Accurate forecasting results are crucial for increasing energy efficiency and lowering energy
consumption in wind energy. Big data and artificial intelligence (AI) have great potential in …

Airborne wind energy systems convert wind energy into electricity using tethered flying
devices, typically flexible kites or aircraft. Replacing the tower and foundation of …

Currently developed airborne wind energy systems have reached sizes of up to several
hundred kilowatts. This paper presents the high-level design and a six-degrees-of-freedom …

The world has witnessed an unprecedented growth of WF installation, driven by national
and international energy policies. Considering the negative impacts of fossil fuel and …

Airborne wind energy (AWE) is a wind power technology that harvests energy at high
altitudes. The performance of AWE systems relative to traditional wind power turbines (WT) …

The optimal control problem for flight trajectories of Fly-Gen airborne wind energy systems
(AWESs) is a crucial research topic for the field, as suboptimal paths can lead to a drastic …

This study investigates the performance of pumping-mode ground-generation airborne wind
energy systems (AWESs) by determining cyclical, feasible, power-optimal flight trajectories …

In this paper, we present AWEbox, a Python toolbox for modeling and optimal control of multi-
aircraft systems for airborne wind energy (AWE). AWEbox provides an implementation of …

Government and legislative authorities around the globe are concerned about the pollution-
related problems and criteria affecting the energy paradigm with ever-increasing …

Airborne wind energy (AWE) is a new power generation technology that harvests wind
energy at high altitudes using tethered wings. The potentially higher energy yield, combined …