A new image processing technique was investigated to assess its ability to detect surface flaws on an on-tower wind turbine blade (WTB). The method was tested by varying the parameters of the surface flaws as well as the parameters of the method. It was found that detecting and quantifying cracks as small as hair thickness with computer-based optical inspection is feasible and the orientation of a crack was not sensitive to image processing so that the inspection camera does not need to be set up at a specific angle to detect cracks. It was also found that uneven background illumination was significantly reduced by optimizing the threshold value using the Canny method. In addition, the accuracy of quantifying a crack was improved by reducin...
This research focuses on the automation of blade inspection, using different Computer Vision (CV) ap...
Wind energy, with an exponential growth in the last years, is nowadays one of the most important ren...
The application of reliable structural health monitoring (SHM) technologies to operational wind turb...
Cracks on the surface of a wind turbine blade (WTB) can be a sign of current or future damage to the...
Wind turbines are known to be the most efficient method of green energy production, and wind turbine...
Wind turbine generators are spreading around the world due to its advantages over fossil fuels. Stru...
Wind turbines, as critical components of the renewable energy industry, present unique maintenance c...
Wind energy is expected to be one of the leading ways to achieve the goals of the Paris Agreement bu...
Blades play a vital role in wind turbine system performances. However, they are susceptible to damag...
Wind turbines are subjected to continuous rotational stresses and unusual external forces such as st...
Wind turbines are subjected to continuous rotational stresses and unusual external forces such as st...
Checking wind turbines for damage is a common problem for operators of wind parks, as regular inspec...
In recent years, wind turbines have shown a maximization trend. However, most of the wind turbine bl...
An image analysis method was developed for the inspection of rotating blades of steam turbines. The ...
Inspection of wind turbine blades is required to identify any defects or failures and decide on any ...
This research focuses on the automation of blade inspection, using different Computer Vision (CV) ap...
Wind energy, with an exponential growth in the last years, is nowadays one of the most important ren...
The application of reliable structural health monitoring (SHM) technologies to operational wind turb...
Cracks on the surface of a wind turbine blade (WTB) can be a sign of current or future damage to the...
Wind turbines are known to be the most efficient method of green energy production, and wind turbine...
Wind turbine generators are spreading around the world due to its advantages over fossil fuels. Stru...
Wind turbines, as critical components of the renewable energy industry, present unique maintenance c...
Wind energy is expected to be one of the leading ways to achieve the goals of the Paris Agreement bu...
Blades play a vital role in wind turbine system performances. However, they are susceptible to damag...
Wind turbines are subjected to continuous rotational stresses and unusual external forces such as st...
Wind turbines are subjected to continuous rotational stresses and unusual external forces such as st...
Checking wind turbines for damage is a common problem for operators of wind parks, as regular inspec...
In recent years, wind turbines have shown a maximization trend. However, most of the wind turbine bl...
An image analysis method was developed for the inspection of rotating blades of steam turbines. The ...
Inspection of wind turbine blades is required to identify any defects or failures and decide on any ...
This research focuses on the automation of blade inspection, using different Computer Vision (CV) ap...
Wind energy, with an exponential growth in the last years, is nowadays one of the most important ren...
The application of reliable structural health monitoring (SHM) technologies to operational wind turb...