A wind farm's overall power production is significantly less than its nominal power, defined
as the sum of the wind turbines' rated outputs. The primary cause for this significant loss is …

Wind farm control design is a recently new area of research that has rapidly become a key
enabler for the development of large wind farm projects and their safe and efficient …

In wind farms, turbines are operated to maximize only their own power production. Individual
operation results in wake losses that reduce farm energy. Here we operate a wind turbine …

Yaw control is one of the most promising active wake control strategies to maximize the total
power generation of wind farms. Meanwhile, structural performance needs to be considered …

In wind farms, wakes originating from upstream turbines cause reduced energy extraction
and increased loading variability in downstream rows. The prospect of mitigating these …

Wake steering is a wind farm control strategy in which upstream wind turbines are
misaligned with the wind to redirect their wakes away from downstream turbines, thereby …

This paper presents the results of a field campaign investigating the performance of wake
steering applied at a section of a commercial wind farm. It is the second phase of the study in …

Wind farm control strategies are being developed to mitigate wake losses in wind farms,
increasing energy production. Wake steering is a type of wind farm control in which a wind …

Deploying machine learning (ML)-based intrusion detection systems (IDS) is an effective
way to improve the security of industrial control systems (ICS). However, ML models …

The performance of an open-loop wake steering controller is investigated with a new unique
set of wind tunnel experiments. A cluster of three scaled wind turbines, placed on a large …