electronic devices.
However, batteries are gradually becoming insufficient for powering many of the emerging …

Although motion energy harvesting at the small scales has been a research topic for over 20
years, the implementation of such generators remains limited in practice. One of the most …