Traditional structures adopt a split design with vibration control, energy harvesting and
monitoring, which is difficult to meet the needs of technological development. The …

The concept of green and sustainable development is driving the convergence of
transportation systems and energy technologies. New energy harvesting technology (EHT) …

The energy harvesting technology is capable of harnessing the intrinsic rotating energy of
the rotor system to realize self-powered rotor condition monitoring for the Internet of Things …

This paper presents the design, theoretical modelling and experimental validation of a quad-
stable energy harvester for harnessing ultra-low frequency random motions using a …

The ubiquitous ultra-low-frequency rotational motions have become a kind of potential
source for energy harvesting. Despite this, achieving high energy output at ultra-low …

This paper presents an investigation of the performance of a coupled rotational double-
beam energy harvester (DBEH) with magnetic nonlinearity. Two spring-connected cantilever …

The rapid development of the fifth-generation mobile networks (5G) and the Internet of
Things (IoT) is inseparable from a large number of miniature, low-cost, and low-power …

Vibration energy harvesting is promising to supply power autonomy for many electronic
devices. This paper proposes a novel nonlinear piezoelectric energy harvester with a two …

Vibration energy harvesting technology is characterized by wide distribution, is pollution-free
and independent of weather and climate, and is suitable for powering low-power sensors to …

Energy harvesting provides a potential solution to power distributed sensors for train
condition monitoring in a self-sustained manner, but the broadband and random nature of …