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Autonomous Wind-Turbine Blade Inspection Using LiDAR-Equipped Unmanned Aerial Vehicle

Marko Car, Lovro Marković, Antun Ivanović, Matko Orsag, Stjepan Bogdan

2020IEEE Access78 citationsDOIOpen Access PDF

Abstract

This paper presents a LiDAR-equipped unmanned aerial vehicle (UAV) performing semi-autonomous wind-turbine blade inspection which includes traversing to the blade tip and back, while keeping constant relative distance and heading to the blade plane. Plane detection is performed applying the RANSAC method on a subset of the gathered pointcloud. Utilizing the relative distance to the inferred plane as well as its normal vector, the UAV is able to maintain a constant distance and heading towards the plane while moving in parallel with it. The proposed procedure performs successful wind-turbine blade inspections with minimal operator involvement. Inspection results include high-resolution blade images as well as a 3D model of the wind-turbine structure. Finally, to show the feasibility of this approach, simulations are performed on a wind-turbine model and experimental results are presented for an outdoor single-blade inspection scenario both on a mock-up setup and a full-scale wind-turbine blade. It is worth noting that the system's adequacy has been fully validated in real conditions on an operational wind farm.

Topics & Concepts

RANSACLidarBlade (archaeology)Turbine bladeTurbineHeading (navigation)TraverseComputer scienceMarine engineeringWind speedPlane (geometry)Wind directionAerospace engineeringSimulationRemote sensingComputer visionEngineeringGeologyGeodesyMeteorologyPhysicsMechanical engineeringMathematicsImage (mathematics)GeometryRobotics and Sensor-Based LocalizationRemote Sensing and LiDAR ApplicationsOptical measurement and interference techniques
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