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Multi-Robot Coverage Path Planning for the Inspection of Offshore Wind Farms: A Review

Offshore wind turbine (OWT) inspection research is receiving increasing interest as the sector grows worldwide. Wind farms are far from emergency services and experience extreme weather and winds. This hazardous environment lends itself to unmanned approaches, reducing human exposure to risk. Increa...

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Published in:	Drones (Basel) 2024-01, Vol.8 (1), p.10
Main Authors:	Foster, Ashley J. I., Gianni, Mario, Aly, Amir, Samani, Hooman, Sharma, Sanjay
Format:	Article
Language:	English
Subjects:	Air-turbines Buildings and facilities coverage path planning Decision analysis Decision-making Environment models Hazardous areas Inspection Inspections Literature reviews multi-robot Multiple robots Offshore Offshore energy sources offshore wind Path planning Ray tracing Robotics Robots Semantics State-of-the-art reviews structural inspection Teams Turbines UAV Unmanned aerial vehicles Wind farms Wind power Wind turbines
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description	Offshore wind turbine (OWT) inspection research is receiving increasing interest as the sector grows worldwide. Wind farms are far from emergency services and experience extreme weather and winds. This hazardous environment lends itself to unmanned approaches, reducing human exposure to risk. Increasing automation in inspections can reduce human effort and financial costs. Despite the benefits, research on automating inspection is sparse. This work proposes that OWT inspection can be described as a multi-robot coverage path planning problem. Reviews of multi-robot coverage exist, but to the best of our knowledge, none captures the domain-specific aspects of an OWT inspection. In this paper, we present a review on the current state of the art of multi-robot coverage to identify gaps in research relating to coverage for OWT inspection. To perform a qualitative study, the PICo (population, intervention, and context) framework was used. The retrieved works are analysed according to three aspects of coverage approaches: environmental modelling, decision making, and coordination. Based on the reviewed studies and the conducted analysis, candidate approaches are proposed for the structural coverage of an OWT. Future research should involve the adaptation of voxel-based ray-tracing pose generation to UAVs and exploration, applying semantic labels to tasks to facilitate heterogeneous coverage and semantic online task decomposition to identify the coverage target during the run time.
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subjects	Air-turbines Buildings and facilities coverage path planning Decision analysis Decision-making Environment models Hazardous areas Inspection Inspections Literature reviews multi-robot Multiple robots Offshore Offshore energy sources offshore wind Path planning Ray tracing Robotics Robots Semantics State-of-the-art reviews structural inspection Teams Turbines UAV Unmanned aerial vehicles Wind farms Wind power Wind turbines
title	Multi-Robot Coverage Path Planning for the Inspection of Offshore Wind Farms: A Review
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